ORF » Species Summary » Nasonia vitripennis » LOC100121921 cDNA ORF clone

LOC100121921 cDNA ORF clone, Nasonia vitripennis(jewel wasp)

The following LOC100121921 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC100121921 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
ONd29265 XM_031926399.1
Latest version!		 Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
ONd06479 XM_003425692.4
Latest version!		 Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
ONd06480 XM_008205669.3
Latest version!		 Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
ONd29262 XM_031926396.1
Latest version!		 Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
ONd29262 XM_031926394.1
Latest version!		 Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
ONd29262 XM_031926395.1
Latest version!		 Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
ONd29263 XM_031926397.1
Latest version!		 Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
ONd29264 XM_031926398.1
Latest version!		 Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
ONd06479 XM_008205668.2
Latest version!		 Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $881.30
$1259.00
ONd06479 XM_003425691.3
Latest version!		 Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $881.30
$1259.00
ONd06479 XM_008205666.2
Latest version!		 Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $881.30
$1259.00
ONd06479 XM_008205667.2
Latest version!		 Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $881.30
$1259.00
ONd06481 XM_008205670.2
Latest version!		 Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $881.30
$1259.00
ONd23576 XM_016983795.1
Latest version!		 Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $797.30
$1139.00
View Old Accession Versions >>
ONd06480 XM_008205669.2 Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $881.30
$1259.00
ONd06479 XM_003425692.3 Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $881.30
$1259.00
Hide Old Accession Versions >>

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone 30% OFF
2-4 Clone 40% OFF
5 or more Clone 50% OFF
All Other ORF Clones
30% OFF

*Business Day

** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    LOC100121921 ( XM_031926399.1 ) cDNA ORF clone, Nasonia vitripennis(jewel wasp) -> XP_031782259.1 Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID ONd29265
    Clone ID Related Accession (Same CDS sequence) XM_031926399.1
    Accession Version XM_031926399.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4434bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-23
    Organism Nasonia vitripennis(jewel wasp)
    Product rho guanine nucleotide exchange factor 28 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_022279627.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nasonia vitripennis Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGAAAAGC GCAGGGAAGG ACTCGCGCCG TTTTCCTCCG ACGAATGTCC GAACAGCGGG 
    GAGGACAGCG ACGAGGATGT AATAACAGAC TACCTGGGCT CCGCGCAATC GGAGTGTTCA 
    CGCGTGTCTG TCGTTAACGG GGATCACCTC CCCGAGCAGC AGCATCAGTC CGACGCAGCA 
    GTCGCCGGCA ATTATACCAA AGACAGCACC GGTCATCATC AGCAGCAACA TCACCACCAT 
    CCAACGATCG TCATGTCCGA CACGCCGGAA GAGCAACAGC AGCACGGAGC TGGACACCCG 
    ACGGCGACCA GTCCCCTGGT GCCCATCATC AGCGTCACCC CTCACTCGCC TGGACTCGCC 
    GCCAAGCATT ACCCCGTTCT CGAGGAACCT CTGCGTCATC TGCACGAGAT CCACGACAAG 
    ATCAACCAGA TGCGCGACCT GACGCTGGCC CTGGCGAGCC GTACACAGCC GGGCGAGCAC 
    CTGCAGCGTT TCAGCACCTC CTGTCCGTCC CTCTGCCCGA TCATCTCGAT CGACGGCATC 
    GTCCAGTCGT CGTCGTCGGC CGTCGGAGGC CACCACCATC ACCACCACCA TCACCAGCAG 
    CAGCACAGCA GTCAGGAGCA GGATGGCTCG GACCCGGACC TCCTGACCAA CTGCTCGACC 
    AACAGCTCGC CTACGCACTT TCCCGGCACC ATCATGGTTG GCGGCGCTGC TGGACACGCC 
    TGCAGCCAGA TCCTCCAGGG AATCGACAGG CGGCGCAGCT GGACCGACCT CGAGGACTCC 
    AGGCAGCATC GGCGGGGCTC CGATCAGAAT CACCTGCAGG CCCAGAACAT CCGGCAGCGA 
    AGTATCAGCT TGAGCAGTCT CGATAGTGAC ATGGACCTGG AGTTGGATGG CAAATCTCGC 
    GCCAGAGATA CGAGCAACAA AACCCGCACT TCCGTGTCGC AGTCCAGTAC GCATTCGCTG 
    AACGAAGCCG ACTTTGTCCA TCAGAACGAG TTCAAGAAAG TGGTGGTCAA GCGTGGAGGT 
    CAGAGGCTAG GGGAGAACGT CAGCTTGATG CCCGGGGTGA CCGGATCGCG ATTGCCGCTC 
    CAGAAGTCCG TTTCGACACC ATCCATTGTC ATACCGCCGG GCCAGACTCA CCTCACGGAA 
    ACTGGGGCGC GCGTCGCTCC CTCTCTCTCC ACCACAGCAT ATGACGATCG ACATTCGGAG 
    AAAACAAAAA GAAAACGAGG TTCATTATTT TCAAGAAAGA AGAAGGATAA AAGTGGGAAG 
    AAGCCAGCGC AACAACATCA ATGGGCAGCT ATAAACGTAT CGTCACAGGG AAACAACAGT 
    TGTGATTTTT GTATGAAGTC TTTTGCTAGT AAACCGACTT TACACTGCGA AAATTGCGGC 
    GCCATAATTC ACCAGGCGTG CAAAGACCAT TACCAAGCAG AATGCACGAA ATCGAAGCCC 
    TCAAGCAAAT CTTCGTTCAA ATCACTGTCG AGCGTCTCGA TATCGTCGAC GAGCAGCATC 
    GTGAAGCGTG GCTCCACGGC TTCGCTGCCG CTGCCAGCGT CGATCGGTAC CGGAAGGGAT 
    AATAACAACA AGAAAGCGGT GACAAGCTAC AGCCCTTGGC GGCGAGTTGC CACCAAGCTC 
    GGAGTCAATC AAACTATCAA TGAGGAGAGA GACGGAGATG GAGGCTCTCA TCGCGATATT 
    TCCAGCGGCT TGGAGGAGTT CGACTTCGAC GATACGCACC AGTTCAGCCT GGACGAGTTC 
    GACGGTCAGC GTCCGGAGCT GGGCCTGGGT CGGGAGGAGC CGGACTCTTG GAGCGCCTGG 
    ATCGGTCGTA AGGTCGCTCT GCGACTCGTC GACAACAACG AGCGCGAAGT CAAGCGGCAG 
    GAGCACATCT ACGAGTTCAT CCTCACCGAG AAGCACCACT GCCTCGTGCT GCTGGCCATG 
    CAGCGGATCT TCGTCGAGGG CCTGCAGCGT CATTTCAATC TTAACTCCTC GGTCCTCGAC 
    CGCATGTTCC CCAAGCTCCA GAACCTCATG GACATCCACT TTGACTTCTT GGCCAAGCTC 
    AGGCATCGCC AGGCCGAGAA CGCGGTTGTC ACCACCATCG CCGACATACT GATAGACCAG 
    TTTTCCGGCG AGAACTCCTA CAATATGAAG AATGCCTACG GCGAGTTCTG CAGTCGGCAC 
    AGGGACGCGG TCGACGTCTA CAAGCAGCAG CAGCAGATGG ACACGAGGTT CGCCAGATTC 
    GTCAGGCACT GTCAGAACAA CCCGTTGCTC AAAAAGAAGG GCATCCCCGA GTGCATACTC 
    TTCGTCACCC AGAGGCTGAC CAAGTATCCG CTGCTGGTCG AGCCGCTGAT CAAGACCGGG 
    GTGACCACCG AGGAGACTGA CAATCTGCGT AAAGCCCTGA GTCTCGTTAA GGAGATACTC 
    GGCGAAGTCG ATGCCTGCGT CGCCGACAAA GAGCGGACGG ACAGGAAACT GGATATTTAT 
    CACAAAATCG ATGCAAAGTC GTACGCTTAC TATCGCGGTA AAAAGTTCAA AAAGTCCGAT 
    ATCTTGGCGT CGAATCGCAA CCTCAAATTT GAAGGCACAG CCTGGCTGCT CCAGGGACGA 
    AGCAAGACGG TACCTGTAGT GGTGGTCTGC CTTACTGACG TGCTTTTCTT CCTGGCTGGC 
    GAACAGAAGT ATGCGTTCTT CGTGCCTGAC AATAAAGCGG GCGTCGTTTC GCTGCAGAAG 
    CTGCTAGTAC GCGAGAAGGC CGGCAACGAA TCGCGCGGCA TCTATCTCAT CAGCAGCAAT 
    CCCAGCGAGC CCGAAATGTT CGAGCTCAAG GTCAAGGATC CGCGAGACAA GCATCTGTGG 
    GTCAAAGCGA TCAGAGCAGC GGTCGAATCG TGCCCGCAAG AGCCCGACAG TGAAAACTGT 
    AATTTTACCG AGAACAATAT GGTTAACGAG ATGCGGGATG CGCGCTCGCT GTCTCTGTCG 
    AAGATGTCCC CCGAGGAGAA ACTTAGACAA GCCAAAGAAA CACATTTGCA GAATATAATT 
    GATGAACTTA AGAAGAAAGA TGAGGAGCAA GCATCGCTGT TCGAACAGAA GATGTATTTA 
    CATATGAGAT TACACGACGC GATAAGTATG CGCGGTAGTA ACGAAAACGA CGTGGATAAA 
    ATAGACAAAG ATTACAAGGA AGTACCTGAC TATTTAAGGT ACATCGGAGG TGAAGGAATC 
    AATTTGACAA AGATGTACCA AGAGGCGCGC GAAGCTGTTC AGGAGGCAAT GCGATTGGTC 
    AATTCCTTGT CTTATGGCGC AGGCGGTGGA ACTTTGTCAA GAAGTTTAAG TTCAGCAGGT 
    GAAAGACACA GCGATGCTTA CGTGCCACCG TCGCTCGCTG TTCCCAGGAG AGCAGAGACC 
    TTTGCTGGCT TTGATCACAA CAAAGAACGC TATCCGTGGC GAGATTCAGT TGCATTGAAT 
    AACATGGCAC CGCCTATGCC GAAAAACGAA GAGGTGAACA CCGTTGAACA GGTGGAGGGC 
    AAAGAAGAGG ATGAGCTTGA CGCCTATAGA GACCAGCGTG AGGTCGCTGT CAGAATTTCC 
    CATTACGTGG ATACGCTGCT TTTTATCATC AGTAATCAGT TGACAACAAT CGAGAACTTG 
    CAATCTCAAT TAGCAGGTTT CAAAGACGGT AGCGTAGGTG GCAAATCGAA TAATCGCCCC 
    AACCCGAATC GTCAACTCGA AGAGCTTCGC AATCTACAGG ACAAACTGAG TCGCGAGCGA 
    GCTGAATTTC GCGCATCCTC GCAGCAAGAG CGTGCCCAGC TCGAGGAGGA GCGAGCTGAG 
    CTCAACAAGC TACGTAGTCA GCTGTCAGCG GATCAACGTG ACCTCGACAA GCAGCGCGAT 
    CAGCTGTATC GCAAACTGGA GGCGCTGACG CGTCAAGGAG TGTCGCTAAC CACGGGTGCA 
    CCAGTGCCTG TGGTGACGCA CGGAACTGGT GACGCTAATC AGAGCTCGTC TTCATCATCG 
    TCGTCGACAT CGCGGAAAAA GTCGCAAACT GACGAGAAGG GCATGATTCC ACAAAATCTA 
    TTCAGTGCCA CAAACCAGCA GAAGGTGCAA CAACTGCCCG TAAAGCAGCA ACTGCCGCTT 
    AAACTGGCCA GTGGTAGTAA TAATACCAAC TCCAGGAGCG GAAGCATAGT AAGCAACAAC 
    AGTCCGGACC GTCACTCGCG GACGGGTAGC AGTCCAGCGA TAGTAACGAG CTCTTCGGCC 
    CTATCATCTC CTGAACTTGG CACTAGCAGC AATCACCACA ATAACGGTTC TAGCGCTCTA 
    AGCCACTTCT CGATGTCGAA TCGCTCATTG CGCTATACGC GTATACCCGA GCCTTATCCT 
    CGCAAACATC ACGTACAACA ACAGCAGCAG CAGCAGCAGC AACAGCAGCA GCAACAGCAG 
    CCACAGCGAG CCGAACCGCA GCAACCGCTT GAGGAAGAGG TACTGTTTTT GTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_031782259.1
    CDS632..5065
    Translation

    Target ORF information:

    RefSeq Version XM_031926399.1
    Organism Nasonia vitripennis(jewel wasp)
    Definition Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_031926399.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    ATGGAAAAGC GCAGGGAAGG ACTCGCGCCG TTTTCCTCCG ACGAATGTCC GAACAGCGGG 
    GAGGACAGCG ACGAGGATGT AATAACAGAC TACCTGGGCT CCGCGCAATC GGAGTGTTCA 
    CGCGTGTCTG TCGTTAACGG GGATCACCTC CCCGAGCAGC AGCATCAGTC CGACGCAGCA 
    GTCGCCGGCA ATTATACCAA AGACAGCACC GGTCATCATC AGCAGCAACA TCACCACCAT 
    CCAACGATCG TCATGTCCGA CACGCCGGAA GAGCAACAGC AGCACGGAGC TGGACACCCG 
    ACGGCGACCA GTCCCCTGGT GCCCATCATC AGCGTCACCC CTCACTCGCC TGGACTCGCC 
    GCCAAGCATT ACCCCGTTCT CGAGGAACCT CTGCGTCATC TGCACGAGAT CCACGACAAG 
    ATCAACCAGA TGCGCGACCT GACGCTGGCC CTGGCGAGCC GTACACAGCC GGGCGAGCAC 
    CTGCAGCGTT TCAGCACCTC CTGTCCGTCC CTCTGCCCGA TCATCTCGAT CGACGGCATC 
    GTCCAGTCGT CGTCGTCGGC CGTCGGAGGC CACCACCATC ACCACCACCA TCACCAGCAG 
    CAGCACAGCA GTCAGGAGCA GGATGGCTCG GACCCGGACC TCCTGACCAA CTGCTCGACC 
    AACAGCTCGC CTACGCACTT TCCCGGCACC ATCATGGTTG GCGGCGCTGC TGGACACGCC 
    TGCAGCCAGA TCCTCCAGGG AATCGACAGG CGGCGCAGCT GGACCGACCT CGAGGACTCC 
    AGGCAGCATC GGCGGGGCTC CGATCAGAAT CACCTGCAGG CCCAGAACAT CCGGCAGCGA 
    AGTATCAGCT TGAGCAGTCT CGATAGTGAC ATGGACCTGG AGTTGGATGG CAAATCTCGC 
    GCCAGAGATA CGAGCAACAA AACCCGCACT TCCGTGTCGC AGTCCAGTAC GCATTCGCTG 
    AACGAAGCCG ACTTTGTCCA TCAGAACGAG TTCAAGAAAG TGGTGGTCAA GCGTGGAGGT 
    CAGAGGCTAG GGGAGAACGT CAGCTTGATG CCCGGGGTGA CCGGATCGCG ATTGCCGCTC 
    CAGAAGTCCG TTTCGACACC ATCCATTGTC ATACCGCCGG GCCAGACTCA CCTCACGGAA 
    ACTGGGGCGC GCGTCGCTCC CTCTCTCTCC ACCACAGCAT ATGACGATCG ACATTCGGAG 
    AAAACAAAAA GAAAACGAGG TTCATTATTT TCAAGAAAGA AGAAGGATAA AAGTGGGAAG 
    AAGCCAGCGC AACAACATCA ATGGGCAGCT ATAAACGTAT CGTCACAGGG AAACAACAGT 
    TGTGATTTTT GTATGAAGTC TTTTGCTAGT AAACCGACTT TACACTGCGA AAATTGCGGC 
    GCCATAATTC ACCAGGCGTG CAAAGACCAT TACCAAGCAG AATGCACGAA ATCGAAGCCC 
    TCAAGCAAAT CTTCGTTCAA ATCACTGTCG AGCGTCTCGA TATCGTCGAC GAGCAGCATC 
    GTGAAGCGTG GCTCCACGGC TTCGCTGCCG CTGCCAGCGT CGATCGGTAC CGGAAGGGAT 
    AATAACAACA AGAAAGCGGT GACAAGCTAC AGCCCTTGGC GGCGAGTTGC CACCAAGCTC 
    GGAGTCAATC AAACTATCAA TGAGGAGAGA GACGGAGATG GAGGCTCTCA TCGCGATATT 
    TCCAGCGGCT TGGAGGAGTT CGACTTCGAC GATACGCACC AGTTCAGCCT GGACGAGTTC 
    GACGGTCAGC GTCCGGAGCT GGGCCTGGGT CGGGAGGAGC CGGACTCTTG GAGCGCCTGG 
    ATCGGTCGTA AGGTCGCTCT GCGACTCGTC GACAACAACG AGCGCGAAGT CAAGCGGCAG 
    GAGCACATCT ACGAGTTCAT CCTCACCGAG AAGCACCACT GCCTCGTGCT GCTGGCCATG 
    CAGCGGATCT TCGTCGAGGG CCTGCAGCGT CATTTCAATC TTAACTCCTC GGTCCTCGAC 
    CGCATGTTCC CCAAGCTCCA GAACCTCATG GACATCCACT TTGACTTCTT GGCCAAGCTC 
    AGGCATCGCC AGGCCGAGAA CGCGGTTGTC ACCACCATCG CCGACATACT GATAGACCAG 
    TTTTCCGGCG AGAACTCCTA CAATATGAAG AATGCCTACG GCGAGTTCTG CAGTCGGCAC 
    AGGGACGCGG TCGACGTCTA CAAGCAGCAG CAGCAGATGG ACACGAGGTT CGCCAGATTC 
    GTCAGGCACT GTCAGAACAA CCCGTTGCTC AAAAAGAAGG GCATCCCCGA GTGCATACTC 
    TTCGTCACCC AGAGGCTGAC CAAGTATCCG CTGCTGGTCG AGCCGCTGAT CAAGACCGGG 
    GTGACCACCG AGGAGACTGA CAATCTGCGT AAAGCCCTGA GTCTCGTTAA GGAGATACTC 
    GGCGAAGTCG ATGCCTGCGT CGCCGACAAA GAGCGGACGG ACAGGAAACT GGATATTTAT 
    CACAAAATCG ATGCAAAGTC GTACGCTTAC TATCGCGGTA AAAAGTTCAA AAAGTCCGAT 
    ATCTTGGCGT CGAATCGCAA CCTCAAATTT GAAGGCACAG CCTGGCTGCT CCAGGGACGA 
    AGCAAGACGG TACCTGTAGT GGTGGTCTGC CTTACTGACG TGCTTTTCTT CCTGGCTGGC 
    GAACAGAAGT ATGCGTTCTT CGTGCCTGAC AATAAAGCGG GCGTCGTTTC GCTGCAGAAG 
    CTGCTAGTAC GCGAGAAGGC CGGCAACGAA TCGCGCGGCA TCTATCTCAT CAGCAGCAAT 
    CCCAGCGAGC CCGAAATGTT CGAGCTCAAG GTCAAGGATC CGCGAGACAA GCATCTGTGG 
    GTCAAAGCGA TCAGAGCAGC GGTCGAATCG TGCCCGCAAG AGCCCGACAG TGAAAACTGT 
    AATTTTACCG AGAACAATAT GGTTAACGAG ATGCGGGATG CGCGCTCGCT GTCTCTGTCG 
    AAGATGTCCC CCGAGGAGAA ACTTAGACAA GCCAAAGAAA CACATTTGCA GAATATAATT 
    GATGAACTTA AGAAGAAAGA TGAGGAGCAA GCATCGCTGT TCGAACAGAA GATGTATTTA 
    CATATGAGAT TACACGACGC GATAAGTATG CGCGGTAGTA ACGAAAACGA CGTGGATAAA 
    ATAGACAAAG ATTACAAGGA AGTACCTGAC TATTTAAGGT ACATCGGAGG TGAAGGAATC 
    AATTTGACAA AGATGTACCA AGAGGCGCGC GAAGCTGTTC AGGAGGCAAT GCGATTGGTC 
    AATTCCTTGT CTTATGGCGC AGGCGGTGGA ACTTTGTCAA GAAGTTTAAG TTCAGCAGGT 
    GAAAGACACA GCGATGCTTA CGTGCCACCG TCGCTCGCTG TTCCCAGGAG AGCAGAGACC 
    TTTGCTGGCT TTGATCACAA CAAAGAACGC TATCCGTGGC GAGATTCAGT TGCATTGAAT 
    AACATGGCAC CGCCTATGCC GAAAAACGAA GAGGTGAACA CCGTTGAACA GGTGGAGGGC 
    AAAGAAGAGG ATGAGCTTGA CGCCTATAGA GACCAGCGTG AGGTCGCTGT CAGAATTTCC 
    CATTACGTGG ATACGCTGCT TTTTATCATC AGTAATCAGT TGACAACAAT CGAGAACTTG 
    CAATCTCAAT TAGCAGGTTT CAAAGACGGT AGCGTAGGTG GCAAATCGAA TAATCGCCCC 
    AACCCGAATC GTCAACTCGA AGAGCTTCGC AATCTACAGG ACAAACTGAG TCGCGAGCGA 
    GCTGAATTTC GCGCATCCTC GCAGCAAGAG CGTGCCCAGC TCGAGGAGGA GCGAGCTGAG 
    CTCAACAAGC TACGTAGTCA GCTGTCAGCG GATCAACGTG ACCTCGACAA GCAGCGCGAT 
    CAGCTGTATC GCAAACTGGA GGCGCTGACG CGTCAAGGAG TGTCGCTAAC CACGGGTGCA 
    CCAGTGCCTG TGGTGACGCA CGGAACTGGT GACGCTAATC AGAGCTCGTC TTCATCATCG 
    TCGTCGACAT CGCGGAAAAA GTCGCAAACT GACGAGAAGG GCATGATTCC ACAAAATCTA 
    TTCAGTGCCA CAAACCAGCA GAAGGTGCAA CAACTGCCCG TAAAGCAGCA ACTGCCGCTT 
    AAACTGGCCA GTGGTAGTAA TAATACCAAC TCCAGGAGCG GAAGCATAGT AAGCAACAAC 
    AGTCCGGACC GTCACTCGCG GACGGGTAGC AGTCCAGCGA TAGTAACGAG CTCTTCGGCC 
    CTATCATCTC CTGAACTTGG CACTAGCAGC AATCACCACA ATAACGGTTC TAGCGCTCTA 
    AGCCACTTCT CGATGTCGAA TCGCTCATTG CGCTATACGC GTATACCCGA GCCTTATCCT 
    CGCAAACATC ACGTACAACA ACAGCAGCAG CAGCAGCAGC AACAGCAGCA GCAACAGCAG 
    CCACAGCGAG CCGAACCGCA GCAACCGCTT GAGGAAGAGG TACTGTTTTT GTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    LOC100121921 ( XM_003425692.4 ) cDNA ORF clone, Nasonia vitripennis(jewel wasp) -> XP_003425740.1 Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID ONd06479
    Clone ID Related Accession (Same CDS sequence) XM_008205666.2 , XM_008205667.2 , XM_003425691.3 , XM_003425692.3 , XM_008205668.2 , XM_003425692.4
    Accession Version XM_003425692.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4509bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-23
    Organism Nasonia vitripennis(jewel wasp)
    Product rho guanine nucleotide exchange factor 28 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_022279627.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 24, 2019 this sequence version replaced XM_003425692.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nasonia vitripennis Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGAAAAGC GCAGGGAAGG ACTCGCGCCG TTTTCCTCCG ACGAATGTCC GAACAGCGGG 
    GAGGACAGCG ACGAGGATGT AATAACAGAC TACCTGGGCT CCGCGCAATC GGAGTGTTCA 
    CGCGTGTCTG TCGTTAACGG GGATCACCTC CCCGAGCAGC AGCATCAGTC CGACGCAGCA 
    GTCGCCGGCA ATTATACCAA AGACAGCACC GGTCATCATC AGCAGCAACA TCACCACCAT 
    CCAACGATCG TCATGTCCGA CACGCCGGAA GAGCAACAGC AGCACGGAGC TGGACACCCG 
    ACGGCGACCA GTCCCCTGGT GCCCATCATC AGCGTCACCC CTCACTCGCC TGGACTCGCC 
    GCCAAGCATT ACCCCGTTCT CGAGGAACCT CTGCGTCATC TGCACGAGAT CCACGACAAG 
    ATCAACCAGA TGCGCGACCT GACGCTGGCC CTGGCGAGCC GTACACAGCC GGGCGAGCAC 
    CTGCAGCGTT TCAGCACCTC CTGTCCGTCC CTCTGCCCGA TCATCTCGAT CGACGGCATC 
    GTCCAGTCGT CGTCGTCGGC CGTCGGAGGC CACCACCATC ACCACCACCA TCACCAGCAG 
    CAGCACAGCA GTCAGGAGCA GGATGGCTCG GACCCGGACC TCCTGACCAA CTGCTCGACC 
    AACAGCTCGC CTACGCACTT TCCCGGCACC ATCATGGTTG GCGGCGCTGC TGGACACGCC 
    TGCAGCCAGA TCCTCCAGGG AATCGACAGG CGGCGCAGCT GGACCGACCT CGAGGACTCC 
    AGGCAGCATC GGCGGGGCTC CGATCAGAAT CACCTGCAGG CCCAGAACAT CCGGCAGCGA 
    AGTATCAGCT TGAGCAGTCT CGATAGTGAC ATGGACCTGG AGTTGGATGG CAAATCTCGC 
    GCCAGAGATA CGAGCAACAA AACCCGCACT TCCGTGTCGC AGTCCAGTAC GCATTCGCTG 
    AACGAAGCCG ACTTTGTCCA TCAGAACGAG TTCAAGAAAG TGGTGGTCAA GCGTGGAGGT 
    CAGAGGCTAG GGGAGAACGT CAGCTTGATG CCCGGGGTGA CCGGATCGCG ATTGCCGCTC 
    CAGAAGTCCG TTTCGACACC ATCCATTGTC ATACCGCCGG GCCAGACTCA CCTCACGGAA 
    ACTGGGGCGC GCGTCGCTCC CTCTCTCTCC ACCAGTCGGC ATGAAAGACA CGAAAAGGGT 
    AGTGGAAGTG AGACAGAGAC GGACGATCTT CACATCCCTC ATGGTCATGA ATTTCACGAG 
    GACTTGATGA GAGAGGGCGC GCCGAATAAC CAAGCTTCCC TCGACGAACT CTTGACCGAC 
    ACAGCATATG ACGATCGACA TTCGGAGAAA ACAAAAAGAA AACGAGGTTC ATTATTTTCA 
    AGAAAGAAGA AGGATAAAAG TGGGAAGAAG CCAGCGCAAC AACATCAATG GGCAGCTATA 
    AACGTATCGT CACAGGGAAA CAACAGTTGT GATTTTTGTA TGAAGTCTTT TGCTAGTAAA 
    CCGACTTTAC ACTGCGAAAA TTGCGGCGCC ATAATTCACC AGGCGTGCAA AGACCATTAC 
    CAAGCAGAAT GCACGAAATC GAAGCCCTCA AGCAAATCTT CGTTCAAATC ACTGTCGAGC 
    GTCTCGATAT CGTCGACGAG CAGCATCGTG AAGCGTGGCT CCACGGCTTC GCTGCCGCTG 
    CCAGCGTCGA TCGGTACCGG AAGTCAAACT ATCAATGAGG AGAGAGACGG AGATGGAGGC 
    TCTCATCGCG ATATTTCCAG CGGCTTGGAG GAGTTCGACT TCGACGATAC GCACCAGTTC 
    AGCCTGGACG AGTTCGACGG TCAGCGTCCG GAGCTGGGCC TGGGTCGGGA GGAGCCGGAC 
    TCTTGGAGCG CCTGGATCGG TCGTAAGGTC GCTCTGCGAC TCGTCGACAA CAACGAGCGC 
    GAAGTCAAGC GGCAGGAGCA CATCTACGAG TTCATCCTCA CCGAGAAGCA CCACTGCCTC 
    GTGCTGCTGG CCATGCAGCG GATCTTCGTC GAGGGCCTGC AGCGTCATTT CAATCTTAAC 
    TCCTCGGTCC TCGACCGCAT GTTCCCCAAG CTCCAGAACC TCATGGACAT CCACTTTGAC 
    TTCTTGGCCA AGCTCAGGCA TCGCCAGGCC GAGAACGCGG TTGTCACCAC CATCGCCGAC 
    ATACTGATAG ACCAGTTTTC CGGCGAGAAC TCCTACAATA TGAAGAATGC CTACGGCGAG 
    TTCTGCAGTC GGCACAGGGA CGCGGTCGAC GTCTACAAGC AGCAGCAGCA GATGGACACG 
    AGGTTCGCCA GATTCGTCAG GCACTGTCAG AACAACCCGT TGCTCAAAAA GAAGGGCATC 
    CCCGAGTGCA TACTCTTCGT CACCCAGAGG CTGACCAAGT ATCCGCTGCT GGTCGAGCCG 
    CTGATCAAGA CCGGGGTGAC CACCGAGGAG ACTGACAATC TGCGTAAAGC CCTGAGTCTC 
    GTTAAGGAGA TACTCGGCGA AGTCGATGCC TGCGTCGCCG ACAAAGAGCG GACGGACAGG 
    AAACTGGATA TTTATCACAA AATCGATGCA AAGTCGTACG CTTACTATCG CGGTAAAAAG 
    TTCAAAAAGT CCGATATCTT GGCGTCGAAT CGCAACCTCA AATTTGAAGG CACAGCCTGG 
    CTGCTCCAGG GACGAAGCAA GACGGTACCT GTAGTGGTGG TCTGCCTTAC TGACGTGCTT 
    TTCTTCCTGG CTGGCGAACA GAAGTATGCG TTCTTCGTGC CTGACAATAA AGCGGGCGTC 
    GTTTCGCTGC AGAAGCTGCT AGTACGCGAG AAGGCCGGCA ACGAATCGCG CGGCATCTAT 
    CTCATCAGCA GCAATCCCAG CGAGCCCGAA ATGTTCGAGC TCAAGGTCAA GGATCCGCGA 
    GACAAGCATC TGTGGGTCAA AGCGATCAGA GCAGCGGTCG AATCGTGCCC GCAAGAGCCC 
    GACAGTGAAA ACTGTAATTT TACCGAGAAC AATATGGTTA ACGAGATGCG GGATGCGCGC 
    TCGCTGTCTC TGTCGAAGAT GTCCCCCGAG GAGAAACTTA GACAAGCCAA AGAAACACAT 
    TTGCAGAATA TAATTGATGA ACTTAAGAAG AAAGATGAGG AGCAAGCATC GCTGTTCGAA 
    CAGAAGATGT ATTTACATAT GAGATTACAC GACGCGATAA GTATGCGCGG TAGTAACGAA 
    AACGACGTGG ATAAAATAGA CAAAGATTAC AAGGAAGTAC CTGACTATTT AAGGTACATC 
    GGAGGTGAAG GAATCAATTT GACAAAGATG TACCAAGAGG CGCGCGAAGC TGTTCAGGAG 
    GCAATGCGAT TGGTCAATTC CTTGTCTTAT GGCGCAGGCG GTGGAACTTT GTCAAGAAGT 
    TTAAGTTCAG CAGGTGAAAG ACACAGCGAT GCTTACGTGC CACCGTCGCT CGCTGTTCCC 
    AGGAGAGCAG AGACCTTTGC TGGCTTTGAT CACAACAAAG AACGCTATCC GTGGCGAGAT 
    TCAGTTGCAT TGAATAACAT GGCACCGCCT ATGCCGAAAA ACGAAGAGGT GAACACCGTT 
    GAACAGGTGG AGGGCAAAGA AGAGGATGAG CTTGACGCCT ATAGAGACCA GCGTGAGGTC 
    GCTGTCAGAA TTTCCCATTA CGTGGATACG CTGCTTTTTA TCATCAGTAA TCAGTTGACA 
    ACAATCGAGA ACTTGCAATC TCAATTAGCA GGTTTCAAAG ACGGTAGCGT AGGTGGCAAA 
    TCGAATAATC GCCCCAACCC GAATCGTCAA CTCGAAGAGC TTCGCAATCT ACAGGACAAA 
    CTGAGTCGCG AGCGAGCTGA ATTTCGCGCA TCCTCGCAGC AAGAGCGTGC CCAGCTCGAG 
    GAGGAGCGAG CTGAGCTCAA CAAGCTACGT AGTCAGCTGT CAGCGGATCA ACGTGACCTC 
    GACAAGCAGC GCGATCAGCT GTATCGCAAA CTGGAGGCGC TGACGCGTCA AGGAGTGTCG 
    CTAACCACGG GTGCACCAGT GCCTGTGGTG ACGCACGGAA CTGGTGACGC TAATCAGAGC 
    TCGTCTTCAT CATCGTCGTC GACATCGCGG AAAAAGTCGC AAACTGACGA GAAGGGCATG 
    ATTCCACAAA ATCTATTCAG TGCCACAAAC CAGCAGAAGG TGCAACAACT GCCCGTAAAG 
    CAGCAACTGC CGCTTAAACT GGCCAGTGGT AGTAATAATA CCAACTCCAG GAGCGGAAGC 
    ATAGTAAGCA ACAACAGTCC GGACCGTCAC TCGCGGACGG GTAGCAGTCC AGCGATAGTA 
    ACGAGCTCTT CGGCCCTATC ATCTCCTGAA CTTGGCACTA GCAGCAATCA CCACAATAAC 
    GGTTCTAGCG CTCTAAGCCA CTTCTCGATG TCGAATCGCT CATTGCGCTA TACGCGTATA 
    CCCGAGCCTT ATCCTCGCAA ACATCACGTA CAACAACAGC AGCAGCAGCA GCAGCAACAG 
    CAGCAGCAAC AGCAGCCACA GCGAGCCGAA CCGCAGCAAC CGCTTGAGGA AGAGGTACTG 
    TTTTTGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_003425740.1
    CDS631..5139
    Translation

    Target ORF information:

    RefSeq Version XM_003425692.4
    Organism Nasonia vitripennis(jewel wasp)
    Definition Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_003425692.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGAAAAGC GCAGGGAAGG ACTCGCGCCG TTTTCCTCCG ACGAATGTCC GAACAGCGGG 
    GAGGACAGCG ACGAGGATGT AATAACAGAC TACCTGGGCT CCGCGCAATC GGAGTGTTCA 
    CGCGTGTCTG TCGTTAACGG GGATCACCTC CCCGAGCAGC AGCATCAGTC CGACGCAGCA 
    GTCGCCGGCA ATTATACCAA AGACAGCACC GGTCATCATC AGCAGCAACA TCACCACCAT 
    CCAACGATCG TCATGTCCGA CACGCCGGAA GAGCAACAGC AGCACGGAGC TGGACACCCG 
    ACGGCGACCA GTCCCCTGGT GCCCATCATC AGCGTCACCC CTCACTCGCC TGGACTCGCC 
    GCCAAGCATT ACCCCGTTCT CGAGGAACCT CTGCGTCATC TGCACGAGAT CCACGACAAG 
    ATCAACCAGA TGCGCGACCT GACGCTGGCC CTGGCGAGCC GTACACAGCC GGGCGAGCAC 
    CTGCAGCGTT TCAGCACCTC CTGTCCGTCC CTCTGCCCGA TCATCTCGAT CGACGGCATC 
    GTCCAGTCGT CGTCGTCGGC CGTCGGAGGC CACCACCATC ACCACCACCA TCACCAGCAG 
    CAGCACAGCA GTCAGGAGCA GGATGGCTCG GACCCGGACC TCCTGACCAA CTGCTCGACC 
    AACAGCTCGC CTACGCACTT TCCCGGCACC ATCATGGTTG GCGGCGCTGC TGGACACGCC 
    TGCAGCCAGA TCCTCCAGGG AATCGACAGG CGGCGCAGCT GGACCGACCT CGAGGACTCC 
    AGGCAGCATC GGCGGGGCTC CGATCAGAAT CACCTGCAGG CCCAGAACAT CCGGCAGCGA 
    AGTATCAGCT TGAGCAGTCT CGATAGTGAC ATGGACCTGG AGTTGGATGG CAAATCTCGC 
    GCCAGAGATA CGAGCAACAA AACCCGCACT TCCGTGTCGC AGTCCAGTAC GCATTCGCTG 
    AACGAAGCCG ACTTTGTCCA TCAGAACGAG TTCAAGAAAG TGGTGGTCAA GCGTGGAGGT 
    CAGAGGCTAG GGGAGAACGT CAGCTTGATG CCCGGGGTGA CCGGATCGCG ATTGCCGCTC 
    CAGAAGTCCG TTTCGACACC ATCCATTGTC ATACCGCCGG GCCAGACTCA CCTCACGGAA 
    ACTGGGGCGC GCGTCGCTCC CTCTCTCTCC ACCAGTCGGC ATGAAAGACA CGAAAAGGGT 
    AGTGGAAGTG AGACAGAGAC GGACGATCTT CACATCCCTC ATGGTCATGA ATTTCACGAG 
    GACTTGATGA GAGAGGGCGC GCCGAATAAC CAAGCTTCCC TCGACGAACT CTTGACCGAC 
    ACAGCATATG ACGATCGACA TTCGGAGAAA ACAAAAAGAA AACGAGGTTC ATTATTTTCA 
    AGAAAGAAGA AGGATAAAAG TGGGAAGAAG CCAGCGCAAC AACATCAATG GGCAGCTATA 
    AACGTATCGT CACAGGGAAA CAACAGTTGT GATTTTTGTA TGAAGTCTTT TGCTAGTAAA 
    CCGACTTTAC ACTGCGAAAA TTGCGGCGCC ATAATTCACC AGGCGTGCAA AGACCATTAC 
    CAAGCAGAAT GCACGAAATC GAAGCCCTCA AGCAAATCTT CGTTCAAATC ACTGTCGAGC 
    GTCTCGATAT CGTCGACGAG CAGCATCGTG AAGCGTGGCT CCACGGCTTC GCTGCCGCTG 
    CCAGCGTCGA TCGGTACCGG AAGTCAAACT ATCAATGAGG AGAGAGACGG AGATGGAGGC 
    TCTCATCGCG ATATTTCCAG CGGCTTGGAG GAGTTCGACT TCGACGATAC GCACCAGTTC 
    AGCCTGGACG AGTTCGACGG TCAGCGTCCG GAGCTGGGCC TGGGTCGGGA GGAGCCGGAC 
    TCTTGGAGCG CCTGGATCGG TCGTAAGGTC GCTCTGCGAC TCGTCGACAA CAACGAGCGC 
    GAAGTCAAGC GGCAGGAGCA CATCTACGAG TTCATCCTCA CCGAGAAGCA CCACTGCCTC 
    GTGCTGCTGG CCATGCAGCG GATCTTCGTC GAGGGCCTGC AGCGTCATTT CAATCTTAAC 
    TCCTCGGTCC TCGACCGCAT GTTCCCCAAG CTCCAGAACC TCATGGACAT CCACTTTGAC 
    TTCTTGGCCA AGCTCAGGCA TCGCCAGGCC GAGAACGCGG TTGTCACCAC CATCGCCGAC 
    ATACTGATAG ACCAGTTTTC CGGCGAGAAC TCCTACAATA TGAAGAATGC CTACGGCGAG 
    TTCTGCAGTC GGCACAGGGA CGCGGTCGAC GTCTACAAGC AGCAGCAGCA GATGGACACG 
    AGGTTCGCCA GATTCGTCAG GCACTGTCAG AACAACCCGT TGCTCAAAAA GAAGGGCATC 
    CCCGAGTGCA TACTCTTCGT CACCCAGAGG CTGACCAAGT ATCCGCTGCT GGTCGAGCCG 
    CTGATCAAGA CCGGGGTGAC CACCGAGGAG ACTGACAATC TGCGTAAAGC CCTGAGTCTC 
    GTTAAGGAGA TACTCGGCGA AGTCGATGCC TGCGTCGCCG ACAAAGAGCG GACGGACAGG 
    AAACTGGATA TTTATCACAA AATCGATGCA AAGTCGTACG CTTACTATCG CGGTAAAAAG 
    TTCAAAAAGT CCGATATCTT GGCGTCGAAT CGCAACCTCA AATTTGAAGG CACAGCCTGG 
    CTGCTCCAGG GACGAAGCAA GACGGTACCT GTAGTGGTGG TCTGCCTTAC TGACGTGCTT 
    TTCTTCCTGG CTGGCGAACA GAAGTATGCG TTCTTCGTGC CTGACAATAA AGCGGGCGTC 
    GTTTCGCTGC AGAAGCTGCT AGTACGCGAG AAGGCCGGCA ACGAATCGCG CGGCATCTAT 
    CTCATCAGCA GCAATCCCAG CGAGCCCGAA ATGTTCGAGC TCAAGGTCAA GGATCCGCGA 
    GACAAGCATC TGTGGGTCAA AGCGATCAGA GCAGCGGTCG AATCGTGCCC GCAAGAGCCC 
    GACAGTGAAA ACTGTAATTT TACCGAGAAC AATATGGTTA ACGAGATGCG GGATGCGCGC 
    TCGCTGTCTC TGTCGAAGAT GTCCCCCGAG GAGAAACTTA GACAAGCCAA AGAAACACAT 
    TTGCAGAATA TAATTGATGA ACTTAAGAAG AAAGATGAGG AGCAAGCATC GCTGTTCGAA 
    CAGAAGATGT ATTTACATAT GAGATTACAC GACGCGATAA GTATGCGCGG TAGTAACGAA 
    AACGACGTGG ATAAAATAGA CAAAGATTAC AAGGAAGTAC CTGACTATTT AAGGTACATC 
    GGAGGTGAAG GAATCAATTT GACAAAGATG TACCAAGAGG CGCGCGAAGC TGTTCAGGAG 
    GCAATGCGAT TGGTCAATTC CTTGTCTTAT GGCGCAGGCG GTGGAACTTT GTCAAGAAGT 
    TTAAGTTCAG CAGGTGAAAG ACACAGCGAT GCTTACGTGC CACCGTCGCT CGCTGTTCCC 
    AGGAGAGCAG AGACCTTTGC TGGCTTTGAT CACAACAAAG AACGCTATCC GTGGCGAGAT 
    TCAGTTGCAT TGAATAACAT GGCACCGCCT ATGCCGAAAA ACGAAGAGGT GAACACCGTT 
    GAACAGGTGG AGGGCAAAGA AGAGGATGAG CTTGACGCCT ATAGAGACCA GCGTGAGGTC 
    GCTGTCAGAA TTTCCCATTA CGTGGATACG CTGCTTTTTA TCATCAGTAA TCAGTTGACA 
    ACAATCGAGA ACTTGCAATC TCAATTAGCA GGTTTCAAAG ACGGTAGCGT AGGTGGCAAA 
    TCGAATAATC GCCCCAACCC GAATCGTCAA CTCGAAGAGC TTCGCAATCT ACAGGACAAA 
    CTGAGTCGCG AGCGAGCTGA ATTTCGCGCA TCCTCGCAGC AAGAGCGTGC CCAGCTCGAG 
    GAGGAGCGAG CTGAGCTCAA CAAGCTACGT AGTCAGCTGT CAGCGGATCA ACGTGACCTC 
    GACAAGCAGC GCGATCAGCT GTATCGCAAA CTGGAGGCGC TGACGCGTCA AGGAGTGTCG 
    CTAACCACGG GTGCACCAGT GCCTGTGGTG ACGCACGGAA CTGGTGACGC TAATCAGAGC 
    TCGTCTTCAT CATCGTCGTC GACATCGCGG AAAAAGTCGC AAACTGACGA GAAGGGCATG 
    ATTCCACAAA ATCTATTCAG TGCCACAAAC CAGCAGAAGG TGCAACAACT GCCCGTAAAG 
    CAGCAACTGC CGCTTAAACT GGCCAGTGGT AGTAATAATA CCAACTCCAG GAGCGGAAGC 
    ATAGTAAGCA ACAACAGTCC GGACCGTCAC TCGCGGACGG GTAGCAGTCC AGCGATAGTA 
    ACGAGCTCTT CGGCCCTATC ATCTCCTGAA CTTGGCACTA GCAGCAATCA CCACAATAAC 
    GGTTCTAGCG CTCTAAGCCA CTTCTCGATG TCGAATCGCT CATTGCGCTA TACGCGTATA 
    CCCGAGCCTT ATCCTCGCAA ACATCACGTA CAACAACAGC AGCAGCAGCA GCAGCAACAG 
    CAGCAGCAAC AGCAGCCACA GCGAGCCGAA CCGCAGCAAC CGCTTGAGGA AGAGGTACTG 
    TTTTTGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    LOC100121921 ( XM_008205669.3 ) cDNA ORF clone, Nasonia vitripennis(jewel wasp) -> XP_008203891.1 Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID ONd06480
    Clone ID Related Accession (Same CDS sequence) XM_008205669.2 , XM_008205669.3
    Accession Version XM_008205669.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4506bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-23
    Organism Nasonia vitripennis(jewel wasp)
    Product rho guanine nucleotide exchange factor 28 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_022279627.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 24, 2019 this sequence version replaced XM_008205669.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nasonia vitripennis Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGAAAAGC GCAGGGAAGG ACTCGCGCCG TTTTCCTCCG ACGAATGTCC GAACAGCGGG 
    GAGGACAGCG ACGAGGATGT AATAACAGAC TACCTGGGCT CCGCGCAATC GGAGTGTTCA 
    CGCGTGTCTG TCGTTAACGG GGATCACCTC CCCGAGCAGC AGCATCAGTC CGACGCAGCA 
    GTCGCCGGCA ATTATACCAA AGACAGCACC GGTCATCATC AGCAGCAACA TCACCACCAT 
    CCAACGATCG TCATGTCCGA CACGCCGGAA GAGCAACAGC AGCACGGAGC TGGACACCCG 
    ACGGCGACCA GTCCCCTGGT GCCCATCATC AGCGTCACCC CTCACTCGCC TGGACTCGCC 
    GCCAAGCATT ACCCCGTTCT CGAGGAACCT CTGCGTCATC TGCACGAGAT CCACGACAAG 
    ATCAACCAGA TGCGCGACCT GACGCTGGCC CTGGCGAGCC GTACACAGCC GGGCGAGCAC 
    CTGCAGCGTT TCAGCACCTC CTGTCCGTCC CTCTGCCCGA TCATCTCGAT CGACGGCATC 
    GTCCAGTCGT CGTCGTCGGC CGTCGGAGGC CACCACCATC ACCACCACCA TCACCAGCAG 
    CAGCACAGCA GTCAGGAGCA GGATGGCTCG GACCCGGACC TCCTGACCAA CTGCTCGACC 
    AACAGCTCGC CTACGCACTT TCCCGGCACC ATCATGGTTG GCGGCGCTGC TGGACACGCC 
    TGCAGCCAGA TCCTCCAGGG AATCGACAGG CGGCGCAGCT GGACCGACCT CGAGGACTCC 
    AGGCAGCATC GGCGGGGCTC CGATCAGAAT CACCTGCAGG CCCAGAACAT CCGGCAGCGA 
    AGTATCAGCT TGAGCAGTCT CGATAGTGAC ATGGACCTGG AGTTGGATGG CAAATCTCGC 
    GCCAGAGATA CGAGCAACAA AACCCGCACT TCCGTGTCGC AGTCCAGTAC GCATTCGCTG 
    AACGAAGCCG ACTTTGTCCA TCAGAACGAG TTCAAGAAAG TGGTGGTCAA GCGTGGAGGT 
    CAGAGGCTAG GGGAGAACGT CAGCTTGATG CCCGGGGTGA CCGGATCGCG ATTGCCGCTC 
    CAGAAGTCCG TTTCGACACC ATCCATTGTC ATACCGCCGG GCCAGACTCA CCTCACGGAA 
    ACTGGGGCGC GCGTCGCTCC CTCTCTCTCC ACTCGGCATG AAAGACACGA AAAGGGTAGT 
    GGAAGTGAGA CAGAGACGGA CGATCTTCAC ATCCCTCATG GTCATGAATT TCACGAGGAC 
    TTGATGAGAG AGGGCGCGCC GAATAACCAA GCTTCCCTCG ACGAACTCTT GACCGACACA 
    GCATATGACG ATCGACATTC GGAGAAAACA AAAAGAAAAC GAGGTTCATT ATTTTCAAGA 
    AAGAAGAAGG ATAAAAGTGG GAAGAAGCCA GCGCAACAAC ATCAATGGGC AGCTATAAAC 
    GTATCGTCAC AGGGAAACAA CAGTTGTGAT TTTTGTATGA AGTCTTTTGC TAGTAAACCG 
    ACTTTACACT GCGAAAATTG CGGCGCCATA ATTCACCAGG CGTGCAAAGA CCATTACCAA 
    GCAGAATGCA CGAAATCGAA GCCCTCAAGC AAATCTTCGT TCAAATCACT GTCGAGCGTC 
    TCGATATCGT CGACGAGCAG CATCGTGAAG CGTGGCTCCA CGGCTTCGCT GCCGCTGCCA 
    GCGTCGATCG GTACCGGAAG TCAAACTATC AATGAGGAGA GAGACGGAGA TGGAGGCTCT 
    CATCGCGATA TTTCCAGCGG CTTGGAGGAG TTCGACTTCG ACGATACGCA CCAGTTCAGC 
    CTGGACGAGT TCGACGGTCA GCGTCCGGAG CTGGGCCTGG GTCGGGAGGA GCCGGACTCT 
    TGGAGCGCCT GGATCGGTCG TAAGGTCGCT CTGCGACTCG TCGACAACAA CGAGCGCGAA 
    GTCAAGCGGC AGGAGCACAT CTACGAGTTC ATCCTCACCG AGAAGCACCA CTGCCTCGTG 
    CTGCTGGCCA TGCAGCGGAT CTTCGTCGAG GGCCTGCAGC GTCATTTCAA TCTTAACTCC 
    TCGGTCCTCG ACCGCATGTT CCCCAAGCTC CAGAACCTCA TGGACATCCA CTTTGACTTC 
    TTGGCCAAGC TCAGGCATCG CCAGGCCGAG AACGCGGTTG TCACCACCAT CGCCGACATA 
    CTGATAGACC AGTTTTCCGG CGAGAACTCC TACAATATGA AGAATGCCTA CGGCGAGTTC 
    TGCAGTCGGC ACAGGGACGC GGTCGACGTC TACAAGCAGC AGCAGCAGAT GGACACGAGG 
    TTCGCCAGAT TCGTCAGGCA CTGTCAGAAC AACCCGTTGC TCAAAAAGAA GGGCATCCCC 
    GAGTGCATAC TCTTCGTCAC CCAGAGGCTG ACCAAGTATC CGCTGCTGGT CGAGCCGCTG 
    ATCAAGACCG GGGTGACCAC CGAGGAGACT GACAATCTGC GTAAAGCCCT GAGTCTCGTT 
    AAGGAGATAC TCGGCGAAGT CGATGCCTGC GTCGCCGACA AAGAGCGGAC GGACAGGAAA 
    CTGGATATTT ATCACAAAAT CGATGCAAAG TCGTACGCTT ACTATCGCGG TAAAAAGTTC 
    AAAAAGTCCG ATATCTTGGC GTCGAATCGC AACCTCAAAT TTGAAGGCAC AGCCTGGCTG 
    CTCCAGGGAC GAAGCAAGAC GGTACCTGTA GTGGTGGTCT GCCTTACTGA CGTGCTTTTC 
    TTCCTGGCTG GCGAACAGAA GTATGCGTTC TTCGTGCCTG ACAATAAAGC GGGCGTCGTT 
    TCGCTGCAGA AGCTGCTAGT ACGCGAGAAG GCCGGCAACG AATCGCGCGG CATCTATCTC 
    ATCAGCAGCA ATCCCAGCGA GCCCGAAATG TTCGAGCTCA AGGTCAAGGA TCCGCGAGAC 
    AAGCATCTGT GGGTCAAAGC GATCAGAGCA GCGGTCGAAT CGTGCCCGCA AGAGCCCGAC 
    AGTGAAAACT GTAATTTTAC CGAGAACAAT ATGGTTAACG AGATGCGGGA TGCGCGCTCG 
    CTGTCTCTGT CGAAGATGTC CCCCGAGGAG AAACTTAGAC AAGCCAAAGA AACACATTTG 
    CAGAATATAA TTGATGAACT TAAGAAGAAA GATGAGGAGC AAGCATCGCT GTTCGAACAG 
    AAGATGTATT TACATATGAG ATTACACGAC GCGATAAGTA TGCGCGGTAG TAACGAAAAC 
    GACGTGGATA AAATAGACAA AGATTACAAG GAAGTACCTG ACTATTTAAG GTACATCGGA 
    GGTGAAGGAA TCAATTTGAC AAAGATGTAC CAAGAGGCGC GCGAAGCTGT TCAGGAGGCA 
    ATGCGATTGG TCAATTCCTT GTCTTATGGC GCAGGCGGTG GAACTTTGTC AAGAAGTTTA 
    AGTTCAGCAG GTGAAAGACA CAGCGATGCT TACGTGCCAC CGTCGCTCGC TGTTCCCAGG 
    AGAGCAGAGA CCTTTGCTGG CTTTGATCAC AACAAAGAAC GCTATCCGTG GCGAGATTCA 
    GTTGCATTGA ATAACATGGC ACCGCCTATG CCGAAAAACG AAGAGGTGAA CACCGTTGAA 
    CAGGTGGAGG GCAAAGAAGA GGATGAGCTT GACGCCTATA GAGACCAGCG TGAGGTCGCT 
    GTCAGAATTT CCCATTACGT GGATACGCTG CTTTTTATCA TCAGTAATCA GTTGACAACA 
    ATCGAGAACT TGCAATCTCA ATTAGCAGGT TTCAAAGACG GTAGCGTAGG TGGCAAATCG 
    AATAATCGCC CCAACCCGAA TCGTCAACTC GAAGAGCTTC GCAATCTACA GGACAAACTG 
    AGTCGCGAGC GAGCTGAATT TCGCGCATCC TCGCAGCAAG AGCGTGCCCA GCTCGAGGAG 
    GAGCGAGCTG AGCTCAACAA GCTACGTAGT CAGCTGTCAG CGGATCAACG TGACCTCGAC 
    AAGCAGCGCG ATCAGCTGTA TCGCAAACTG GAGGCGCTGA CGCGTCAAGG AGTGTCGCTA 
    ACCACGGGTG CACCAGTGCC TGTGGTGACG CACGGAACTG GTGACGCTAA TCAGAGCTCG 
    TCTTCATCAT CGTCGTCGAC ATCGCGGAAA AAGTCGCAAA CTGACGAGAA GGGCATGATT 
    CCACAAAATC TATTCAGTGC CACAAACCAG CAGAAGGTGC AACAACTGCC CGTAAAGCAG 
    CAACTGCCGC TTAAACTGGC CAGTGGTAGT AATAATACCA ACTCCAGGAG CGGAAGCATA 
    GTAAGCAACA ACAGTCCGGA CCGTCACTCG CGGACGGGTA GCAGTCCAGC GATAGTAACG 
    AGCTCTTCGG CCCTATCATC TCCTGAACTT GGCACTAGCA GCAATCACCA CAATAACGGT 
    TCTAGCGCTC TAAGCCACTT CTCGATGTCG AATCGCTCAT TGCGCTATAC GCGTATACCC 
    GAGCCTTATC CTCGCAAACA TCACGTACAA CAACAGCAGC AGCAGCAGCA GCAACAGCAG 
    CAGCAACAGC AGCCACAGCG AGCCGAACCG CAGCAACCGC TTGAGGAAGA GGTACTGTTT 
    TTGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_008203891.1
    CDS631..5136
    Translation

    Target ORF information:

    RefSeq Version XM_008205669.3
    Organism Nasonia vitripennis(jewel wasp)
    Definition Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008205669.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGAAAAGC GCAGGGAAGG ACTCGCGCCG TTTTCCTCCG ACGAATGTCC GAACAGCGGG 
    GAGGACAGCG ACGAGGATGT AATAACAGAC TACCTGGGCT CCGCGCAATC GGAGTGTTCA 
    CGCGTGTCTG TCGTTAACGG GGATCACCTC CCCGAGCAGC AGCATCAGTC CGACGCAGCA 
    GTCGCCGGCA ATTATACCAA AGACAGCACC GGTCATCATC AGCAGCAACA TCACCACCAT 
    CCAACGATCG TCATGTCCGA CACGCCGGAA GAGCAACAGC AGCACGGAGC TGGACACCCG 
    ACGGCGACCA GTCCCCTGGT GCCCATCATC AGCGTCACCC CTCACTCGCC TGGACTCGCC 
    GCCAAGCATT ACCCCGTTCT CGAGGAACCT CTGCGTCATC TGCACGAGAT CCACGACAAG 
    ATCAACCAGA TGCGCGACCT GACGCTGGCC CTGGCGAGCC GTACACAGCC GGGCGAGCAC 
    CTGCAGCGTT TCAGCACCTC CTGTCCGTCC CTCTGCCCGA TCATCTCGAT CGACGGCATC 
    GTCCAGTCGT CGTCGTCGGC CGTCGGAGGC CACCACCATC ACCACCACCA TCACCAGCAG 
    CAGCACAGCA GTCAGGAGCA GGATGGCTCG GACCCGGACC TCCTGACCAA CTGCTCGACC 
    AACAGCTCGC CTACGCACTT TCCCGGCACC ATCATGGTTG GCGGCGCTGC TGGACACGCC 
    TGCAGCCAGA TCCTCCAGGG AATCGACAGG CGGCGCAGCT GGACCGACCT CGAGGACTCC 
    AGGCAGCATC GGCGGGGCTC CGATCAGAAT CACCTGCAGG CCCAGAACAT CCGGCAGCGA 
    AGTATCAGCT TGAGCAGTCT CGATAGTGAC ATGGACCTGG AGTTGGATGG CAAATCTCGC 
    GCCAGAGATA CGAGCAACAA AACCCGCACT TCCGTGTCGC AGTCCAGTAC GCATTCGCTG 
    AACGAAGCCG ACTTTGTCCA TCAGAACGAG TTCAAGAAAG TGGTGGTCAA GCGTGGAGGT 
    CAGAGGCTAG GGGAGAACGT CAGCTTGATG CCCGGGGTGA CCGGATCGCG ATTGCCGCTC 
    CAGAAGTCCG TTTCGACACC ATCCATTGTC ATACCGCCGG GCCAGACTCA CCTCACGGAA 
    ACTGGGGCGC GCGTCGCTCC CTCTCTCTCC ACTCGGCATG AAAGACACGA AAAGGGTAGT 
    GGAAGTGAGA CAGAGACGGA CGATCTTCAC ATCCCTCATG GTCATGAATT TCACGAGGAC 
    TTGATGAGAG AGGGCGCGCC GAATAACCAA GCTTCCCTCG ACGAACTCTT GACCGACACA 
    GCATATGACG ATCGACATTC GGAGAAAACA AAAAGAAAAC GAGGTTCATT ATTTTCAAGA 
    AAGAAGAAGG ATAAAAGTGG GAAGAAGCCA GCGCAACAAC ATCAATGGGC AGCTATAAAC 
    GTATCGTCAC AGGGAAACAA CAGTTGTGAT TTTTGTATGA AGTCTTTTGC TAGTAAACCG 
    ACTTTACACT GCGAAAATTG CGGCGCCATA ATTCACCAGG CGTGCAAAGA CCATTACCAA 
    GCAGAATGCA CGAAATCGAA GCCCTCAAGC AAATCTTCGT TCAAATCACT GTCGAGCGTC 
    TCGATATCGT CGACGAGCAG CATCGTGAAG CGTGGCTCCA CGGCTTCGCT GCCGCTGCCA 
    GCGTCGATCG GTACCGGAAG TCAAACTATC AATGAGGAGA GAGACGGAGA TGGAGGCTCT 
    CATCGCGATA TTTCCAGCGG CTTGGAGGAG TTCGACTTCG ACGATACGCA CCAGTTCAGC 
    CTGGACGAGT TCGACGGTCA GCGTCCGGAG CTGGGCCTGG GTCGGGAGGA GCCGGACTCT 
    TGGAGCGCCT GGATCGGTCG TAAGGTCGCT CTGCGACTCG TCGACAACAA CGAGCGCGAA 
    GTCAAGCGGC AGGAGCACAT CTACGAGTTC ATCCTCACCG AGAAGCACCA CTGCCTCGTG 
    CTGCTGGCCA TGCAGCGGAT CTTCGTCGAG GGCCTGCAGC GTCATTTCAA TCTTAACTCC 
    TCGGTCCTCG ACCGCATGTT CCCCAAGCTC CAGAACCTCA TGGACATCCA CTTTGACTTC 
    TTGGCCAAGC TCAGGCATCG CCAGGCCGAG AACGCGGTTG TCACCACCAT CGCCGACATA 
    CTGATAGACC AGTTTTCCGG CGAGAACTCC TACAATATGA AGAATGCCTA CGGCGAGTTC 
    TGCAGTCGGC ACAGGGACGC GGTCGACGTC TACAAGCAGC AGCAGCAGAT GGACACGAGG 
    TTCGCCAGAT TCGTCAGGCA CTGTCAGAAC AACCCGTTGC TCAAAAAGAA GGGCATCCCC 
    GAGTGCATAC TCTTCGTCAC CCAGAGGCTG ACCAAGTATC CGCTGCTGGT CGAGCCGCTG 
    ATCAAGACCG GGGTGACCAC CGAGGAGACT GACAATCTGC GTAAAGCCCT GAGTCTCGTT 
    AAGGAGATAC TCGGCGAAGT CGATGCCTGC GTCGCCGACA AAGAGCGGAC GGACAGGAAA 
    CTGGATATTT ATCACAAAAT CGATGCAAAG TCGTACGCTT ACTATCGCGG TAAAAAGTTC 
    AAAAAGTCCG ATATCTTGGC GTCGAATCGC AACCTCAAAT TTGAAGGCAC AGCCTGGCTG 
    CTCCAGGGAC GAAGCAAGAC GGTACCTGTA GTGGTGGTCT GCCTTACTGA CGTGCTTTTC 
    TTCCTGGCTG GCGAACAGAA GTATGCGTTC TTCGTGCCTG ACAATAAAGC GGGCGTCGTT 
    TCGCTGCAGA AGCTGCTAGT ACGCGAGAAG GCCGGCAACG AATCGCGCGG CATCTATCTC 
    ATCAGCAGCA ATCCCAGCGA GCCCGAAATG TTCGAGCTCA AGGTCAAGGA TCCGCGAGAC 
    AAGCATCTGT GGGTCAAAGC GATCAGAGCA GCGGTCGAAT CGTGCCCGCA AGAGCCCGAC 
    AGTGAAAACT GTAATTTTAC CGAGAACAAT ATGGTTAACG AGATGCGGGA TGCGCGCTCG 
    CTGTCTCTGT CGAAGATGTC CCCCGAGGAG AAACTTAGAC AAGCCAAAGA AACACATTTG 
    CAGAATATAA TTGATGAACT TAAGAAGAAA GATGAGGAGC AAGCATCGCT GTTCGAACAG 
    AAGATGTATT TACATATGAG ATTACACGAC GCGATAAGTA TGCGCGGTAG TAACGAAAAC 
    GACGTGGATA AAATAGACAA AGATTACAAG GAAGTACCTG ACTATTTAAG GTACATCGGA 
    GGTGAAGGAA TCAATTTGAC AAAGATGTAC CAAGAGGCGC GCGAAGCTGT TCAGGAGGCA 
    ATGCGATTGG TCAATTCCTT GTCTTATGGC GCAGGCGGTG GAACTTTGTC AAGAAGTTTA 
    AGTTCAGCAG GTGAAAGACA CAGCGATGCT TACGTGCCAC CGTCGCTCGC TGTTCCCAGG 
    AGAGCAGAGA CCTTTGCTGG CTTTGATCAC AACAAAGAAC GCTATCCGTG GCGAGATTCA 
    GTTGCATTGA ATAACATGGC ACCGCCTATG CCGAAAAACG AAGAGGTGAA CACCGTTGAA 
    CAGGTGGAGG GCAAAGAAGA GGATGAGCTT GACGCCTATA GAGACCAGCG TGAGGTCGCT 
    GTCAGAATTT CCCATTACGT GGATACGCTG CTTTTTATCA TCAGTAATCA GTTGACAACA 
    ATCGAGAACT TGCAATCTCA ATTAGCAGGT TTCAAAGACG GTAGCGTAGG TGGCAAATCG 
    AATAATCGCC CCAACCCGAA TCGTCAACTC GAAGAGCTTC GCAATCTACA GGACAAACTG 
    AGTCGCGAGC GAGCTGAATT TCGCGCATCC TCGCAGCAAG AGCGTGCCCA GCTCGAGGAG 
    GAGCGAGCTG AGCTCAACAA GCTACGTAGT CAGCTGTCAG CGGATCAACG TGACCTCGAC 
    AAGCAGCGCG ATCAGCTGTA TCGCAAACTG GAGGCGCTGA CGCGTCAAGG AGTGTCGCTA 
    ACCACGGGTG CACCAGTGCC TGTGGTGACG CACGGAACTG GTGACGCTAA TCAGAGCTCG 
    TCTTCATCAT CGTCGTCGAC ATCGCGGAAA AAGTCGCAAA CTGACGAGAA GGGCATGATT 
    CCACAAAATC TATTCAGTGC CACAAACCAG CAGAAGGTGC AACAACTGCC CGTAAAGCAG 
    CAACTGCCGC TTAAACTGGC CAGTGGTAGT AATAATACCA ACTCCAGGAG CGGAAGCATA 
    GTAAGCAACA ACAGTCCGGA CCGTCACTCG CGGACGGGTA GCAGTCCAGC GATAGTAACG 
    AGCTCTTCGG CCCTATCATC TCCTGAACTT GGCACTAGCA GCAATCACCA CAATAACGGT 
    TCTAGCGCTC TAAGCCACTT CTCGATGTCG AATCGCTCAT TGCGCTATAC GCGTATACCC 
    GAGCCTTATC CTCGCAAACA TCACGTACAA CAACAGCAGC AGCAGCAGCA GCAACAGCAG 
    CAGCAACAGC AGCCACAGCG AGCCGAACCG CAGCAACCGC TTGAGGAAGA GGTACTGTTT 
    TTGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    LOC100121921 ( XM_031926396.1 ) cDNA ORF clone, Nasonia vitripennis(jewel wasp) -> XP_031782256.1 Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID ONd29262
    Clone ID Related Accession (Same CDS sequence) XM_031926396.1 , XM_031926395.1 , XM_031926394.1
    Accession Version XM_031926396.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4581bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-23
    Organism Nasonia vitripennis(jewel wasp)
    Product rho guanine nucleotide exchange factor 28 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_022279627.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nasonia vitripennis Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGGAAAAGC GCAGGGAAGG ACTCGCGCCG TTTTCCTCCG ACGAATGTCC GAACAGCGGG 
    GAGGACAGCG ACGAGGATGT AATAACAGAC TACCTGGGCT CCGCGCAATC GGAGTGTTCA 
    CGCGTGTCTG TCGTTAACGG GGATCACCTC CCCGAGCAGC AGCATCAGTC CGACGCAGCA 
    GTCGCCGGCA ATTATACCAA AGACAGCACC GGTCATCATC AGCAGCAACA TCACCACCAT 
    CCAACGATCG TCATGTCCGA CACGCCGGAA GAGCAACAGC AGCACGGAGC TGGACACCCG 
    ACGGCGACCA GTCCCCTGGT GCCCATCATC AGCGTCACCC CTCACTCGCC TGGACTCGCC 
    GCCAAGCATT ACCCCGTTCT CGAGGAACCT CTGCGTCATC TGCACGAGAT CCACGACAAG 
    ATCAACCAGA TGCGCGACCT GACGCTGGCC CTGGCGAGCC GTACACAGCC GGGCGAGCAC 
    CTGCAGCGTT TCAGCACCTC CTGTCCGTCC CTCTGCCCGA TCATCTCGAT CGACGGCATC 
    GTCCAGTCGT CGTCGTCGGC CGTCGGAGGC CACCACCATC ACCACCACCA TCACCAGCAG 
    CAGCACAGCA GTCAGGAGCA GGATGGCTCG GACCCGGACC TCCTGACCAA CTGCTCGACC 
    AACAGCTCGC CTACGCACTT TCCCGGCACC ATCATGGTTG GCGGCGCTGC TGGACACGCC 
    TGCAGCCAGA TCCTCCAGGG AATCGACAGG CGGCGCAGCT GGACCGACCT CGAGGACTCC 
    AGGCAGCATC GGCGGGGCTC CGATCAGAAT CACCTGCAGG CCCAGAACAT CCGGCAGCGA 
    AGTATCAGCT TGAGCAGTCT CGATAGTGAC ATGGACCTGG AGTTGGATGG CAAATCTCGC 
    GCCAGAGATA CGAGCAACAA AACCCGCACT TCCGTGTCGC AGTCCAGTAC GCATTCGCTG 
    AACGAAGCCG ACTTTGTCCA TCAGAACGAG TTCAAGAAAG TGGTGGTCAA GCGTGGAGGT 
    CAGAGGCTAG GGGAGAACGT CAGCTTGATG CCCGGGGTGA CCGGATCGCG ATTGCCGCTC 
    CAGAAGTCCG TTTCGACACC ATCCATTGTC ATACCGCCGG GCCAGACTCA CCTCACGGAA 
    ACTGGGGCGC GCGTCGCTCC CTCTCTCTCC ACCAGTCGGC ATGAAAGACA CGAAAAGGGT 
    AGTGGAAGTG AGACAGAGAC GGACGATCTT CACATCCCTC ATGGTCATGA ATTTCACGAG 
    GACTTGATGA GAGAGGGCGC GCCGAATAAC CAAGCTTCCC TCGACGAACT CTTGACCGAC 
    ACAGCATATG ACGATCGACA TTCGGAGAAA ACAAAAAGAA AACGAGGTTC ATTATTTTCA 
    AGAAAGAAGA AGGATAAAAG TGGGAAGAAG CCAGCGCAAC AACATCAATG GGCAGCTATA 
    AACGTATCGT CACAGGGAAA CAACAGTTGT GATTTTTGTA TGAAGTCTTT TGCTAGTAAA 
    CCGACTTTAC ACTGCGAAAA TTGCGGCGCC ATAATTCACC AGGCGTGCAA AGACCATTAC 
    CAAGCAGAAT GCACGAAATC GAAGCCCTCA AGCAAATCTT CGTTCAAATC ACTGTCGAGC 
    GTCTCGATAT CGTCGACGAG CAGCATCGTG AAGCGTGGCT CCACGGCTTC GCTGCCGCTG 
    CCAGCGTCGA TCGGTACCGG AAGGGATAAT AACAACAAGA AAGCGGTGAC AAGCTACAGC 
    CCTTGGCGGC GAGTTGCCAC CAAGCTCGGA GTCAATCAAA CTATCAATGA GGAGAGAGAC 
    GGAGATGGAG GCTCTCATCG CGATATTTCC AGCGGCTTGG AGGAGTTCGA CTTCGACGAT 
    ACGCACCAGT TCAGCCTGGA CGAGTTCGAC GGTCAGCGTC CGGAGCTGGG CCTGGGTCGG 
    GAGGAGCCGG ACTCTTGGAG CGCCTGGATC GGTCGTAAGG TCGCTCTGCG ACTCGTCGAC 
    AACAACGAGC GCGAAGTCAA GCGGCAGGAG CACATCTACG AGTTCATCCT CACCGAGAAG 
    CACCACTGCC TCGTGCTGCT GGCCATGCAG CGGATCTTCG TCGAGGGCCT GCAGCGTCAT 
    TTCAATCTTA ACTCCTCGGT CCTCGACCGC ATGTTCCCCA AGCTCCAGAA CCTCATGGAC 
    ATCCACTTTG ACTTCTTGGC CAAGCTCAGG CATCGCCAGG CCGAGAACGC GGTTGTCACC 
    ACCATCGCCG ACATACTGAT AGACCAGTTT TCCGGCGAGA ACTCCTACAA TATGAAGAAT 
    GCCTACGGCG AGTTCTGCAG TCGGCACAGG GACGCGGTCG ACGTCTACAA GCAGCAGCAG 
    CAGATGGACA CGAGGTTCGC CAGATTCGTC AGGCACTGTC AGAACAACCC GTTGCTCAAA 
    AAGAAGGGCA TCCCCGAGTG CATACTCTTC GTCACCCAGA GGCTGACCAA GTATCCGCTG 
    CTGGTCGAGC CGCTGATCAA GACCGGGGTG ACCACCGAGG AGACTGACAA TCTGCGTAAA 
    GCCCTGAGTC TCGTTAAGGA GATACTCGGC GAAGTCGATG CCTGCGTCGC CGACAAAGAG 
    CGGACGGACA GGAAACTGGA TATTTATCAC AAAATCGATG CAAAGTCGTA CGCTTACTAT 
    CGCGGTAAAA AGTTCAAAAA GTCCGATATC TTGGCGTCGA ATCGCAACCT CAAATTTGAA 
    GGCACAGCCT GGCTGCTCCA GGGACGAAGC AAGACGGTAC CTGTAGTGGT GGTCTGCCTT 
    ACTGACGTGC TTTTCTTCCT GGCTGGCGAA CAGAAGTATG CGTTCTTCGT GCCTGACAAT 
    AAAGCGGGCG TCGTTTCGCT GCAGAAGCTG CTAGTACGCG AGAAGGCCGG CAACGAATCG 
    CGCGGCATCT ATCTCATCAG CAGCAATCCC AGCGAGCCCG AAATGTTCGA GCTCAAGGTC 
    AAGGATCCGC GAGACAAGCA TCTGTGGGTC AAAGCGATCA GAGCAGCGGT CGAATCGTGC 
    CCGCAAGAGC CCGACAGTGA AAACTGTAAT TTTACCGAGA ACAATATGGT TAACGAGATG 
    CGGGATGCGC GCTCGCTGTC TCTGTCGAAG ATGTCCCCCG AGGAGAAACT TAGACAAGCC 
    AAAGAAACAC ATTTGCAGAA TATAATTGAT GAACTTAAGA AGAAAGATGA GGAGCAAGCA 
    TCGCTGTTCG AACAGAAGAT GTATTTACAT ATGAGATTAC ACGACGCGAT AAGTATGCGC 
    GGTAGTAACG AAAACGACGT GGATAAAATA GACAAAGATT ACAAGGAAGT ACCTGACTAT 
    TTAAGGTACA TCGGAGGTGA AGGAATCAAT TTGACAAAGA TGTACCAAGA GGCGCGCGAA 
    GCTGTTCAGG AGGCAATGCG ATTGGTCAAT TCCTTGTCTT ATGGCGCAGG CGGTGGAACT 
    TTGTCAAGAA GTTTAAGTTC AGCAGGTGAA AGACACAGCG ATGCTTACGT GCCACCGTCG 
    CTCGCTGTTC CCAGGAGAGC AGAGACCTTT GCTGGCTTTG ATCACAACAA AGAACGCTAT 
    CCGTGGCGAG ATTCAGTTGC ATTGAATAAC ATGGCACCGC CTATGCCGAA AAACGAAGAG 
    GTGAACACCG TTGAACAGGT GGAGGGCAAA GAAGAGGATG AGCTTGACGC CTATAGAGAC 
    CAGCGTGAGG TCGCTGTCAG AATTTCCCAT TACGTGGATA CGCTGCTTTT TATCATCAGT 
    AATCAGTTGA CAACAATCGA GAACTTGCAA TCTCAATTAG CAGGTTTCAA AGACGGTAGC 
    GTAGGTGGCA AATCGAATAA TCGCCCCAAC CCGAATCGTC AACTCGAAGA GCTTCGCAAT 
    CTACAGGACA AACTGAGTCG CGAGCGAGCT GAATTTCGCG CATCCTCGCA GCAAGAGCGT 
    GCCCAGCTCG AGGAGGAGCG AGCTGAGCTC AACAAGCTAC GTAGTCAGCT GTCAGCGGAT 
    CAACGTGACC TCGACAAGCA GCGCGATCAG CTGTATCGCA AACTGGAGGC GCTGACGCGT 
    CAAGGAGTGT CGCTAACCAC GGGTGCACCA GTGCCTGTGG TGACGCACGG AACTGGTGAC 
    GCTAATCAGA GCTCGTCTTC ATCATCGTCG TCGACATCGC GGAAAAAGTC GCAAACTGAC 
    GAGAAGGGCA TGATTCCACA AAATCTATTC AGTGCCACAA ACCAGCAGAA GGTGCAACAA 
    CTGCCCGTAA AGCAGCAACT GCCGCTTAAA CTGGCCAGTG GTAGTAATAA TACCAACTCC 
    AGGAGCGGAA GCATAGTAAG CAACAACAGT CCGGACCGTC ACTCGCGGAC GGGTAGCAGT 
    CCAGCGATAG TAACGAGCTC TTCGGCCCTA TCATCTCCTG AACTTGGCAC TAGCAGCAAT 
    CACCACAATA ACGGTTCTAG CGCTCTAAGC CACTTCTCGA TGTCGAATCG CTCATTGCGC 
    TATACGCGTA TACCCGAGCC TTATCCTCGC AAACATCACG TACAACAACA GCAGCAGCAG 
    CAGCAGCAAC AGCAGCAGCA ACAGCAGCCA CAGCGAGCCG AACCGCAGCA ACCGCTTGAG 
    GAAGAGGTAC TGTTTTTGTG A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_031782256.1
    CDS145..4725
    Translation

    Target ORF information:

    RefSeq Version XM_031926396.1
    Organism Nasonia vitripennis(jewel wasp)
    Definition Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_031926396.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGGAAAAGC GCAGGGAAGG ACTCGCGCCG TTTTCCTCCG ACGAATGTCC GAACAGCGGG 
    GAGGACAGCG ACGAGGATGT AATAACAGAC TACCTGGGCT CCGCGCAATC GGAGTGTTCA 
    CGCGTGTCTG TCGTTAACGG GGATCACCTC CCCGAGCAGC AGCATCAGTC CGACGCAGCA 
    GTCGCCGGCA ATTATACCAA AGACAGCACC GGTCATCATC AGCAGCAACA TCACCACCAT 
    CCAACGATCG TCATGTCCGA CACGCCGGAA GAGCAACAGC AGCACGGAGC TGGACACCCG 
    ACGGCGACCA GTCCCCTGGT GCCCATCATC AGCGTCACCC CTCACTCGCC TGGACTCGCC 
    GCCAAGCATT ACCCCGTTCT CGAGGAACCT CTGCGTCATC TGCACGAGAT CCACGACAAG 
    ATCAACCAGA TGCGCGACCT GACGCTGGCC CTGGCGAGCC GTACACAGCC GGGCGAGCAC 
    CTGCAGCGTT TCAGCACCTC CTGTCCGTCC CTCTGCCCGA TCATCTCGAT CGACGGCATC 
    GTCCAGTCGT CGTCGTCGGC CGTCGGAGGC CACCACCATC ACCACCACCA TCACCAGCAG 
    CAGCACAGCA GTCAGGAGCA GGATGGCTCG GACCCGGACC TCCTGACCAA CTGCTCGACC 
    AACAGCTCGC CTACGCACTT TCCCGGCACC ATCATGGTTG GCGGCGCTGC TGGACACGCC 
    TGCAGCCAGA TCCTCCAGGG AATCGACAGG CGGCGCAGCT GGACCGACCT CGAGGACTCC 
    AGGCAGCATC GGCGGGGCTC CGATCAGAAT CACCTGCAGG CCCAGAACAT CCGGCAGCGA 
    AGTATCAGCT TGAGCAGTCT CGATAGTGAC ATGGACCTGG AGTTGGATGG CAAATCTCGC 
    GCCAGAGATA CGAGCAACAA AACCCGCACT TCCGTGTCGC AGTCCAGTAC GCATTCGCTG 
    AACGAAGCCG ACTTTGTCCA TCAGAACGAG TTCAAGAAAG TGGTGGTCAA GCGTGGAGGT 
    CAGAGGCTAG GGGAGAACGT CAGCTTGATG CCCGGGGTGA CCGGATCGCG ATTGCCGCTC 
    CAGAAGTCCG TTTCGACACC ATCCATTGTC ATACCGCCGG GCCAGACTCA CCTCACGGAA 
    ACTGGGGCGC GCGTCGCTCC CTCTCTCTCC ACCAGTCGGC ATGAAAGACA CGAAAAGGGT 
    AGTGGAAGTG AGACAGAGAC GGACGATCTT CACATCCCTC ATGGTCATGA ATTTCACGAG 
    GACTTGATGA GAGAGGGCGC GCCGAATAAC CAAGCTTCCC TCGACGAACT CTTGACCGAC 
    ACAGCATATG ACGATCGACA TTCGGAGAAA ACAAAAAGAA AACGAGGTTC ATTATTTTCA 
    AGAAAGAAGA AGGATAAAAG TGGGAAGAAG CCAGCGCAAC AACATCAATG GGCAGCTATA 
    AACGTATCGT CACAGGGAAA CAACAGTTGT GATTTTTGTA TGAAGTCTTT TGCTAGTAAA 
    CCGACTTTAC ACTGCGAAAA TTGCGGCGCC ATAATTCACC AGGCGTGCAA AGACCATTAC 
    CAAGCAGAAT GCACGAAATC GAAGCCCTCA AGCAAATCTT CGTTCAAATC ACTGTCGAGC 
    GTCTCGATAT CGTCGACGAG CAGCATCGTG AAGCGTGGCT CCACGGCTTC GCTGCCGCTG 
    CCAGCGTCGA TCGGTACCGG AAGGGATAAT AACAACAAGA AAGCGGTGAC AAGCTACAGC 
    CCTTGGCGGC GAGTTGCCAC CAAGCTCGGA GTCAATCAAA CTATCAATGA GGAGAGAGAC 
    GGAGATGGAG GCTCTCATCG CGATATTTCC AGCGGCTTGG AGGAGTTCGA CTTCGACGAT 
    ACGCACCAGT TCAGCCTGGA CGAGTTCGAC GGTCAGCGTC CGGAGCTGGG CCTGGGTCGG 
    GAGGAGCCGG ACTCTTGGAG CGCCTGGATC GGTCGTAAGG TCGCTCTGCG ACTCGTCGAC 
    AACAACGAGC GCGAAGTCAA GCGGCAGGAG CACATCTACG AGTTCATCCT CACCGAGAAG 
    CACCACTGCC TCGTGCTGCT GGCCATGCAG CGGATCTTCG TCGAGGGCCT GCAGCGTCAT 
    TTCAATCTTA ACTCCTCGGT CCTCGACCGC ATGTTCCCCA AGCTCCAGAA CCTCATGGAC 
    ATCCACTTTG ACTTCTTGGC CAAGCTCAGG CATCGCCAGG CCGAGAACGC GGTTGTCACC 
    ACCATCGCCG ACATACTGAT AGACCAGTTT TCCGGCGAGA ACTCCTACAA TATGAAGAAT 
    GCCTACGGCG AGTTCTGCAG TCGGCACAGG GACGCGGTCG ACGTCTACAA GCAGCAGCAG 
    CAGATGGACA CGAGGTTCGC CAGATTCGTC AGGCACTGTC AGAACAACCC GTTGCTCAAA 
    AAGAAGGGCA TCCCCGAGTG CATACTCTTC GTCACCCAGA GGCTGACCAA GTATCCGCTG 
    CTGGTCGAGC CGCTGATCAA GACCGGGGTG ACCACCGAGG AGACTGACAA TCTGCGTAAA 
    GCCCTGAGTC TCGTTAAGGA GATACTCGGC GAAGTCGATG CCTGCGTCGC CGACAAAGAG 
    CGGACGGACA GGAAACTGGA TATTTATCAC AAAATCGATG CAAAGTCGTA CGCTTACTAT 
    CGCGGTAAAA AGTTCAAAAA GTCCGATATC TTGGCGTCGA ATCGCAACCT CAAATTTGAA 
    GGCACAGCCT GGCTGCTCCA GGGACGAAGC AAGACGGTAC CTGTAGTGGT GGTCTGCCTT 
    ACTGACGTGC TTTTCTTCCT GGCTGGCGAA CAGAAGTATG CGTTCTTCGT GCCTGACAAT 
    AAAGCGGGCG TCGTTTCGCT GCAGAAGCTG CTAGTACGCG AGAAGGCCGG CAACGAATCG 
    CGCGGCATCT ATCTCATCAG CAGCAATCCC AGCGAGCCCG AAATGTTCGA GCTCAAGGTC 
    AAGGATCCGC GAGACAAGCA TCTGTGGGTC AAAGCGATCA GAGCAGCGGT CGAATCGTGC 
    CCGCAAGAGC CCGACAGTGA AAACTGTAAT TTTACCGAGA ACAATATGGT TAACGAGATG 
    CGGGATGCGC GCTCGCTGTC TCTGTCGAAG ATGTCCCCCG AGGAGAAACT TAGACAAGCC 
    AAAGAAACAC ATTTGCAGAA TATAATTGAT GAACTTAAGA AGAAAGATGA GGAGCAAGCA 
    TCGCTGTTCG AACAGAAGAT GTATTTACAT ATGAGATTAC ACGACGCGAT AAGTATGCGC 
    GGTAGTAACG AAAACGACGT GGATAAAATA GACAAAGATT ACAAGGAAGT ACCTGACTAT 
    TTAAGGTACA TCGGAGGTGA AGGAATCAAT TTGACAAAGA TGTACCAAGA GGCGCGCGAA 
    GCTGTTCAGG AGGCAATGCG ATTGGTCAAT TCCTTGTCTT ATGGCGCAGG CGGTGGAACT 
    TTGTCAAGAA GTTTAAGTTC AGCAGGTGAA AGACACAGCG ATGCTTACGT GCCACCGTCG 
    CTCGCTGTTC CCAGGAGAGC AGAGACCTTT GCTGGCTTTG ATCACAACAA AGAACGCTAT 
    CCGTGGCGAG ATTCAGTTGC ATTGAATAAC ATGGCACCGC CTATGCCGAA AAACGAAGAG 
    GTGAACACCG TTGAACAGGT GGAGGGCAAA GAAGAGGATG AGCTTGACGC CTATAGAGAC 
    CAGCGTGAGG TCGCTGTCAG AATTTCCCAT TACGTGGATA CGCTGCTTTT TATCATCAGT 
    AATCAGTTGA CAACAATCGA GAACTTGCAA TCTCAATTAG CAGGTTTCAA AGACGGTAGC 
    GTAGGTGGCA AATCGAATAA TCGCCCCAAC CCGAATCGTC AACTCGAAGA GCTTCGCAAT 
    CTACAGGACA AACTGAGTCG CGAGCGAGCT GAATTTCGCG CATCCTCGCA GCAAGAGCGT 
    GCCCAGCTCG AGGAGGAGCG AGCTGAGCTC AACAAGCTAC GTAGTCAGCT GTCAGCGGAT 
    CAACGTGACC TCGACAAGCA GCGCGATCAG CTGTATCGCA AACTGGAGGC GCTGACGCGT 
    CAAGGAGTGT CGCTAACCAC GGGTGCACCA GTGCCTGTGG TGACGCACGG AACTGGTGAC 
    GCTAATCAGA GCTCGTCTTC ATCATCGTCG TCGACATCGC GGAAAAAGTC GCAAACTGAC 
    GAGAAGGGCA TGATTCCACA AAATCTATTC AGTGCCACAA ACCAGCAGAA GGTGCAACAA 
    CTGCCCGTAA AGCAGCAACT GCCGCTTAAA CTGGCCAGTG GTAGTAATAA TACCAACTCC 
    AGGAGCGGAA GCATAGTAAG CAACAACAGT CCGGACCGTC ACTCGCGGAC GGGTAGCAGT 
    CCAGCGATAG TAACGAGCTC TTCGGCCCTA TCATCTCCTG AACTTGGCAC TAGCAGCAAT 
    CACCACAATA ACGGTTCTAG CGCTCTAAGC CACTTCTCGA TGTCGAATCG CTCATTGCGC 
    TATACGCGTA TACCCGAGCC TTATCCTCGC AAACATCACG TACAACAACA GCAGCAGCAG 
    CAGCAGCAAC AGCAGCAGCA ACAGCAGCCA CAGCGAGCCG AACCGCAGCA ACCGCTTGAG 
    GAAGAGGTAC TGTTTTTGTG A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    LOC100121921 ( XM_031926395.1 ) cDNA ORF clone, Nasonia vitripennis(jewel wasp) -> XP_031782255.1 Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ONd29262
    Clone ID Related Accession (Same CDS sequence) XM_031926396.1 , XM_031926395.1 , XM_031926394.1
    Accession Version XM_031926395.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4581bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-23
    Organism Nasonia vitripennis(jewel wasp)
    Product rho guanine nucleotide exchange factor 28 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_022279627.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nasonia vitripennis Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGGAAAAGC GCAGGGAAGG ACTCGCGCCG TTTTCCTCCG ACGAATGTCC GAACAGCGGG 
    GAGGACAGCG ACGAGGATGT AATAACAGAC TACCTGGGCT CCGCGCAATC GGAGTGTTCA 
    CGCGTGTCTG TCGTTAACGG GGATCACCTC CCCGAGCAGC AGCATCAGTC CGACGCAGCA 
    GTCGCCGGCA ATTATACCAA AGACAGCACC GGTCATCATC AGCAGCAACA TCACCACCAT 
    CCAACGATCG TCATGTCCGA CACGCCGGAA GAGCAACAGC AGCACGGAGC TGGACACCCG 
    ACGGCGACCA GTCCCCTGGT GCCCATCATC AGCGTCACCC CTCACTCGCC TGGACTCGCC 
    GCCAAGCATT ACCCCGTTCT CGAGGAACCT CTGCGTCATC TGCACGAGAT CCACGACAAG 
    ATCAACCAGA TGCGCGACCT GACGCTGGCC CTGGCGAGCC GTACACAGCC GGGCGAGCAC 
    CTGCAGCGTT TCAGCACCTC CTGTCCGTCC CTCTGCCCGA TCATCTCGAT CGACGGCATC 
    GTCCAGTCGT CGTCGTCGGC CGTCGGAGGC CACCACCATC ACCACCACCA TCACCAGCAG 
    CAGCACAGCA GTCAGGAGCA GGATGGCTCG GACCCGGACC TCCTGACCAA CTGCTCGACC 
    AACAGCTCGC CTACGCACTT TCCCGGCACC ATCATGGTTG GCGGCGCTGC TGGACACGCC 
    TGCAGCCAGA TCCTCCAGGG AATCGACAGG CGGCGCAGCT GGACCGACCT CGAGGACTCC 
    AGGCAGCATC GGCGGGGCTC CGATCAGAAT CACCTGCAGG CCCAGAACAT CCGGCAGCGA 
    AGTATCAGCT TGAGCAGTCT CGATAGTGAC ATGGACCTGG AGTTGGATGG CAAATCTCGC 
    GCCAGAGATA CGAGCAACAA AACCCGCACT TCCGTGTCGC AGTCCAGTAC GCATTCGCTG 
    AACGAAGCCG ACTTTGTCCA TCAGAACGAG TTCAAGAAAG TGGTGGTCAA GCGTGGAGGT 
    CAGAGGCTAG GGGAGAACGT CAGCTTGATG CCCGGGGTGA CCGGATCGCG ATTGCCGCTC 
    CAGAAGTCCG TTTCGACACC ATCCATTGTC ATACCGCCGG GCCAGACTCA CCTCACGGAA 
    ACTGGGGCGC GCGTCGCTCC CTCTCTCTCC ACCAGTCGGC ATGAAAGACA CGAAAAGGGT 
    AGTGGAAGTG AGACAGAGAC GGACGATCTT CACATCCCTC ATGGTCATGA ATTTCACGAG 
    GACTTGATGA GAGAGGGCGC GCCGAATAAC CAAGCTTCCC TCGACGAACT CTTGACCGAC 
    ACAGCATATG ACGATCGACA TTCGGAGAAA ACAAAAAGAA AACGAGGTTC ATTATTTTCA 
    AGAAAGAAGA AGGATAAAAG TGGGAAGAAG CCAGCGCAAC AACATCAATG GGCAGCTATA 
    AACGTATCGT CACAGGGAAA CAACAGTTGT GATTTTTGTA TGAAGTCTTT TGCTAGTAAA 
    CCGACTTTAC ACTGCGAAAA TTGCGGCGCC ATAATTCACC AGGCGTGCAA AGACCATTAC 
    CAAGCAGAAT GCACGAAATC GAAGCCCTCA AGCAAATCTT CGTTCAAATC ACTGTCGAGC 
    GTCTCGATAT CGTCGACGAG CAGCATCGTG AAGCGTGGCT CCACGGCTTC GCTGCCGCTG 
    CCAGCGTCGA TCGGTACCGG AAGGGATAAT AACAACAAGA AAGCGGTGAC AAGCTACAGC 
    CCTTGGCGGC GAGTTGCCAC CAAGCTCGGA GTCAATCAAA CTATCAATGA GGAGAGAGAC 
    GGAGATGGAG GCTCTCATCG CGATATTTCC AGCGGCTTGG AGGAGTTCGA CTTCGACGAT 
    ACGCACCAGT TCAGCCTGGA CGAGTTCGAC GGTCAGCGTC CGGAGCTGGG CCTGGGTCGG 
    GAGGAGCCGG ACTCTTGGAG CGCCTGGATC GGTCGTAAGG TCGCTCTGCG ACTCGTCGAC 
    AACAACGAGC GCGAAGTCAA GCGGCAGGAG CACATCTACG AGTTCATCCT CACCGAGAAG 
    CACCACTGCC TCGTGCTGCT GGCCATGCAG CGGATCTTCG TCGAGGGCCT GCAGCGTCAT 
    TTCAATCTTA ACTCCTCGGT CCTCGACCGC ATGTTCCCCA AGCTCCAGAA CCTCATGGAC 
    ATCCACTTTG ACTTCTTGGC CAAGCTCAGG CATCGCCAGG CCGAGAACGC GGTTGTCACC 
    ACCATCGCCG ACATACTGAT AGACCAGTTT TCCGGCGAGA ACTCCTACAA TATGAAGAAT 
    GCCTACGGCG AGTTCTGCAG TCGGCACAGG GACGCGGTCG ACGTCTACAA GCAGCAGCAG 
    CAGATGGACA CGAGGTTCGC CAGATTCGTC AGGCACTGTC AGAACAACCC GTTGCTCAAA 
    AAGAAGGGCA TCCCCGAGTG CATACTCTTC GTCACCCAGA GGCTGACCAA GTATCCGCTG 
    CTGGTCGAGC CGCTGATCAA GACCGGGGTG ACCACCGAGG AGACTGACAA TCTGCGTAAA 
    GCCCTGAGTC TCGTTAAGGA GATACTCGGC GAAGTCGATG CCTGCGTCGC CGACAAAGAG 
    CGGACGGACA GGAAACTGGA TATTTATCAC AAAATCGATG CAAAGTCGTA CGCTTACTAT 
    CGCGGTAAAA AGTTCAAAAA GTCCGATATC TTGGCGTCGA ATCGCAACCT CAAATTTGAA 
    GGCACAGCCT GGCTGCTCCA GGGACGAAGC AAGACGGTAC CTGTAGTGGT GGTCTGCCTT 
    ACTGACGTGC TTTTCTTCCT GGCTGGCGAA CAGAAGTATG CGTTCTTCGT GCCTGACAAT 
    AAAGCGGGCG TCGTTTCGCT GCAGAAGCTG CTAGTACGCG AGAAGGCCGG CAACGAATCG 
    CGCGGCATCT ATCTCATCAG CAGCAATCCC AGCGAGCCCG AAATGTTCGA GCTCAAGGTC 
    AAGGATCCGC GAGACAAGCA TCTGTGGGTC AAAGCGATCA GAGCAGCGGT CGAATCGTGC 
    CCGCAAGAGC CCGACAGTGA AAACTGTAAT TTTACCGAGA ACAATATGGT TAACGAGATG 
    CGGGATGCGC GCTCGCTGTC TCTGTCGAAG ATGTCCCCCG AGGAGAAACT TAGACAAGCC 
    AAAGAAACAC ATTTGCAGAA TATAATTGAT GAACTTAAGA AGAAAGATGA GGAGCAAGCA 
    TCGCTGTTCG AACAGAAGAT GTATTTACAT ATGAGATTAC ACGACGCGAT AAGTATGCGC 
    GGTAGTAACG AAAACGACGT GGATAAAATA GACAAAGATT ACAAGGAAGT ACCTGACTAT 
    TTAAGGTACA TCGGAGGTGA AGGAATCAAT TTGACAAAGA TGTACCAAGA GGCGCGCGAA 
    GCTGTTCAGG AGGCAATGCG ATTGGTCAAT TCCTTGTCTT ATGGCGCAGG CGGTGGAACT 
    TTGTCAAGAA GTTTAAGTTC AGCAGGTGAA AGACACAGCG ATGCTTACGT GCCACCGTCG 
    CTCGCTGTTC CCAGGAGAGC AGAGACCTTT GCTGGCTTTG ATCACAACAA AGAACGCTAT 
    CCGTGGCGAG ATTCAGTTGC ATTGAATAAC ATGGCACCGC CTATGCCGAA AAACGAAGAG 
    GTGAACACCG TTGAACAGGT GGAGGGCAAA GAAGAGGATG AGCTTGACGC CTATAGAGAC 
    CAGCGTGAGG TCGCTGTCAG AATTTCCCAT TACGTGGATA CGCTGCTTTT TATCATCAGT 
    AATCAGTTGA CAACAATCGA GAACTTGCAA TCTCAATTAG CAGGTTTCAA AGACGGTAGC 
    GTAGGTGGCA AATCGAATAA TCGCCCCAAC CCGAATCGTC AACTCGAAGA GCTTCGCAAT 
    CTACAGGACA AACTGAGTCG CGAGCGAGCT GAATTTCGCG CATCCTCGCA GCAAGAGCGT 
    GCCCAGCTCG AGGAGGAGCG AGCTGAGCTC AACAAGCTAC GTAGTCAGCT GTCAGCGGAT 
    CAACGTGACC TCGACAAGCA GCGCGATCAG CTGTATCGCA AACTGGAGGC GCTGACGCGT 
    CAAGGAGTGT CGCTAACCAC GGGTGCACCA GTGCCTGTGG TGACGCACGG AACTGGTGAC 
    GCTAATCAGA GCTCGTCTTC ATCATCGTCG TCGACATCGC GGAAAAAGTC GCAAACTGAC 
    GAGAAGGGCA TGATTCCACA AAATCTATTC AGTGCCACAA ACCAGCAGAA GGTGCAACAA 
    CTGCCCGTAA AGCAGCAACT GCCGCTTAAA CTGGCCAGTG GTAGTAATAA TACCAACTCC 
    AGGAGCGGAA GCATAGTAAG CAACAACAGT CCGGACCGTC ACTCGCGGAC GGGTAGCAGT 
    CCAGCGATAG TAACGAGCTC TTCGGCCCTA TCATCTCCTG AACTTGGCAC TAGCAGCAAT 
    CACCACAATA ACGGTTCTAG CGCTCTAAGC CACTTCTCGA TGTCGAATCG CTCATTGCGC 
    TATACGCGTA TACCCGAGCC TTATCCTCGC AAACATCACG TACAACAACA GCAGCAGCAG 
    CAGCAGCAAC AGCAGCAGCA ACAGCAGCCA CAGCGAGCCG AACCGCAGCA ACCGCTTGAG 
    GAAGAGGTAC TGTTTTTGTG A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_031782255.1
    CDS273..4853
    Translation

    Target ORF information:

    RefSeq Version XM_031926395.1
    Organism Nasonia vitripennis(jewel wasp)
    Definition Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_031926395.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGGAAAAGC GCAGGGAAGG ACTCGCGCCG TTTTCCTCCG ACGAATGTCC GAACAGCGGG 
    GAGGACAGCG ACGAGGATGT AATAACAGAC TACCTGGGCT CCGCGCAATC GGAGTGTTCA 
    CGCGTGTCTG TCGTTAACGG GGATCACCTC CCCGAGCAGC AGCATCAGTC CGACGCAGCA 
    GTCGCCGGCA ATTATACCAA AGACAGCACC GGTCATCATC AGCAGCAACA TCACCACCAT 
    CCAACGATCG TCATGTCCGA CACGCCGGAA GAGCAACAGC AGCACGGAGC TGGACACCCG 
    ACGGCGACCA GTCCCCTGGT GCCCATCATC AGCGTCACCC CTCACTCGCC TGGACTCGCC 
    GCCAAGCATT ACCCCGTTCT CGAGGAACCT CTGCGTCATC TGCACGAGAT CCACGACAAG 
    ATCAACCAGA TGCGCGACCT GACGCTGGCC CTGGCGAGCC GTACACAGCC GGGCGAGCAC 
    CTGCAGCGTT TCAGCACCTC CTGTCCGTCC CTCTGCCCGA TCATCTCGAT CGACGGCATC 
    GTCCAGTCGT CGTCGTCGGC CGTCGGAGGC CACCACCATC ACCACCACCA TCACCAGCAG 
    CAGCACAGCA GTCAGGAGCA GGATGGCTCG GACCCGGACC TCCTGACCAA CTGCTCGACC 
    AACAGCTCGC CTACGCACTT TCCCGGCACC ATCATGGTTG GCGGCGCTGC TGGACACGCC 
    TGCAGCCAGA TCCTCCAGGG AATCGACAGG CGGCGCAGCT GGACCGACCT CGAGGACTCC 
    AGGCAGCATC GGCGGGGCTC CGATCAGAAT CACCTGCAGG CCCAGAACAT CCGGCAGCGA 
    AGTATCAGCT TGAGCAGTCT CGATAGTGAC ATGGACCTGG AGTTGGATGG CAAATCTCGC 
    GCCAGAGATA CGAGCAACAA AACCCGCACT TCCGTGTCGC AGTCCAGTAC GCATTCGCTG 
    AACGAAGCCG ACTTTGTCCA TCAGAACGAG TTCAAGAAAG TGGTGGTCAA GCGTGGAGGT 
    CAGAGGCTAG GGGAGAACGT CAGCTTGATG CCCGGGGTGA CCGGATCGCG ATTGCCGCTC 
    CAGAAGTCCG TTTCGACACC ATCCATTGTC ATACCGCCGG GCCAGACTCA CCTCACGGAA 
    ACTGGGGCGC GCGTCGCTCC CTCTCTCTCC ACCAGTCGGC ATGAAAGACA CGAAAAGGGT 
    AGTGGAAGTG AGACAGAGAC GGACGATCTT CACATCCCTC ATGGTCATGA ATTTCACGAG 
    GACTTGATGA GAGAGGGCGC GCCGAATAAC CAAGCTTCCC TCGACGAACT CTTGACCGAC 
    ACAGCATATG ACGATCGACA TTCGGAGAAA ACAAAAAGAA AACGAGGTTC ATTATTTTCA 
    AGAAAGAAGA AGGATAAAAG TGGGAAGAAG CCAGCGCAAC AACATCAATG GGCAGCTATA 
    AACGTATCGT CACAGGGAAA CAACAGTTGT GATTTTTGTA TGAAGTCTTT TGCTAGTAAA 
    CCGACTTTAC ACTGCGAAAA TTGCGGCGCC ATAATTCACC AGGCGTGCAA AGACCATTAC 
    CAAGCAGAAT GCACGAAATC GAAGCCCTCA AGCAAATCTT CGTTCAAATC ACTGTCGAGC 
    GTCTCGATAT CGTCGACGAG CAGCATCGTG AAGCGTGGCT CCACGGCTTC GCTGCCGCTG 
    CCAGCGTCGA TCGGTACCGG AAGGGATAAT AACAACAAGA AAGCGGTGAC AAGCTACAGC 
    CCTTGGCGGC GAGTTGCCAC CAAGCTCGGA GTCAATCAAA CTATCAATGA GGAGAGAGAC 
    GGAGATGGAG GCTCTCATCG CGATATTTCC AGCGGCTTGG AGGAGTTCGA CTTCGACGAT 
    ACGCACCAGT TCAGCCTGGA CGAGTTCGAC GGTCAGCGTC CGGAGCTGGG CCTGGGTCGG 
    GAGGAGCCGG ACTCTTGGAG CGCCTGGATC GGTCGTAAGG TCGCTCTGCG ACTCGTCGAC 
    AACAACGAGC GCGAAGTCAA GCGGCAGGAG CACATCTACG AGTTCATCCT CACCGAGAAG 
    CACCACTGCC TCGTGCTGCT GGCCATGCAG CGGATCTTCG TCGAGGGCCT GCAGCGTCAT 
    TTCAATCTTA ACTCCTCGGT CCTCGACCGC ATGTTCCCCA AGCTCCAGAA CCTCATGGAC 
    ATCCACTTTG ACTTCTTGGC CAAGCTCAGG CATCGCCAGG CCGAGAACGC GGTTGTCACC 
    ACCATCGCCG ACATACTGAT AGACCAGTTT TCCGGCGAGA ACTCCTACAA TATGAAGAAT 
    GCCTACGGCG AGTTCTGCAG TCGGCACAGG GACGCGGTCG ACGTCTACAA GCAGCAGCAG 
    CAGATGGACA CGAGGTTCGC CAGATTCGTC AGGCACTGTC AGAACAACCC GTTGCTCAAA 
    AAGAAGGGCA TCCCCGAGTG CATACTCTTC GTCACCCAGA GGCTGACCAA GTATCCGCTG 
    CTGGTCGAGC CGCTGATCAA GACCGGGGTG ACCACCGAGG AGACTGACAA TCTGCGTAAA 
    GCCCTGAGTC TCGTTAAGGA GATACTCGGC GAAGTCGATG CCTGCGTCGC CGACAAAGAG 
    CGGACGGACA GGAAACTGGA TATTTATCAC AAAATCGATG CAAAGTCGTA CGCTTACTAT 
    CGCGGTAAAA AGTTCAAAAA GTCCGATATC TTGGCGTCGA ATCGCAACCT CAAATTTGAA 
    GGCACAGCCT GGCTGCTCCA GGGACGAAGC AAGACGGTAC CTGTAGTGGT GGTCTGCCTT 
    ACTGACGTGC TTTTCTTCCT GGCTGGCGAA CAGAAGTATG CGTTCTTCGT GCCTGACAAT 
    AAAGCGGGCG TCGTTTCGCT GCAGAAGCTG CTAGTACGCG AGAAGGCCGG CAACGAATCG 
    CGCGGCATCT ATCTCATCAG CAGCAATCCC AGCGAGCCCG AAATGTTCGA GCTCAAGGTC 
    AAGGATCCGC GAGACAAGCA TCTGTGGGTC AAAGCGATCA GAGCAGCGGT CGAATCGTGC 
    CCGCAAGAGC CCGACAGTGA AAACTGTAAT TTTACCGAGA ACAATATGGT TAACGAGATG 
    CGGGATGCGC GCTCGCTGTC TCTGTCGAAG ATGTCCCCCG AGGAGAAACT TAGACAAGCC 
    AAAGAAACAC ATTTGCAGAA TATAATTGAT GAACTTAAGA AGAAAGATGA GGAGCAAGCA 
    TCGCTGTTCG AACAGAAGAT GTATTTACAT ATGAGATTAC ACGACGCGAT AAGTATGCGC 
    GGTAGTAACG AAAACGACGT GGATAAAATA GACAAAGATT ACAAGGAAGT ACCTGACTAT 
    TTAAGGTACA TCGGAGGTGA AGGAATCAAT TTGACAAAGA TGTACCAAGA GGCGCGCGAA 
    GCTGTTCAGG AGGCAATGCG ATTGGTCAAT TCCTTGTCTT ATGGCGCAGG CGGTGGAACT 
    TTGTCAAGAA GTTTAAGTTC AGCAGGTGAA AGACACAGCG ATGCTTACGT GCCACCGTCG 
    CTCGCTGTTC CCAGGAGAGC AGAGACCTTT GCTGGCTTTG ATCACAACAA AGAACGCTAT 
    CCGTGGCGAG ATTCAGTTGC ATTGAATAAC ATGGCACCGC CTATGCCGAA AAACGAAGAG 
    GTGAACACCG TTGAACAGGT GGAGGGCAAA GAAGAGGATG AGCTTGACGC CTATAGAGAC 
    CAGCGTGAGG TCGCTGTCAG AATTTCCCAT TACGTGGATA CGCTGCTTTT TATCATCAGT 
    AATCAGTTGA CAACAATCGA GAACTTGCAA TCTCAATTAG CAGGTTTCAA AGACGGTAGC 
    GTAGGTGGCA AATCGAATAA TCGCCCCAAC CCGAATCGTC AACTCGAAGA GCTTCGCAAT 
    CTACAGGACA AACTGAGTCG CGAGCGAGCT GAATTTCGCG CATCCTCGCA GCAAGAGCGT 
    GCCCAGCTCG AGGAGGAGCG AGCTGAGCTC AACAAGCTAC GTAGTCAGCT GTCAGCGGAT 
    CAACGTGACC TCGACAAGCA GCGCGATCAG CTGTATCGCA AACTGGAGGC GCTGACGCGT 
    CAAGGAGTGT CGCTAACCAC GGGTGCACCA GTGCCTGTGG TGACGCACGG AACTGGTGAC 
    GCTAATCAGA GCTCGTCTTC ATCATCGTCG TCGACATCGC GGAAAAAGTC GCAAACTGAC 
    GAGAAGGGCA TGATTCCACA AAATCTATTC AGTGCCACAA ACCAGCAGAA GGTGCAACAA 
    CTGCCCGTAA AGCAGCAACT GCCGCTTAAA CTGGCCAGTG GTAGTAATAA TACCAACTCC 
    AGGAGCGGAA GCATAGTAAG CAACAACAGT CCGGACCGTC ACTCGCGGAC GGGTAGCAGT 
    CCAGCGATAG TAACGAGCTC TTCGGCCCTA TCATCTCCTG AACTTGGCAC TAGCAGCAAT 
    CACCACAATA ACGGTTCTAG CGCTCTAAGC CACTTCTCGA TGTCGAATCG CTCATTGCGC 
    TATACGCGTA TACCCGAGCC TTATCCTCGC AAACATCACG TACAACAACA GCAGCAGCAG 
    CAGCAGCAAC AGCAGCAGCA ACAGCAGCCA CAGCGAGCCG AACCGCAGCA ACCGCTTGAG 
    GAAGAGGTAC TGTTTTTGTG A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    LOC100121921 ( XM_031926394.1 ) cDNA ORF clone, Nasonia vitripennis(jewel wasp) -> XP_031782254.1 Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ONd29262
    Clone ID Related Accession (Same CDS sequence) XM_031926396.1 , XM_031926395.1 , XM_031926394.1
    Accession Version XM_031926394.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4581bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-23
    Organism Nasonia vitripennis(jewel wasp)
    Product rho guanine nucleotide exchange factor 28 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_022279627.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nasonia vitripennis Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGGAAAAGC GCAGGGAAGG ACTCGCGCCG TTTTCCTCCG ACGAATGTCC GAACAGCGGG 
    GAGGACAGCG ACGAGGATGT AATAACAGAC TACCTGGGCT CCGCGCAATC GGAGTGTTCA 
    CGCGTGTCTG TCGTTAACGG GGATCACCTC CCCGAGCAGC AGCATCAGTC CGACGCAGCA 
    GTCGCCGGCA ATTATACCAA AGACAGCACC GGTCATCATC AGCAGCAACA TCACCACCAT 
    CCAACGATCG TCATGTCCGA CACGCCGGAA GAGCAACAGC AGCACGGAGC TGGACACCCG 
    ACGGCGACCA GTCCCCTGGT GCCCATCATC AGCGTCACCC CTCACTCGCC TGGACTCGCC 
    GCCAAGCATT ACCCCGTTCT CGAGGAACCT CTGCGTCATC TGCACGAGAT CCACGACAAG 
    ATCAACCAGA TGCGCGACCT GACGCTGGCC CTGGCGAGCC GTACACAGCC GGGCGAGCAC 
    CTGCAGCGTT TCAGCACCTC CTGTCCGTCC CTCTGCCCGA TCATCTCGAT CGACGGCATC 
    GTCCAGTCGT CGTCGTCGGC CGTCGGAGGC CACCACCATC ACCACCACCA TCACCAGCAG 
    CAGCACAGCA GTCAGGAGCA GGATGGCTCG GACCCGGACC TCCTGACCAA CTGCTCGACC 
    AACAGCTCGC CTACGCACTT TCCCGGCACC ATCATGGTTG GCGGCGCTGC TGGACACGCC 
    TGCAGCCAGA TCCTCCAGGG AATCGACAGG CGGCGCAGCT GGACCGACCT CGAGGACTCC 
    AGGCAGCATC GGCGGGGCTC CGATCAGAAT CACCTGCAGG CCCAGAACAT CCGGCAGCGA 
    AGTATCAGCT TGAGCAGTCT CGATAGTGAC ATGGACCTGG AGTTGGATGG CAAATCTCGC 
    GCCAGAGATA CGAGCAACAA AACCCGCACT TCCGTGTCGC AGTCCAGTAC GCATTCGCTG 
    AACGAAGCCG ACTTTGTCCA TCAGAACGAG TTCAAGAAAG TGGTGGTCAA GCGTGGAGGT 
    CAGAGGCTAG GGGAGAACGT CAGCTTGATG CCCGGGGTGA CCGGATCGCG ATTGCCGCTC 
    CAGAAGTCCG TTTCGACACC ATCCATTGTC ATACCGCCGG GCCAGACTCA CCTCACGGAA 
    ACTGGGGCGC GCGTCGCTCC CTCTCTCTCC ACCAGTCGGC ATGAAAGACA CGAAAAGGGT 
    AGTGGAAGTG AGACAGAGAC GGACGATCTT CACATCCCTC ATGGTCATGA ATTTCACGAG 
    GACTTGATGA GAGAGGGCGC GCCGAATAAC CAAGCTTCCC TCGACGAACT CTTGACCGAC 
    ACAGCATATG ACGATCGACA TTCGGAGAAA ACAAAAAGAA AACGAGGTTC ATTATTTTCA 
    AGAAAGAAGA AGGATAAAAG TGGGAAGAAG CCAGCGCAAC AACATCAATG GGCAGCTATA 
    AACGTATCGT CACAGGGAAA CAACAGTTGT GATTTTTGTA TGAAGTCTTT TGCTAGTAAA 
    CCGACTTTAC ACTGCGAAAA TTGCGGCGCC ATAATTCACC AGGCGTGCAA AGACCATTAC 
    CAAGCAGAAT GCACGAAATC GAAGCCCTCA AGCAAATCTT CGTTCAAATC ACTGTCGAGC 
    GTCTCGATAT CGTCGACGAG CAGCATCGTG AAGCGTGGCT CCACGGCTTC GCTGCCGCTG 
    CCAGCGTCGA TCGGTACCGG AAGGGATAAT AACAACAAGA AAGCGGTGAC AAGCTACAGC 
    CCTTGGCGGC GAGTTGCCAC CAAGCTCGGA GTCAATCAAA CTATCAATGA GGAGAGAGAC 
    GGAGATGGAG GCTCTCATCG CGATATTTCC AGCGGCTTGG AGGAGTTCGA CTTCGACGAT 
    ACGCACCAGT TCAGCCTGGA CGAGTTCGAC GGTCAGCGTC CGGAGCTGGG CCTGGGTCGG 
    GAGGAGCCGG ACTCTTGGAG CGCCTGGATC GGTCGTAAGG TCGCTCTGCG ACTCGTCGAC 
    AACAACGAGC GCGAAGTCAA GCGGCAGGAG CACATCTACG AGTTCATCCT CACCGAGAAG 
    CACCACTGCC TCGTGCTGCT GGCCATGCAG CGGATCTTCG TCGAGGGCCT GCAGCGTCAT 
    TTCAATCTTA ACTCCTCGGT CCTCGACCGC ATGTTCCCCA AGCTCCAGAA CCTCATGGAC 
    ATCCACTTTG ACTTCTTGGC CAAGCTCAGG CATCGCCAGG CCGAGAACGC GGTTGTCACC 
    ACCATCGCCG ACATACTGAT AGACCAGTTT TCCGGCGAGA ACTCCTACAA TATGAAGAAT 
    GCCTACGGCG AGTTCTGCAG TCGGCACAGG GACGCGGTCG ACGTCTACAA GCAGCAGCAG 
    CAGATGGACA CGAGGTTCGC CAGATTCGTC AGGCACTGTC AGAACAACCC GTTGCTCAAA 
    AAGAAGGGCA TCCCCGAGTG CATACTCTTC GTCACCCAGA GGCTGACCAA GTATCCGCTG 
    CTGGTCGAGC CGCTGATCAA GACCGGGGTG ACCACCGAGG AGACTGACAA TCTGCGTAAA 
    GCCCTGAGTC TCGTTAAGGA GATACTCGGC GAAGTCGATG CCTGCGTCGC CGACAAAGAG 
    CGGACGGACA GGAAACTGGA TATTTATCAC AAAATCGATG CAAAGTCGTA CGCTTACTAT 
    CGCGGTAAAA AGTTCAAAAA GTCCGATATC TTGGCGTCGA ATCGCAACCT CAAATTTGAA 
    GGCACAGCCT GGCTGCTCCA GGGACGAAGC AAGACGGTAC CTGTAGTGGT GGTCTGCCTT 
    ACTGACGTGC TTTTCTTCCT GGCTGGCGAA CAGAAGTATG CGTTCTTCGT GCCTGACAAT 
    AAAGCGGGCG TCGTTTCGCT GCAGAAGCTG CTAGTACGCG AGAAGGCCGG CAACGAATCG 
    CGCGGCATCT ATCTCATCAG CAGCAATCCC AGCGAGCCCG AAATGTTCGA GCTCAAGGTC 
    AAGGATCCGC GAGACAAGCA TCTGTGGGTC AAAGCGATCA GAGCAGCGGT CGAATCGTGC 
    CCGCAAGAGC CCGACAGTGA AAACTGTAAT TTTACCGAGA ACAATATGGT TAACGAGATG 
    CGGGATGCGC GCTCGCTGTC TCTGTCGAAG ATGTCCCCCG AGGAGAAACT TAGACAAGCC 
    AAAGAAACAC ATTTGCAGAA TATAATTGAT GAACTTAAGA AGAAAGATGA GGAGCAAGCA 
    TCGCTGTTCG AACAGAAGAT GTATTTACAT ATGAGATTAC ACGACGCGAT AAGTATGCGC 
    GGTAGTAACG AAAACGACGT GGATAAAATA GACAAAGATT ACAAGGAAGT ACCTGACTAT 
    TTAAGGTACA TCGGAGGTGA AGGAATCAAT TTGACAAAGA TGTACCAAGA GGCGCGCGAA 
    GCTGTTCAGG AGGCAATGCG ATTGGTCAAT TCCTTGTCTT ATGGCGCAGG CGGTGGAACT 
    TTGTCAAGAA GTTTAAGTTC AGCAGGTGAA AGACACAGCG ATGCTTACGT GCCACCGTCG 
    CTCGCTGTTC CCAGGAGAGC AGAGACCTTT GCTGGCTTTG ATCACAACAA AGAACGCTAT 
    CCGTGGCGAG ATTCAGTTGC ATTGAATAAC ATGGCACCGC CTATGCCGAA AAACGAAGAG 
    GTGAACACCG TTGAACAGGT GGAGGGCAAA GAAGAGGATG AGCTTGACGC CTATAGAGAC 
    CAGCGTGAGG TCGCTGTCAG AATTTCCCAT TACGTGGATA CGCTGCTTTT TATCATCAGT 
    AATCAGTTGA CAACAATCGA GAACTTGCAA TCTCAATTAG CAGGTTTCAA AGACGGTAGC 
    GTAGGTGGCA AATCGAATAA TCGCCCCAAC CCGAATCGTC AACTCGAAGA GCTTCGCAAT 
    CTACAGGACA AACTGAGTCG CGAGCGAGCT GAATTTCGCG CATCCTCGCA GCAAGAGCGT 
    GCCCAGCTCG AGGAGGAGCG AGCTGAGCTC AACAAGCTAC GTAGTCAGCT GTCAGCGGAT 
    CAACGTGACC TCGACAAGCA GCGCGATCAG CTGTATCGCA AACTGGAGGC GCTGACGCGT 
    CAAGGAGTGT CGCTAACCAC GGGTGCACCA GTGCCTGTGG TGACGCACGG AACTGGTGAC 
    GCTAATCAGA GCTCGTCTTC ATCATCGTCG TCGACATCGC GGAAAAAGTC GCAAACTGAC 
    GAGAAGGGCA TGATTCCACA AAATCTATTC AGTGCCACAA ACCAGCAGAA GGTGCAACAA 
    CTGCCCGTAA AGCAGCAACT GCCGCTTAAA CTGGCCAGTG GTAGTAATAA TACCAACTCC 
    AGGAGCGGAA GCATAGTAAG CAACAACAGT CCGGACCGTC ACTCGCGGAC GGGTAGCAGT 
    CCAGCGATAG TAACGAGCTC TTCGGCCCTA TCATCTCCTG AACTTGGCAC TAGCAGCAAT 
    CACCACAATA ACGGTTCTAG CGCTCTAAGC CACTTCTCGA TGTCGAATCG CTCATTGCGC 
    TATACGCGTA TACCCGAGCC TTATCCTCGC AAACATCACG TACAACAACA GCAGCAGCAG 
    CAGCAGCAAC AGCAGCAGCA ACAGCAGCCA CAGCGAGCCG AACCGCAGCA ACCGCTTGAG 
    GAAGAGGTAC TGTTTTTGTG A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_031782254.1
    CDS632..5212
    Translation

    Target ORF information:

    RefSeq Version XM_031926394.1
    Organism Nasonia vitripennis(jewel wasp)
    Definition Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_031926394.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGGAAAAGC GCAGGGAAGG ACTCGCGCCG TTTTCCTCCG ACGAATGTCC GAACAGCGGG 
    GAGGACAGCG ACGAGGATGT AATAACAGAC TACCTGGGCT CCGCGCAATC GGAGTGTTCA 
    CGCGTGTCTG TCGTTAACGG GGATCACCTC CCCGAGCAGC AGCATCAGTC CGACGCAGCA 
    GTCGCCGGCA ATTATACCAA AGACAGCACC GGTCATCATC AGCAGCAACA TCACCACCAT 
    CCAACGATCG TCATGTCCGA CACGCCGGAA GAGCAACAGC AGCACGGAGC TGGACACCCG 
    ACGGCGACCA GTCCCCTGGT GCCCATCATC AGCGTCACCC CTCACTCGCC TGGACTCGCC 
    GCCAAGCATT ACCCCGTTCT CGAGGAACCT CTGCGTCATC TGCACGAGAT CCACGACAAG 
    ATCAACCAGA TGCGCGACCT GACGCTGGCC CTGGCGAGCC GTACACAGCC GGGCGAGCAC 
    CTGCAGCGTT TCAGCACCTC CTGTCCGTCC CTCTGCCCGA TCATCTCGAT CGACGGCATC 
    GTCCAGTCGT CGTCGTCGGC CGTCGGAGGC CACCACCATC ACCACCACCA TCACCAGCAG 
    CAGCACAGCA GTCAGGAGCA GGATGGCTCG GACCCGGACC TCCTGACCAA CTGCTCGACC 
    AACAGCTCGC CTACGCACTT TCCCGGCACC ATCATGGTTG GCGGCGCTGC TGGACACGCC 
    TGCAGCCAGA TCCTCCAGGG AATCGACAGG CGGCGCAGCT GGACCGACCT CGAGGACTCC 
    AGGCAGCATC GGCGGGGCTC CGATCAGAAT CACCTGCAGG CCCAGAACAT CCGGCAGCGA 
    AGTATCAGCT TGAGCAGTCT CGATAGTGAC ATGGACCTGG AGTTGGATGG CAAATCTCGC 
    GCCAGAGATA CGAGCAACAA AACCCGCACT TCCGTGTCGC AGTCCAGTAC GCATTCGCTG 
    AACGAAGCCG ACTTTGTCCA TCAGAACGAG TTCAAGAAAG TGGTGGTCAA GCGTGGAGGT 
    CAGAGGCTAG GGGAGAACGT CAGCTTGATG CCCGGGGTGA CCGGATCGCG ATTGCCGCTC 
    CAGAAGTCCG TTTCGACACC ATCCATTGTC ATACCGCCGG GCCAGACTCA CCTCACGGAA 
    ACTGGGGCGC GCGTCGCTCC CTCTCTCTCC ACCAGTCGGC ATGAAAGACA CGAAAAGGGT 
    AGTGGAAGTG AGACAGAGAC GGACGATCTT CACATCCCTC ATGGTCATGA ATTTCACGAG 
    GACTTGATGA GAGAGGGCGC GCCGAATAAC CAAGCTTCCC TCGACGAACT CTTGACCGAC 
    ACAGCATATG ACGATCGACA TTCGGAGAAA ACAAAAAGAA AACGAGGTTC ATTATTTTCA 
    AGAAAGAAGA AGGATAAAAG TGGGAAGAAG CCAGCGCAAC AACATCAATG GGCAGCTATA 
    AACGTATCGT CACAGGGAAA CAACAGTTGT GATTTTTGTA TGAAGTCTTT TGCTAGTAAA 
    CCGACTTTAC ACTGCGAAAA TTGCGGCGCC ATAATTCACC AGGCGTGCAA AGACCATTAC 
    CAAGCAGAAT GCACGAAATC GAAGCCCTCA AGCAAATCTT CGTTCAAATC ACTGTCGAGC 
    GTCTCGATAT CGTCGACGAG CAGCATCGTG AAGCGTGGCT CCACGGCTTC GCTGCCGCTG 
    CCAGCGTCGA TCGGTACCGG AAGGGATAAT AACAACAAGA AAGCGGTGAC AAGCTACAGC 
    CCTTGGCGGC GAGTTGCCAC CAAGCTCGGA GTCAATCAAA CTATCAATGA GGAGAGAGAC 
    GGAGATGGAG GCTCTCATCG CGATATTTCC AGCGGCTTGG AGGAGTTCGA CTTCGACGAT 
    ACGCACCAGT TCAGCCTGGA CGAGTTCGAC GGTCAGCGTC CGGAGCTGGG CCTGGGTCGG 
    GAGGAGCCGG ACTCTTGGAG CGCCTGGATC GGTCGTAAGG TCGCTCTGCG ACTCGTCGAC 
    AACAACGAGC GCGAAGTCAA GCGGCAGGAG CACATCTACG AGTTCATCCT CACCGAGAAG 
    CACCACTGCC TCGTGCTGCT GGCCATGCAG CGGATCTTCG TCGAGGGCCT GCAGCGTCAT 
    TTCAATCTTA ACTCCTCGGT CCTCGACCGC ATGTTCCCCA AGCTCCAGAA CCTCATGGAC 
    ATCCACTTTG ACTTCTTGGC CAAGCTCAGG CATCGCCAGG CCGAGAACGC GGTTGTCACC 
    ACCATCGCCG ACATACTGAT AGACCAGTTT TCCGGCGAGA ACTCCTACAA TATGAAGAAT 
    GCCTACGGCG AGTTCTGCAG TCGGCACAGG GACGCGGTCG ACGTCTACAA GCAGCAGCAG 
    CAGATGGACA CGAGGTTCGC CAGATTCGTC AGGCACTGTC AGAACAACCC GTTGCTCAAA 
    AAGAAGGGCA TCCCCGAGTG CATACTCTTC GTCACCCAGA GGCTGACCAA GTATCCGCTG 
    CTGGTCGAGC CGCTGATCAA GACCGGGGTG ACCACCGAGG AGACTGACAA TCTGCGTAAA 
    GCCCTGAGTC TCGTTAAGGA GATACTCGGC GAAGTCGATG CCTGCGTCGC CGACAAAGAG 
    CGGACGGACA GGAAACTGGA TATTTATCAC AAAATCGATG CAAAGTCGTA CGCTTACTAT 
    CGCGGTAAAA AGTTCAAAAA GTCCGATATC TTGGCGTCGA ATCGCAACCT CAAATTTGAA 
    GGCACAGCCT GGCTGCTCCA GGGACGAAGC AAGACGGTAC CTGTAGTGGT GGTCTGCCTT 
    ACTGACGTGC TTTTCTTCCT GGCTGGCGAA CAGAAGTATG CGTTCTTCGT GCCTGACAAT 
    AAAGCGGGCG TCGTTTCGCT GCAGAAGCTG CTAGTACGCG AGAAGGCCGG CAACGAATCG 
    CGCGGCATCT ATCTCATCAG CAGCAATCCC AGCGAGCCCG AAATGTTCGA GCTCAAGGTC 
    AAGGATCCGC GAGACAAGCA TCTGTGGGTC AAAGCGATCA GAGCAGCGGT CGAATCGTGC 
    CCGCAAGAGC CCGACAGTGA AAACTGTAAT TTTACCGAGA ACAATATGGT TAACGAGATG 
    CGGGATGCGC GCTCGCTGTC TCTGTCGAAG ATGTCCCCCG AGGAGAAACT TAGACAAGCC 
    AAAGAAACAC ATTTGCAGAA TATAATTGAT GAACTTAAGA AGAAAGATGA GGAGCAAGCA 
    TCGCTGTTCG AACAGAAGAT GTATTTACAT ATGAGATTAC ACGACGCGAT AAGTATGCGC 
    GGTAGTAACG AAAACGACGT GGATAAAATA GACAAAGATT ACAAGGAAGT ACCTGACTAT 
    TTAAGGTACA TCGGAGGTGA AGGAATCAAT TTGACAAAGA TGTACCAAGA GGCGCGCGAA 
    GCTGTTCAGG AGGCAATGCG ATTGGTCAAT TCCTTGTCTT ATGGCGCAGG CGGTGGAACT 
    TTGTCAAGAA GTTTAAGTTC AGCAGGTGAA AGACACAGCG ATGCTTACGT GCCACCGTCG 
    CTCGCTGTTC CCAGGAGAGC AGAGACCTTT GCTGGCTTTG ATCACAACAA AGAACGCTAT 
    CCGTGGCGAG ATTCAGTTGC ATTGAATAAC ATGGCACCGC CTATGCCGAA AAACGAAGAG 
    GTGAACACCG TTGAACAGGT GGAGGGCAAA GAAGAGGATG AGCTTGACGC CTATAGAGAC 
    CAGCGTGAGG TCGCTGTCAG AATTTCCCAT TACGTGGATA CGCTGCTTTT TATCATCAGT 
    AATCAGTTGA CAACAATCGA GAACTTGCAA TCTCAATTAG CAGGTTTCAA AGACGGTAGC 
    GTAGGTGGCA AATCGAATAA TCGCCCCAAC CCGAATCGTC AACTCGAAGA GCTTCGCAAT 
    CTACAGGACA AACTGAGTCG CGAGCGAGCT GAATTTCGCG CATCCTCGCA GCAAGAGCGT 
    GCCCAGCTCG AGGAGGAGCG AGCTGAGCTC AACAAGCTAC GTAGTCAGCT GTCAGCGGAT 
    CAACGTGACC TCGACAAGCA GCGCGATCAG CTGTATCGCA AACTGGAGGC GCTGACGCGT 
    CAAGGAGTGT CGCTAACCAC GGGTGCACCA GTGCCTGTGG TGACGCACGG AACTGGTGAC 
    GCTAATCAGA GCTCGTCTTC ATCATCGTCG TCGACATCGC GGAAAAAGTC GCAAACTGAC 
    GAGAAGGGCA TGATTCCACA AAATCTATTC AGTGCCACAA ACCAGCAGAA GGTGCAACAA 
    CTGCCCGTAA AGCAGCAACT GCCGCTTAAA CTGGCCAGTG GTAGTAATAA TACCAACTCC 
    AGGAGCGGAA GCATAGTAAG CAACAACAGT CCGGACCGTC ACTCGCGGAC GGGTAGCAGT 
    CCAGCGATAG TAACGAGCTC TTCGGCCCTA TCATCTCCTG AACTTGGCAC TAGCAGCAAT 
    CACCACAATA ACGGTTCTAG CGCTCTAAGC CACTTCTCGA TGTCGAATCG CTCATTGCGC 
    TATACGCGTA TACCCGAGCC TTATCCTCGC AAACATCACG TACAACAACA GCAGCAGCAG 
    CAGCAGCAAC AGCAGCAGCA ACAGCAGCCA CAGCGAGCCG AACCGCAGCA ACCGCTTGAG 
    GAAGAGGTAC TGTTTTTGTG A

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    LOC100121921 ( XM_031926397.1 ) cDNA ORF clone, Nasonia vitripennis(jewel wasp) -> XP_031782257.1 Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID ONd29263
    Clone ID Related Accession (Same CDS sequence) XM_031926397.1
    Accession Version XM_031926397.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4578bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-23
    Organism Nasonia vitripennis(jewel wasp)
    Product rho guanine nucleotide exchange factor 28 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_022279627.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nasonia vitripennis Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGGAAAAGC GCAGGGAAGG ACTCGCGCCG TTTTCCTCCG ACGAATGTCC GAACAGCGGG 
    GAGGACAGCG ACGAGGATGT AATAACAGAC TACCTGGGCT CCGCGCAATC GGAGTGTTCA 
    CGCGTGTCTG TCGTTAACGG GGATCACCTC CCCGAGCAGC AGCATCAGTC CGACGCAGCA 
    GTCGCCGGCA ATTATACCAA AGACAGCACC GGTCATCATC AGCAGCAACA TCACCACCAT 
    CCAACGATCG TCATGTCCGA CACGCCGGAA GAGCAACAGC AGCACGGAGC TGGACACCCG 
    ACGGCGACCA GTCCCCTGGT GCCCATCATC AGCGTCACCC CTCACTCGCC TGGACTCGCC 
    GCCAAGCATT ACCCCGTTCT CGAGGAACCT CTGCGTCATC TGCACGAGAT CCACGACAAG 
    ATCAACCAGA TGCGCGACCT GACGCTGGCC CTGGCGAGCC GTACACAGCC GGGCGAGCAC 
    CTGCAGCGTT TCAGCACCTC CTGTCCGTCC CTCTGCCCGA TCATCTCGAT CGACGGCATC 
    GTCCAGTCGT CGTCGTCGGC CGTCGGAGGC CACCACCATC ACCACCACCA TCACCAGCAG 
    CAGCACAGCA GTCAGGAGCA GGATGGCTCG GACCCGGACC TCCTGACCAA CTGCTCGACC 
    AACAGCTCGC CTACGCACTT TCCCGGCACC ATCATGGTTG GCGGCGCTGC TGGACACGCC 
    TGCAGCCAGA TCCTCCAGGG AATCGACAGG CGGCGCAGCT GGACCGACCT CGAGGACTCC 
    AGGCAGCATC GGCGGGGCTC CGATCAGAAT CACCTGCAGG CCCAGAACAT CCGGCAGCGA 
    AGTATCAGCT TGAGCAGTCT CGATAGTGAC ATGGACCTGG AGTTGGATGG CAAATCTCGC 
    GCCAGAGATA CGAGCAACAA AACCCGCACT TCCGTGTCGC AGTCCAGTAC GCATTCGCTG 
    AACGAAGCCG ACTTTGTCCA TCAGAACGAG TTCAAGAAAG TGGTGGTCAA GCGTGGAGGT 
    CAGAGGCTAG GGGAGAACGT CAGCTTGATG CCCGGGGTGA CCGGATCGCG ATTGCCGCTC 
    CAGAAGTCCG TTTCGACACC ATCCATTGTC ATACCGCCGG GCCAGACTCA CCTCACGGAA 
    ACTGGGGCGC GCGTCGCTCC CTCTCTCTCC ACTCGGCATG AAAGACACGA AAAGGGTAGT 
    GGAAGTGAGA CAGAGACGGA CGATCTTCAC ATCCCTCATG GTCATGAATT TCACGAGGAC 
    TTGATGAGAG AGGGCGCGCC GAATAACCAA GCTTCCCTCG ACGAACTCTT GACCGACACA 
    GCATATGACG ATCGACATTC GGAGAAAACA AAAAGAAAAC GAGGTTCATT ATTTTCAAGA 
    AAGAAGAAGG ATAAAAGTGG GAAGAAGCCA GCGCAACAAC ATCAATGGGC AGCTATAAAC 
    GTATCGTCAC AGGGAAACAA CAGTTGTGAT TTTTGTATGA AGTCTTTTGC TAGTAAACCG 
    ACTTTACACT GCGAAAATTG CGGCGCCATA ATTCACCAGG CGTGCAAAGA CCATTACCAA 
    GCAGAATGCA CGAAATCGAA GCCCTCAAGC AAATCTTCGT TCAAATCACT GTCGAGCGTC 
    TCGATATCGT CGACGAGCAG CATCGTGAAG CGTGGCTCCA CGGCTTCGCT GCCGCTGCCA 
    GCGTCGATCG GTACCGGAAG GGATAATAAC AACAAGAAAG CGGTGACAAG CTACAGCCCT 
    TGGCGGCGAG TTGCCACCAA GCTCGGAGTC AATCAAACTA TCAATGAGGA GAGAGACGGA 
    GATGGAGGCT CTCATCGCGA TATTTCCAGC GGCTTGGAGG AGTTCGACTT CGACGATACG 
    CACCAGTTCA GCCTGGACGA GTTCGACGGT CAGCGTCCGG AGCTGGGCCT GGGTCGGGAG 
    GAGCCGGACT CTTGGAGCGC CTGGATCGGT CGTAAGGTCG CTCTGCGACT CGTCGACAAC 
    AACGAGCGCG AAGTCAAGCG GCAGGAGCAC ATCTACGAGT TCATCCTCAC CGAGAAGCAC 
    CACTGCCTCG TGCTGCTGGC CATGCAGCGG ATCTTCGTCG AGGGCCTGCA GCGTCATTTC 
    AATCTTAACT CCTCGGTCCT CGACCGCATG TTCCCCAAGC TCCAGAACCT CATGGACATC 
    CACTTTGACT TCTTGGCCAA GCTCAGGCAT CGCCAGGCCG AGAACGCGGT TGTCACCACC 
    ATCGCCGACA TACTGATAGA CCAGTTTTCC GGCGAGAACT CCTACAATAT GAAGAATGCC 
    TACGGCGAGT TCTGCAGTCG GCACAGGGAC GCGGTCGACG TCTACAAGCA GCAGCAGCAG 
    ATGGACACGA GGTTCGCCAG ATTCGTCAGG CACTGTCAGA ACAACCCGTT GCTCAAAAAG 
    AAGGGCATCC CCGAGTGCAT ACTCTTCGTC ACCCAGAGGC TGACCAAGTA TCCGCTGCTG 
    GTCGAGCCGC TGATCAAGAC CGGGGTGACC ACCGAGGAGA CTGACAATCT GCGTAAAGCC 
    CTGAGTCTCG TTAAGGAGAT ACTCGGCGAA GTCGATGCCT GCGTCGCCGA CAAAGAGCGG 
    ACGGACAGGA AACTGGATAT TTATCACAAA ATCGATGCAA AGTCGTACGC TTACTATCGC 
    GGTAAAAAGT TCAAAAAGTC CGATATCTTG GCGTCGAATC GCAACCTCAA ATTTGAAGGC 
    ACAGCCTGGC TGCTCCAGGG ACGAAGCAAG ACGGTACCTG TAGTGGTGGT CTGCCTTACT 
    GACGTGCTTT TCTTCCTGGC TGGCGAACAG AAGTATGCGT TCTTCGTGCC TGACAATAAA 
    GCGGGCGTCG TTTCGCTGCA GAAGCTGCTA GTACGCGAGA AGGCCGGCAA CGAATCGCGC 
    GGCATCTATC TCATCAGCAG CAATCCCAGC GAGCCCGAAA TGTTCGAGCT CAAGGTCAAG 
    GATCCGCGAG ACAAGCATCT GTGGGTCAAA GCGATCAGAG CAGCGGTCGA ATCGTGCCCG 
    CAAGAGCCCG ACAGTGAAAA CTGTAATTTT ACCGAGAACA ATATGGTTAA CGAGATGCGG 
    GATGCGCGCT CGCTGTCTCT GTCGAAGATG TCCCCCGAGG AGAAACTTAG ACAAGCCAAA 
    GAAACACATT TGCAGAATAT AATTGATGAA CTTAAGAAGA AAGATGAGGA GCAAGCATCG 
    CTGTTCGAAC AGAAGATGTA TTTACATATG AGATTACACG ACGCGATAAG TATGCGCGGT 
    AGTAACGAAA ACGACGTGGA TAAAATAGAC AAAGATTACA AGGAAGTACC TGACTATTTA 
    AGGTACATCG GAGGTGAAGG AATCAATTTG ACAAAGATGT ACCAAGAGGC GCGCGAAGCT 
    GTTCAGGAGG CAATGCGATT GGTCAATTCC TTGTCTTATG GCGCAGGCGG TGGAACTTTG 
    TCAAGAAGTT TAAGTTCAGC AGGTGAAAGA CACAGCGATG CTTACGTGCC ACCGTCGCTC 
    GCTGTTCCCA GGAGAGCAGA GACCTTTGCT GGCTTTGATC ACAACAAAGA ACGCTATCCG 
    TGGCGAGATT CAGTTGCATT GAATAACATG GCACCGCCTA TGCCGAAAAA CGAAGAGGTG 
    AACACCGTTG AACAGGTGGA GGGCAAAGAA GAGGATGAGC TTGACGCCTA TAGAGACCAG 
    CGTGAGGTCG CTGTCAGAAT TTCCCATTAC GTGGATACGC TGCTTTTTAT CATCAGTAAT 
    CAGTTGACAA CAATCGAGAA CTTGCAATCT CAATTAGCAG GTTTCAAAGA CGGTAGCGTA 
    GGTGGCAAAT CGAATAATCG CCCCAACCCG AATCGTCAAC TCGAAGAGCT TCGCAATCTA 
    CAGGACAAAC TGAGTCGCGA GCGAGCTGAA TTTCGCGCAT CCTCGCAGCA AGAGCGTGCC 
    CAGCTCGAGG AGGAGCGAGC TGAGCTCAAC AAGCTACGTA GTCAGCTGTC AGCGGATCAA 
    CGTGACCTCG ACAAGCAGCG CGATCAGCTG TATCGCAAAC TGGAGGCGCT GACGCGTCAA 
    GGAGTGTCGC TAACCACGGG TGCACCAGTG CCTGTGGTGA CGCACGGAAC TGGTGACGCT 
    AATCAGAGCT CGTCTTCATC ATCGTCGTCG ACATCGCGGA AAAAGTCGCA AACTGACGAG 
    AAGGGCATGA TTCCACAAAA TCTATTCAGT GCCACAAACC AGCAGAAGGT GCAACAACTG 
    CCCGTAAAGC AGCAACTGCC GCTTAAACTG GCCAGTGGTA GTAATAATAC CAACTCCAGG 
    AGCGGAAGCA TAGTAAGCAA CAACAGTCCG GACCGTCACT CGCGGACGGG TAGCAGTCCA 
    GCGATAGTAA CGAGCTCTTC GGCCCTATCA TCTCCTGAAC TTGGCACTAG CAGCAATCAC 
    CACAATAACG GTTCTAGCGC TCTAAGCCAC TTCTCGATGT CGAATCGCTC ATTGCGCTAT 
    ACGCGTATAC CCGAGCCTTA TCCTCGCAAA CATCACGTAC AACAACAGCA GCAGCAGCAG 
    CAGCAACAGC AGCAGCAACA GCAGCCACAG CGAGCCGAAC CGCAGCAACC GCTTGAGGAA 
    GAGGTACTGT TTTTGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_031782257.1
    CDS632..5209
    Translation

    Target ORF information:

    RefSeq Version XM_031926397.1
    Organism Nasonia vitripennis(jewel wasp)
    Definition Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_031926397.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGGAAAAGC GCAGGGAAGG ACTCGCGCCG TTTTCCTCCG ACGAATGTCC GAACAGCGGG 
    GAGGACAGCG ACGAGGATGT AATAACAGAC TACCTGGGCT CCGCGCAATC GGAGTGTTCA 
    CGCGTGTCTG TCGTTAACGG GGATCACCTC CCCGAGCAGC AGCATCAGTC CGACGCAGCA 
    GTCGCCGGCA ATTATACCAA AGACAGCACC GGTCATCATC AGCAGCAACA TCACCACCAT 
    CCAACGATCG TCATGTCCGA CACGCCGGAA GAGCAACAGC AGCACGGAGC TGGACACCCG 
    ACGGCGACCA GTCCCCTGGT GCCCATCATC AGCGTCACCC CTCACTCGCC TGGACTCGCC 
    GCCAAGCATT ACCCCGTTCT CGAGGAACCT CTGCGTCATC TGCACGAGAT CCACGACAAG 
    ATCAACCAGA TGCGCGACCT GACGCTGGCC CTGGCGAGCC GTACACAGCC GGGCGAGCAC 
    CTGCAGCGTT TCAGCACCTC CTGTCCGTCC CTCTGCCCGA TCATCTCGAT CGACGGCATC 
    GTCCAGTCGT CGTCGTCGGC CGTCGGAGGC CACCACCATC ACCACCACCA TCACCAGCAG 
    CAGCACAGCA GTCAGGAGCA GGATGGCTCG GACCCGGACC TCCTGACCAA CTGCTCGACC 
    AACAGCTCGC CTACGCACTT TCCCGGCACC ATCATGGTTG GCGGCGCTGC TGGACACGCC 
    TGCAGCCAGA TCCTCCAGGG AATCGACAGG CGGCGCAGCT GGACCGACCT CGAGGACTCC 
    AGGCAGCATC GGCGGGGCTC CGATCAGAAT CACCTGCAGG CCCAGAACAT CCGGCAGCGA 
    AGTATCAGCT TGAGCAGTCT CGATAGTGAC ATGGACCTGG AGTTGGATGG CAAATCTCGC 
    GCCAGAGATA CGAGCAACAA AACCCGCACT TCCGTGTCGC AGTCCAGTAC GCATTCGCTG 
    AACGAAGCCG ACTTTGTCCA TCAGAACGAG TTCAAGAAAG TGGTGGTCAA GCGTGGAGGT 
    CAGAGGCTAG GGGAGAACGT CAGCTTGATG CCCGGGGTGA CCGGATCGCG ATTGCCGCTC 
    CAGAAGTCCG TTTCGACACC ATCCATTGTC ATACCGCCGG GCCAGACTCA CCTCACGGAA 
    ACTGGGGCGC GCGTCGCTCC CTCTCTCTCC ACTCGGCATG AAAGACACGA AAAGGGTAGT 
    GGAAGTGAGA CAGAGACGGA CGATCTTCAC ATCCCTCATG GTCATGAATT TCACGAGGAC 
    TTGATGAGAG AGGGCGCGCC GAATAACCAA GCTTCCCTCG ACGAACTCTT GACCGACACA 
    GCATATGACG ATCGACATTC GGAGAAAACA AAAAGAAAAC GAGGTTCATT ATTTTCAAGA 
    AAGAAGAAGG ATAAAAGTGG GAAGAAGCCA GCGCAACAAC ATCAATGGGC AGCTATAAAC 
    GTATCGTCAC AGGGAAACAA CAGTTGTGAT TTTTGTATGA AGTCTTTTGC TAGTAAACCG 
    ACTTTACACT GCGAAAATTG CGGCGCCATA ATTCACCAGG CGTGCAAAGA CCATTACCAA 
    GCAGAATGCA CGAAATCGAA GCCCTCAAGC AAATCTTCGT TCAAATCACT GTCGAGCGTC 
    TCGATATCGT CGACGAGCAG CATCGTGAAG CGTGGCTCCA CGGCTTCGCT GCCGCTGCCA 
    GCGTCGATCG GTACCGGAAG GGATAATAAC AACAAGAAAG CGGTGACAAG CTACAGCCCT 
    TGGCGGCGAG TTGCCACCAA GCTCGGAGTC AATCAAACTA TCAATGAGGA GAGAGACGGA 
    GATGGAGGCT CTCATCGCGA TATTTCCAGC GGCTTGGAGG AGTTCGACTT CGACGATACG 
    CACCAGTTCA GCCTGGACGA GTTCGACGGT CAGCGTCCGG AGCTGGGCCT GGGTCGGGAG 
    GAGCCGGACT CTTGGAGCGC CTGGATCGGT CGTAAGGTCG CTCTGCGACT CGTCGACAAC 
    AACGAGCGCG AAGTCAAGCG GCAGGAGCAC ATCTACGAGT TCATCCTCAC CGAGAAGCAC 
    CACTGCCTCG TGCTGCTGGC CATGCAGCGG ATCTTCGTCG AGGGCCTGCA GCGTCATTTC 
    AATCTTAACT CCTCGGTCCT CGACCGCATG TTCCCCAAGC TCCAGAACCT CATGGACATC 
    CACTTTGACT TCTTGGCCAA GCTCAGGCAT CGCCAGGCCG AGAACGCGGT TGTCACCACC 
    ATCGCCGACA TACTGATAGA CCAGTTTTCC GGCGAGAACT CCTACAATAT GAAGAATGCC 
    TACGGCGAGT TCTGCAGTCG GCACAGGGAC GCGGTCGACG TCTACAAGCA GCAGCAGCAG 
    ATGGACACGA GGTTCGCCAG ATTCGTCAGG CACTGTCAGA ACAACCCGTT GCTCAAAAAG 
    AAGGGCATCC CCGAGTGCAT ACTCTTCGTC ACCCAGAGGC TGACCAAGTA TCCGCTGCTG 
    GTCGAGCCGC TGATCAAGAC CGGGGTGACC ACCGAGGAGA CTGACAATCT GCGTAAAGCC 
    CTGAGTCTCG TTAAGGAGAT ACTCGGCGAA GTCGATGCCT GCGTCGCCGA CAAAGAGCGG 
    ACGGACAGGA AACTGGATAT TTATCACAAA ATCGATGCAA AGTCGTACGC TTACTATCGC 
    GGTAAAAAGT TCAAAAAGTC CGATATCTTG GCGTCGAATC GCAACCTCAA ATTTGAAGGC 
    ACAGCCTGGC TGCTCCAGGG ACGAAGCAAG ACGGTACCTG TAGTGGTGGT CTGCCTTACT 
    GACGTGCTTT TCTTCCTGGC TGGCGAACAG AAGTATGCGT TCTTCGTGCC TGACAATAAA 
    GCGGGCGTCG TTTCGCTGCA GAAGCTGCTA GTACGCGAGA AGGCCGGCAA CGAATCGCGC 
    GGCATCTATC TCATCAGCAG CAATCCCAGC GAGCCCGAAA TGTTCGAGCT CAAGGTCAAG 
    GATCCGCGAG ACAAGCATCT GTGGGTCAAA GCGATCAGAG CAGCGGTCGA ATCGTGCCCG 
    CAAGAGCCCG ACAGTGAAAA CTGTAATTTT ACCGAGAACA ATATGGTTAA CGAGATGCGG 
    GATGCGCGCT CGCTGTCTCT GTCGAAGATG TCCCCCGAGG AGAAACTTAG ACAAGCCAAA 
    GAAACACATT TGCAGAATAT AATTGATGAA CTTAAGAAGA AAGATGAGGA GCAAGCATCG 
    CTGTTCGAAC AGAAGATGTA TTTACATATG AGATTACACG ACGCGATAAG TATGCGCGGT 
    AGTAACGAAA ACGACGTGGA TAAAATAGAC AAAGATTACA AGGAAGTACC TGACTATTTA 
    AGGTACATCG GAGGTGAAGG AATCAATTTG ACAAAGATGT ACCAAGAGGC GCGCGAAGCT 
    GTTCAGGAGG CAATGCGATT GGTCAATTCC TTGTCTTATG GCGCAGGCGG TGGAACTTTG 
    TCAAGAAGTT TAAGTTCAGC AGGTGAAAGA CACAGCGATG CTTACGTGCC ACCGTCGCTC 
    GCTGTTCCCA GGAGAGCAGA GACCTTTGCT GGCTTTGATC ACAACAAAGA ACGCTATCCG 
    TGGCGAGATT CAGTTGCATT GAATAACATG GCACCGCCTA TGCCGAAAAA CGAAGAGGTG 
    AACACCGTTG AACAGGTGGA GGGCAAAGAA GAGGATGAGC TTGACGCCTA TAGAGACCAG 
    CGTGAGGTCG CTGTCAGAAT TTCCCATTAC GTGGATACGC TGCTTTTTAT CATCAGTAAT 
    CAGTTGACAA CAATCGAGAA CTTGCAATCT CAATTAGCAG GTTTCAAAGA CGGTAGCGTA 
    GGTGGCAAAT CGAATAATCG CCCCAACCCG AATCGTCAAC TCGAAGAGCT TCGCAATCTA 
    CAGGACAAAC TGAGTCGCGA GCGAGCTGAA TTTCGCGCAT CCTCGCAGCA AGAGCGTGCC 
    CAGCTCGAGG AGGAGCGAGC TGAGCTCAAC AAGCTACGTA GTCAGCTGTC AGCGGATCAA 
    CGTGACCTCG ACAAGCAGCG CGATCAGCTG TATCGCAAAC TGGAGGCGCT GACGCGTCAA 
    GGAGTGTCGC TAACCACGGG TGCACCAGTG CCTGTGGTGA CGCACGGAAC TGGTGACGCT 
    AATCAGAGCT CGTCTTCATC ATCGTCGTCG ACATCGCGGA AAAAGTCGCA AACTGACGAG 
    AAGGGCATGA TTCCACAAAA TCTATTCAGT GCCACAAACC AGCAGAAGGT GCAACAACTG 
    CCCGTAAAGC AGCAACTGCC GCTTAAACTG GCCAGTGGTA GTAATAATAC CAACTCCAGG 
    AGCGGAAGCA TAGTAAGCAA CAACAGTCCG GACCGTCACT CGCGGACGGG TAGCAGTCCA 
    GCGATAGTAA CGAGCTCTTC GGCCCTATCA TCTCCTGAAC TTGGCACTAG CAGCAATCAC 
    CACAATAACG GTTCTAGCGC TCTAAGCCAC TTCTCGATGT CGAATCGCTC ATTGCGCTAT 
    ACGCGTATAC CCGAGCCTTA TCCTCGCAAA CATCACGTAC AACAACAGCA GCAGCAGCAG 
    CAGCAACAGC AGCAGCAACA GCAGCCACAG CGAGCCGAAC CGCAGCAACC GCTTGAGGAA 
    GAGGTACTGT TTTTGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    LOC100121921 ( XM_031926398.1 ) cDNA ORF clone, Nasonia vitripennis(jewel wasp) -> XP_031782258.1 Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID ONd29264
    Clone ID Related Accession (Same CDS sequence) XM_031926398.1
    Accession Version XM_031926398.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4578bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-23
    Organism Nasonia vitripennis(jewel wasp)
    Product rho guanine nucleotide exchange factor 28 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_022279627.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nasonia vitripennis Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGGAAAAGC GCAGGGAAGG ACTCGCGCCG TTTTCCTCCG ACGAATGTCC GAACAGCGGG 
    GAGGACAGCG ACGAGGATGT AATAACAGAC TACCTGGGCT CCGCGCAATC GGAGTGTTCA 
    CGCGTGTCTG TCGTTAACGG GGATCACCTC CCCGAGCAGC AGCATCAGTC CGACGCAGCA 
    GTCGCCGGCA ATTATACCAA AGACAGCACC GGTCATCATC AGCAGCAACA TCACCACCAT 
    CCAACGATCG TCATGTCCGA CACGCCGGAA GAGCAACAGC AGCACGGAGC TGGACACCCG 
    ACGGCGACCA GTCCCCTGGT GCCCATCATC AGCGTCACCC CTCACTCGCC TGGACTCGCC 
    GCCAAGCATT ACCCCGTTCT CGAGGAACCT CTGCGTCATC TGCACGAGAT CCACGACAAG 
    ATCAACCAGA TGCGCGACCT GACGCTGGCC CTGGCGAGCC GTACACAGCC GGGCGAGCAC 
    CTGCAGCGTT TCAGCACCTC CTGTCCGTCC CTCTGCCCGA TCATCTCGAT CGACGGCATC 
    GTCCAGTCGT CGTCGTCGGC CGTCGGAGGC CACCACCATC ACCACCACCA TCACCAGCAG 
    CAGCACAGCA GTCAGGAGCA GGATGGCTCG GACCCGGACC TCCTGACCAA CTGCTCGACC 
    AACAGCTCGC CTACGCACTT TCCCGGCACC ATCATGGTTG GCGGCGCTGC TGGACACGCC 
    TGCAGCCAGA TCCTCCAGGG AATCGACAGG CGGCGCAGCT GGACCGACCT CGAGGACTCC 
    AGGCAGCATC GGCGGGGCTC CGATCAGAAT CACCTGCAGG CCCAGAACAT CCGGCAGCGA 
    AGTATCAGCT TGAGCAGTCT CGATAGTGAC ATGGACCTGG AGTTGGATGG CAAATCTCGC 
    GCCAGAGATA CGAGCAACAA AACCCGCACT TCCGTGTCGC AGTCCAGTAC GCATTCGCTG 
    AACGAAGCCG ACTTTGTCCA TCAGAACGAG TTCAAGAAAG TGGTGGTCAA GCGTGGAGGT 
    CAGAGGCTAG GGGAGAACGT CAGCTTGATG CCCGGGGTGA CCGGATCGCG ATTGCCGCTC 
    CAGAAGTCCG TTTCGACACC ATCCATTGTC ATACCGCCGG GCCAGACTCA CCTCACGGAA 
    ACTGGGGCGC GCGTCGCTCC CTCTCTCTCC ACCAGTCGGC ATGAAAGACA CGAAAAGGGT 
    AGTGGAAGTG AGACAGAGAC GGACGATCTT CACATCCCTC ATGGTCATGA ATTTCACGAG 
    GACTTGATGA GAGAGGGCGC GCCGAATAAC CAAGCTTCCC TCGACGAACT CTTGACCGAC 
    ACAGCATATG ACGATCGACA TTCGGAGAAA ACAAAAAGAA AACGAGGTTC ATTATTTTCA 
    AGAAAGAAGA AGGATAAAAG TGGGAAGAAG CCAGCGCAAC AACATCAATG GGCAGCTATA 
    AACGTATCGT CACAGGGAAA CAACAGTTGT GATTTTTGTA TGAAGTCTTT TGCTAGTAAA 
    CCGACTTTAC ACTGCGAAAA TTGCGGCGCC ATAATTCACC AGGCGTGCAA AGACCATTAC 
    CAAGCAGAAT GCACGAAATC GAAGCCCTCA AGCAAATCTT CGTTCAAATC ACTGTCGAGC 
    GTCTCGATAT CGTCGACGAG CAGCATCGTG AAGCGTGGCT CCACGGCTTC GCTGCCGCTG 
    CCAGCGTCGA TCGGTACCGG AAGGGATAAT AACAACAAGA AAGCGGTGAC AAGCTACAGC 
    CCTTGGCGGC GAGTTGCCAC CAAGCTCGGA GTCAATCAAA CTATCAATGA GGAGAGAGAC 
    GGAGATGGAG GCTCTCATCG CGATATTTCC AGCGGCTTGG AGGAGTTCGA CTTCGACGAT 
    ACGCACCAGT TCAGCCTGGA CGAGTTCGAC GGTCAGCGTC CGGAGCTGGG CCTGGGTCGG 
    GAGGAGCCGG ACTCTTGGAG CGCCTGGATC GGTCGTAAGG TCGCTCTGCG ACTCGTCGAC 
    AACAACGAGC GCGAAGTCAA GCGGCAGGAG CACATCTACG AGTTCATCCT CACCGAGAAG 
    CACCACTGCC TCGTGCTGCT GGCCATGCAG CGGATCTTCG TCGAGGGCCT GCAGCGTCAT 
    TTCAATCTTA ACTCCTCGGT CCTCGACCGC ATGTTCCCCA AGCTCCAGAA CCTCATGGAC 
    ATCCACTTTG ACTTCTTGGC CAAGCTCAGG CATCGCCAGG CCGAGAACGC GGTTGTCACC 
    ACCATCGCCG ACATACTGAT AGACCAGTTT TCCGGCGAGA ACTCCTACAA TATGAAGAAT 
    GCCTACGGCG AGTTCTGCAG TCGGCACAGG GACGCGGTCG ACGTCTACAA GCAGCAGCAG 
    CAGATGGACA CGAGGTTCGC CAGATTCGTC AGGCACTGTC AGAACAACCC GTTGCTCAAA 
    AAGAAGGGCA TCCCCGAGTG CATACTCTTC GTCACCCAGA GGCTGACCAA GTATCCGCTG 
    CTGGTCGAGC CGCTGATCAA GACCGGGGTG ACCACCGAGG AGACTGACAA TCTGCGTAAA 
    GCCCTGAGTC TCGTTAAGGA GATACTCGGC GAAGTCGATG CCTGCGTCGC CGACAAAGAG 
    CGGACGGACA GGAAACTGGA TATTTATCAC AAAATCGATG CAAAGTCGTA CGCTTACTAT 
    CGCGGTAAAA AGTTCAAAAA GTCCGATATC TTGGCGTCGA ATCGCAACCT CAAATTTGAA 
    GGCACAGCCT GGCTGCTCCA GGGACGAAGC AAGACGGTAC CTGTAGTGGT GGTCTGCCTT 
    ACTGACGTGC TTTTCTTCCT GGCTGGCGAA CAGAAGTATG CGTTCTTCGT GCCTGACAAT 
    AAAGCGGGCG TCGTTTCGCT GCAGAAGCTG CTAGTACGCG AGAAGGCCGG CAACGAATCG 
    CGCGGCATCT ATCTCATCAG CAGCAATCCC AGCGAGCCCG AAATGTTCGA GCTCAAGGTC 
    AAGGATCCGC GAGACAAGCA TCTGTGGGTC AAAGCGATCA GAGCAGCGGT CGAATCGTGC 
    CCGCAAGAGC CCGACAGTGA AAACTGTAAT TTTACCGAGA ACAATATGGT TAACGAGATG 
    CGGGATGCGC GCTCGCTGTC TCTGTCGAAG ATGTCCCCCG AGGAGAAACT TAGACAAGCC 
    AAAGAAACAC ATTTGCAGAA TATAATTGAT GAACTTAAGA AGAAAGATGA GGAGCAAGCA 
    TCGCTGTTCG AACAGAAGAT GTATTTACAT ATGAGATTAC ACGACGCGAT AAGTATGCGC 
    GGTAGTAACG AAAACGACGT GGATAAAATA GACAAAGATT ACAAGGAAGT ACCTGACTAT 
    TTAAGGTACA TCGGAGGTGA AGGAATCAAT TTGACAAAGA TGTACCAAGA GGCGCGCGAA 
    GCTGTTCAGG AGGCAATGCG ATTGGTCAAT TCCTTGTCTT ATGGCGCAGG CGGTGGAACT 
    TTGTCAAGAA GTTTAAGTTC AGCAGGTGAA AGACACAGCG ATGCTTACGT GCCACCGTCG 
    CTCGCTGTTC CCAGGAGAGC AGAGACCTTT GCTGGCTTTG ATCACAACAA AGAACGCTAT 
    CCGTGGCGAG ATTCAGTTGC ATTGAATAAC ATGGCACCGC CTATGCCGAA AAACGAAGAG 
    GTGAACACCG TTGAACAGGT GGAGGGCAAA GAAGAGGATG AGCTTGACGC CTATAGAGAC 
    CAGCGTGAGG TCGCTGTCAG AATTTCCCAT TACGTGGATA CGCTGCTTTT TATCATCAGT 
    AATCAGTTGA CAACAATCGA GAACTTGCAA TCTCAATTAG GTTTCAAAGA CGGTAGCGTA 
    GGTGGCAAAT CGAATAATCG CCCCAACCCG AATCGTCAAC TCGAAGAGCT TCGCAATCTA 
    CAGGACAAAC TGAGTCGCGA GCGAGCTGAA TTTCGCGCAT CCTCGCAGCA AGAGCGTGCC 
    CAGCTCGAGG AGGAGCGAGC TGAGCTCAAC AAGCTACGTA GTCAGCTGTC AGCGGATCAA 
    CGTGACCTCG ACAAGCAGCG CGATCAGCTG TATCGCAAAC TGGAGGCGCT GACGCGTCAA 
    GGAGTGTCGC TAACCACGGG TGCACCAGTG CCTGTGGTGA CGCACGGAAC TGGTGACGCT 
    AATCAGAGCT CGTCTTCATC ATCGTCGTCG ACATCGCGGA AAAAGTCGCA AACTGACGAG 
    AAGGGCATGA TTCCACAAAA TCTATTCAGT GCCACAAACC AGCAGAAGGT GCAACAACTG 
    CCCGTAAAGC AGCAACTGCC GCTTAAACTG GCCAGTGGTA GTAATAATAC CAACTCCAGG 
    AGCGGAAGCA TAGTAAGCAA CAACAGTCCG GACCGTCACT CGCGGACGGG TAGCAGTCCA 
    GCGATAGTAA CGAGCTCTTC GGCCCTATCA TCTCCTGAAC TTGGCACTAG CAGCAATCAC 
    CACAATAACG GTTCTAGCGC TCTAAGCCAC TTCTCGATGT CGAATCGCTC ATTGCGCTAT 
    ACGCGTATAC CCGAGCCTTA TCCTCGCAAA CATCACGTAC AACAACAGCA GCAGCAGCAG 
    CAGCAACAGC AGCAGCAACA GCAGCCACAG CGAGCCGAAC CGCAGCAACC GCTTGAGGAA 
    GAGGTACTGT TTTTGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_031782258.1
    CDS633..5210
    Translation

    Target ORF information:

    RefSeq Version XM_031926398.1
    Organism Nasonia vitripennis(jewel wasp)
    Definition Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_031926398.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGGAAAAGC GCAGGGAAGG ACTCGCGCCG TTTTCCTCCG ACGAATGTCC GAACAGCGGG 
    GAGGACAGCG ACGAGGATGT AATAACAGAC TACCTGGGCT CCGCGCAATC GGAGTGTTCA 
    CGCGTGTCTG TCGTTAACGG GGATCACCTC CCCGAGCAGC AGCATCAGTC CGACGCAGCA 
    GTCGCCGGCA ATTATACCAA AGACAGCACC GGTCATCATC AGCAGCAACA TCACCACCAT 
    CCAACGATCG TCATGTCCGA CACGCCGGAA GAGCAACAGC AGCACGGAGC TGGACACCCG 
    ACGGCGACCA GTCCCCTGGT GCCCATCATC AGCGTCACCC CTCACTCGCC TGGACTCGCC 
    GCCAAGCATT ACCCCGTTCT CGAGGAACCT CTGCGTCATC TGCACGAGAT CCACGACAAG 
    ATCAACCAGA TGCGCGACCT GACGCTGGCC CTGGCGAGCC GTACACAGCC GGGCGAGCAC 
    CTGCAGCGTT TCAGCACCTC CTGTCCGTCC CTCTGCCCGA TCATCTCGAT CGACGGCATC 
    GTCCAGTCGT CGTCGTCGGC CGTCGGAGGC CACCACCATC ACCACCACCA TCACCAGCAG 
    CAGCACAGCA GTCAGGAGCA GGATGGCTCG GACCCGGACC TCCTGACCAA CTGCTCGACC 
    AACAGCTCGC CTACGCACTT TCCCGGCACC ATCATGGTTG GCGGCGCTGC TGGACACGCC 
    TGCAGCCAGA TCCTCCAGGG AATCGACAGG CGGCGCAGCT GGACCGACCT CGAGGACTCC 
    AGGCAGCATC GGCGGGGCTC CGATCAGAAT CACCTGCAGG CCCAGAACAT CCGGCAGCGA 
    AGTATCAGCT TGAGCAGTCT CGATAGTGAC ATGGACCTGG AGTTGGATGG CAAATCTCGC 
    GCCAGAGATA CGAGCAACAA AACCCGCACT TCCGTGTCGC AGTCCAGTAC GCATTCGCTG 
    AACGAAGCCG ACTTTGTCCA TCAGAACGAG TTCAAGAAAG TGGTGGTCAA GCGTGGAGGT 
    CAGAGGCTAG GGGAGAACGT CAGCTTGATG CCCGGGGTGA CCGGATCGCG ATTGCCGCTC 
    CAGAAGTCCG TTTCGACACC ATCCATTGTC ATACCGCCGG GCCAGACTCA CCTCACGGAA 
    ACTGGGGCGC GCGTCGCTCC CTCTCTCTCC ACCAGTCGGC ATGAAAGACA CGAAAAGGGT 
    AGTGGAAGTG AGACAGAGAC GGACGATCTT CACATCCCTC ATGGTCATGA ATTTCACGAG 
    GACTTGATGA GAGAGGGCGC GCCGAATAAC CAAGCTTCCC TCGACGAACT CTTGACCGAC 
    ACAGCATATG ACGATCGACA TTCGGAGAAA ACAAAAAGAA AACGAGGTTC ATTATTTTCA 
    AGAAAGAAGA AGGATAAAAG TGGGAAGAAG CCAGCGCAAC AACATCAATG GGCAGCTATA 
    AACGTATCGT CACAGGGAAA CAACAGTTGT GATTTTTGTA TGAAGTCTTT TGCTAGTAAA 
    CCGACTTTAC ACTGCGAAAA TTGCGGCGCC ATAATTCACC AGGCGTGCAA AGACCATTAC 
    CAAGCAGAAT GCACGAAATC GAAGCCCTCA AGCAAATCTT CGTTCAAATC ACTGTCGAGC 
    GTCTCGATAT CGTCGACGAG CAGCATCGTG AAGCGTGGCT CCACGGCTTC GCTGCCGCTG 
    CCAGCGTCGA TCGGTACCGG AAGGGATAAT AACAACAAGA AAGCGGTGAC AAGCTACAGC 
    CCTTGGCGGC GAGTTGCCAC CAAGCTCGGA GTCAATCAAA CTATCAATGA GGAGAGAGAC 
    GGAGATGGAG GCTCTCATCG CGATATTTCC AGCGGCTTGG AGGAGTTCGA CTTCGACGAT 
    ACGCACCAGT TCAGCCTGGA CGAGTTCGAC GGTCAGCGTC CGGAGCTGGG CCTGGGTCGG 
    GAGGAGCCGG ACTCTTGGAG CGCCTGGATC GGTCGTAAGG TCGCTCTGCG ACTCGTCGAC 
    AACAACGAGC GCGAAGTCAA GCGGCAGGAG CACATCTACG AGTTCATCCT CACCGAGAAG 
    CACCACTGCC TCGTGCTGCT GGCCATGCAG CGGATCTTCG TCGAGGGCCT GCAGCGTCAT 
    TTCAATCTTA ACTCCTCGGT CCTCGACCGC ATGTTCCCCA AGCTCCAGAA CCTCATGGAC 
    ATCCACTTTG ACTTCTTGGC CAAGCTCAGG CATCGCCAGG CCGAGAACGC GGTTGTCACC 
    ACCATCGCCG ACATACTGAT AGACCAGTTT TCCGGCGAGA ACTCCTACAA TATGAAGAAT 
    GCCTACGGCG AGTTCTGCAG TCGGCACAGG GACGCGGTCG ACGTCTACAA GCAGCAGCAG 
    CAGATGGACA CGAGGTTCGC CAGATTCGTC AGGCACTGTC AGAACAACCC GTTGCTCAAA 
    AAGAAGGGCA TCCCCGAGTG CATACTCTTC GTCACCCAGA GGCTGACCAA GTATCCGCTG 
    CTGGTCGAGC CGCTGATCAA GACCGGGGTG ACCACCGAGG AGACTGACAA TCTGCGTAAA 
    GCCCTGAGTC TCGTTAAGGA GATACTCGGC GAAGTCGATG CCTGCGTCGC CGACAAAGAG 
    CGGACGGACA GGAAACTGGA TATTTATCAC AAAATCGATG CAAAGTCGTA CGCTTACTAT 
    CGCGGTAAAA AGTTCAAAAA GTCCGATATC TTGGCGTCGA ATCGCAACCT CAAATTTGAA 
    GGCACAGCCT GGCTGCTCCA GGGACGAAGC AAGACGGTAC CTGTAGTGGT GGTCTGCCTT 
    ACTGACGTGC TTTTCTTCCT GGCTGGCGAA CAGAAGTATG CGTTCTTCGT GCCTGACAAT 
    AAAGCGGGCG TCGTTTCGCT GCAGAAGCTG CTAGTACGCG AGAAGGCCGG CAACGAATCG 
    CGCGGCATCT ATCTCATCAG CAGCAATCCC AGCGAGCCCG AAATGTTCGA GCTCAAGGTC 
    AAGGATCCGC GAGACAAGCA TCTGTGGGTC AAAGCGATCA GAGCAGCGGT CGAATCGTGC 
    CCGCAAGAGC CCGACAGTGA AAACTGTAAT TTTACCGAGA ACAATATGGT TAACGAGATG 
    CGGGATGCGC GCTCGCTGTC TCTGTCGAAG ATGTCCCCCG AGGAGAAACT TAGACAAGCC 
    AAAGAAACAC ATTTGCAGAA TATAATTGAT GAACTTAAGA AGAAAGATGA GGAGCAAGCA 
    TCGCTGTTCG AACAGAAGAT GTATTTACAT ATGAGATTAC ACGACGCGAT AAGTATGCGC 
    GGTAGTAACG AAAACGACGT GGATAAAATA GACAAAGATT ACAAGGAAGT ACCTGACTAT 
    TTAAGGTACA TCGGAGGTGA AGGAATCAAT TTGACAAAGA TGTACCAAGA GGCGCGCGAA 
    GCTGTTCAGG AGGCAATGCG ATTGGTCAAT TCCTTGTCTT ATGGCGCAGG CGGTGGAACT 
    TTGTCAAGAA GTTTAAGTTC AGCAGGTGAA AGACACAGCG ATGCTTACGT GCCACCGTCG 
    CTCGCTGTTC CCAGGAGAGC AGAGACCTTT GCTGGCTTTG ATCACAACAA AGAACGCTAT 
    CCGTGGCGAG ATTCAGTTGC ATTGAATAAC ATGGCACCGC CTATGCCGAA AAACGAAGAG 
    GTGAACACCG TTGAACAGGT GGAGGGCAAA GAAGAGGATG AGCTTGACGC CTATAGAGAC 
    CAGCGTGAGG TCGCTGTCAG AATTTCCCAT TACGTGGATA CGCTGCTTTT TATCATCAGT 
    AATCAGTTGA CAACAATCGA GAACTTGCAA TCTCAATTAG GTTTCAAAGA CGGTAGCGTA 
    GGTGGCAAAT CGAATAATCG CCCCAACCCG AATCGTCAAC TCGAAGAGCT TCGCAATCTA 
    CAGGACAAAC TGAGTCGCGA GCGAGCTGAA TTTCGCGCAT CCTCGCAGCA AGAGCGTGCC 
    CAGCTCGAGG AGGAGCGAGC TGAGCTCAAC AAGCTACGTA GTCAGCTGTC AGCGGATCAA 
    CGTGACCTCG ACAAGCAGCG CGATCAGCTG TATCGCAAAC TGGAGGCGCT GACGCGTCAA 
    GGAGTGTCGC TAACCACGGG TGCACCAGTG CCTGTGGTGA CGCACGGAAC TGGTGACGCT 
    AATCAGAGCT CGTCTTCATC ATCGTCGTCG ACATCGCGGA AAAAGTCGCA AACTGACGAG 
    AAGGGCATGA TTCCACAAAA TCTATTCAGT GCCACAAACC AGCAGAAGGT GCAACAACTG 
    CCCGTAAAGC AGCAACTGCC GCTTAAACTG GCCAGTGGTA GTAATAATAC CAACTCCAGG 
    AGCGGAAGCA TAGTAAGCAA CAACAGTCCG GACCGTCACT CGCGGACGGG TAGCAGTCCA 
    GCGATAGTAA CGAGCTCTTC GGCCCTATCA TCTCCTGAAC TTGGCACTAG CAGCAATCAC 
    CACAATAACG GTTCTAGCGC TCTAAGCCAC TTCTCGATGT CGAATCGCTC ATTGCGCTAT 
    ACGCGTATAC CCGAGCCTTA TCCTCGCAAA CATCACGTAC AACAACAGCA GCAGCAGCAG 
    CAGCAACAGC AGCAGCAACA GCAGCCACAG CGAGCCGAAC CGCAGCAACC GCTTGAGGAA 
    GAGGTACTGT TTTTGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    LOC100121921 ( XM_008205666.2 ) cDNA ORF clone, Nasonia vitripennis(jewel wasp) -> XP_008203888.1 Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID ONd06479
    Clone ID Related Accession (Same CDS sequence) XM_008205666.2 , XM_008205667.2 , XM_003425691.3 , XM_003425692.3 , XM_008205668.2 , XM_003425692.4
    Accession Version XM_008205666.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4509bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-05-25
    Organism Nasonia vitripennis(jewel wasp)
    Product rho guanine nucleotide exchange factor 28 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_015869.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On May 26, 2016 this sequence version replaced XM_008205666.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nasonia vitripennis Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGAAAAGC GCAGGGAAGG ACTCGCGCCG TTTTCCTCCG ACGAATGTCC GAACAGCGGG 
    GAGGACAGCG ACGAGGATGT AATAACAGAC TACCTGGGCT CCGCGCAATC GGAGTGTTCA 
    CGCGTGTCTG TCGTTAACGG GGATCACCTC CCCGAGCAGC AGCATCAGTC CGACGCAGCA 
    GTCGCCGGCA ATTATACCAA AGACAGCACC GGTCATCATC AGCAGCAACA TCACCACCAT 
    CCAACGATCG TCATGTCCGA CACGCCGGAA GAGCAACAGC AGCACGGAGC TGGACACCCG 
    ACGGCGACCA GTCCCCTGGT GCCCATCATC AGCGTCACCC CTCACTCGCC TGGACTCGCC 
    GCCAAGCATT ACCCCGTTCT CGAGGAACCT CTGCGTCATC TGCACGAGAT CCACGACAAG 
    ATCAACCAGA TGCGCGACCT GACGCTGGCC CTGGCGAGCC GTACACAGCC GGGCGAGCAC 
    CTGCAGCGTT TCAGCACCTC CTGTCCGTCC CTCTGCCCGA TCATCTCGAT CGACGGCATC 
    GTCCAGTCGT CGTCGTCGGC CGTCGGAGGC CACCACCATC ACCACCACCA TCACCAGCAG 
    CAGCACAGCA GTCAGGAGCA GGATGGCTCG GACCCGGACC TCCTGACCAA CTGCTCGACC 
    AACAGCTCGC CTACGCACTT TCCCGGCACC ATCATGGTTG GCGGCGCTGC TGGACACGCC 
    TGCAGCCAGA TCCTCCAGGG AATCGACAGG CGGCGCAGCT GGACCGACCT CGAGGACTCC 
    AGGCAGCATC GGCGGGGCTC CGATCAGAAT CACCTGCAGG CCCAGAACAT CCGGCAGCGA 
    AGTATCAGCT TGAGCAGTCT CGATAGTGAC ATGGACCTGG AGTTGGATGG CAAATCTCGC 
    GCCAGAGATA CGAGCAACAA AACCCGCACT TCCGTGTCGC AGTCCAGTAC GCATTCGCTG 
    AACGAAGCCG ACTTTGTCCA TCAGAACGAG TTCAAGAAAG TGGTGGTCAA GCGTGGAGGT 
    CAGAGGCTAG GGGAGAACGT CAGCTTGATG CCCGGGGTGA CCGGATCGCG ATTGCCGCTC 
    CAGAAGTCCG TTTCGACACC ATCCATTGTC ATACCGCCGG GCCAGACTCA CCTCACGGAA 
    ACTGGGGCGC GCGTCGCTCC CTCTCTCTCC ACCAGTCGGC ATGAAAGACA CGAAAAGGGT 
    AGTGGAAGTG AGACAGAGAC GGACGATCTT CACATCCCTC ATGGTCATGA ATTTCACGAG 
    GACTTGATGA GAGAGGGCGC GCCGAATAAC CAAGCTTCCC TCGACGAACT CTTGACCGAC 
    ACAGCATATG ACGATCGACA TTCGGAGAAA ACAAAAAGAA AACGAGGTTC ATTATTTTCA 
    AGAAAGAAGA AGGATAAAAG TGGGAAGAAG CCAGCGCAAC AACATCAATG GGCAGCTATA 
    AACGTATCGT CACAGGGAAA CAACAGTTGT GATTTTTGTA TGAAGTCTTT TGCTAGTAAA 
    CCGACTTTAC ACTGCGAAAA TTGCGGCGCC ATAATTCACC AGGCGTGCAA AGACCATTAC 
    CAAGCAGAAT GCACGAAATC GAAGCCCTCA AGCAAATCTT CGTTCAAATC ACTGTCGAGC 
    GTCTCGATAT CGTCGACGAG CAGCATCGTG AAGCGTGGCT CCACGGCTTC GCTGCCGCTG 
    CCAGCGTCGA TCGGTACCGG AAGTCAAACT ATCAATGAGG AGAGAGACGG AGATGGAGGC 
    TCTCATCGCG ATATTTCCAG CGGCTTGGAG GAGTTCGACT TCGACGATAC GCACCAGTTC 
    AGCCTGGACG AGTTCGACGG TCAGCGTCCG GAGCTGGGCC TGGGTCGGGA GGAGCCGGAC 
    TCTTGGAGCG CCTGGATCGG TCGTAAGGTC GCTCTGCGAC TCGTCGACAA CAACGAGCGC 
    GAAGTCAAGC GGCAGGAGCA CATCTACGAG TTCATCCTCA CCGAGAAGCA CCACTGCCTC 
    GTGCTGCTGG CCATGCAGCG GATCTTCGTC GAGGGCCTGC AGCGTCATTT CAATCTTAAC 
    TCCTCGGTCC TCGACCGCAT GTTCCCCAAG CTCCAGAACC TCATGGACAT CCACTTTGAC 
    TTCTTGGCCA AGCTCAGGCA TCGCCAGGCC GAGAACGCGG TTGTCACCAC CATCGCCGAC 
    ATACTGATAG ACCAGTTTTC CGGCGAGAAC TCCTACAATA TGAAGAATGC CTACGGCGAG 
    TTCTGCAGTC GGCACAGGGA CGCGGTCGAC GTCTACAAGC AGCAGCAGCA GATGGACACG 
    AGGTTCGCCA GATTCGTCAG GCACTGTCAG AACAACCCGT TGCTCAAAAA GAAGGGCATC 
    CCCGAGTGCA TACTCTTCGT CACCCAGAGG CTGACCAAGT ATCCGCTGCT GGTCGAGCCG 
    CTGATCAAGA CCGGGGTGAC CACCGAGGAG ACTGACAATC TGCGTAAAGC CCTGAGTCTC 
    GTTAAGGAGA TACTCGGCGA AGTCGATGCC TGCGTCGCCG ACAAAGAGCG GACGGACAGG 
    AAACTGGATA TTTATCACAA AATCGATGCA AAGTCGTACG CTTACTATCG CGGTAAAAAG 
    TTCAAAAAGT CCGATATCTT GGCGTCGAAT CGCAACCTCA AATTTGAAGG CACAGCCTGG 
    CTGCTCCAGG GACGAAGCAA GACGGTACCT GTAGTGGTGG TCTGCCTTAC TGACGTGCTT 
    TTCTTCCTGG CTGGCGAACA GAAGTATGCG TTCTTCGTGC CTGACAATAA AGCGGGCGTC 
    GTTTCGCTGC AGAAGCTGCT AGTACGCGAG AAGGCCGGCA ACGAATCGCG CGGCATCTAT 
    CTCATCAGCA GCAATCCCAG CGAGCCCGAA ATGTTCGAGC TCAAGGTCAA GGATCCGCGA 
    GACAAGCATC TGTGGGTCAA AGCGATCAGA GCAGCGGTCG AATCGTGCCC GCAAGAGCCC 
    GACAGTGAAA ACTGTAATTT TACCGAGAAC AATATGGTTA ACGAGATGCG GGATGCGCGC 
    TCGCTGTCTC TGTCGAAGAT GTCCCCCGAG GAGAAACTTA GACAAGCCAA AGAAACACAT 
    TTGCAGAATA TAATTGATGA ACTTAAGAAG AAAGATGAGG AGCAAGCATC GCTGTTCGAA 
    CAGAAGATGT ATTTACATAT GAGATTACAC GACGCGATAA GTATGCGCGG TAGTAACGAA 
    AACGACGTGG ATAAAATAGA CAAAGATTAC AAGGAAGTAC CTGACTATTT AAGGTACATC 
    GGAGGTGAAG GAATCAATTT GACAAAGATG TACCAAGAGG CGCGCGAAGC TGTTCAGGAG 
    GCAATGCGAT TGGTCAATTC CTTGTCTTAT GGCGCAGGCG GTGGAACTTT GTCAAGAAGT 
    TTAAGTTCAG CAGGTGAAAG ACACAGCGAT GCTTACGTGC CACCGTCGCT CGCTGTTCCC 
    AGGAGAGCAG AGACCTTTGC TGGCTTTGAT CACAACAAAG AACGCTATCC GTGGCGAGAT 
    TCAGTTGCAT TGAATAACAT GGCACCGCCT ATGCCGAAAA ACGAAGAGGT GAACACCGTT 
    GAACAGGTGG AGGGCAAAGA AGAGGATGAG CTTGACGCCT ATAGAGACCA GCGTGAGGTC 
    GCTGTCAGAA TTTCCCATTA CGTGGATACG CTGCTTTTTA TCATCAGTAA TCAGTTGACA 
    ACAATCGAGA ACTTGCAATC TCAATTAGCA GGTTTCAAAG ACGGTAGCGT AGGTGGCAAA 
    TCGAATAATC GCCCCAACCC GAATCGTCAA CTCGAAGAGC TTCGCAATCT ACAGGACAAA 
    CTGAGTCGCG AGCGAGCTGA ATTTCGCGCA TCCTCGCAGC AAGAGCGTGC CCAGCTCGAG 
    GAGGAGCGAG CTGAGCTCAA CAAGCTACGT AGTCAGCTGT CAGCGGATCA ACGTGACCTC 
    GACAAGCAGC GCGATCAGCT GTATCGCAAA CTGGAGGCGC TGACGCGTCA AGGAGTGTCG 
    CTAACCACGG GTGCACCAGT GCCTGTGGTG ACGCACGGAA CTGGTGACGC TAATCAGAGC 
    TCGTCTTCAT CATCGTCGTC GACATCGCGG AAAAAGTCGC AAACTGACGA GAAGGGCATG 
    ATTCCACAAA ATCTATTCAG TGCCACAAAC CAGCAGAAGG TGCAACAACT GCCCGTAAAG 
    CAGCAACTGC CGCTTAAACT GGCCAGTGGT AGTAATAATA CCAACTCCAG GAGCGGAAGC 
    ATAGTAAGCA ACAACAGTCC GGACCGTCAC TCGCGGACGG GTAGCAGTCC AGCGATAGTA 
    ACGAGCTCTT CGGCCCTATC ATCTCCTGAA CTTGGCACTA GCAGCAATCA CCACAATAAC 
    GGTTCTAGCG CTCTAAGCCA CTTCTCGATG TCGAATCGCT CATTGCGCTA TACGCGTATA 
    CCCGAGCCTT ATCCTCGCAA ACATCACGTA CAACAACAGC AGCAGCAGCA GCAGCAACAG 
    CAGCAGCAAC AGCAGCCACA GCGAGCCGAA CCGCAGCAAC CGCTTGAGGA AGAGGTACTG 
    TTTTTGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_008203888.1
    CDS195..4703
    Translation

    Target ORF information:

    RefSeq Version XM_008205666.2
    Organism Nasonia vitripennis(jewel wasp)
    Definition Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008205666.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGAAAAGC GCAGGGAAGG ACTCGCGCCG TTTTCCTCCG ACGAATGTCC GAACAGCGGG 
    GAGGACAGCG ACGAGGATGT AATAACAGAC TACCTGGGCT CCGCGCAATC GGAGTGTTCA 
    CGCGTGTCTG TCGTTAACGG GGATCACCTC CCCGAGCAGC AGCATCAGTC CGACGCAGCA 
    GTCGCCGGCA ATTATACCAA AGACAGCACC GGTCATCATC AGCAGCAACA TCACCACCAT 
    CCAACGATCG TCATGTCCGA CACGCCGGAA GAGCAACAGC AGCACGGAGC TGGACACCCG 
    ACGGCGACCA GTCCCCTGGT GCCCATCATC AGCGTCACCC CTCACTCGCC TGGACTCGCC 
    GCCAAGCATT ACCCCGTTCT CGAGGAACCT CTGCGTCATC TGCACGAGAT CCACGACAAG 
    ATCAACCAGA TGCGCGACCT GACGCTGGCC CTGGCGAGCC GTACACAGCC GGGCGAGCAC 
    CTGCAGCGTT TCAGCACCTC CTGTCCGTCC CTCTGCCCGA TCATCTCGAT CGACGGCATC 
    GTCCAGTCGT CGTCGTCGGC CGTCGGAGGC CACCACCATC ACCACCACCA TCACCAGCAG 
    CAGCACAGCA GTCAGGAGCA GGATGGCTCG GACCCGGACC TCCTGACCAA CTGCTCGACC 
    AACAGCTCGC CTACGCACTT TCCCGGCACC ATCATGGTTG GCGGCGCTGC TGGACACGCC 
    TGCAGCCAGA TCCTCCAGGG AATCGACAGG CGGCGCAGCT GGACCGACCT CGAGGACTCC 
    AGGCAGCATC GGCGGGGCTC CGATCAGAAT CACCTGCAGG CCCAGAACAT CCGGCAGCGA 
    AGTATCAGCT TGAGCAGTCT CGATAGTGAC ATGGACCTGG AGTTGGATGG CAAATCTCGC 
    GCCAGAGATA CGAGCAACAA AACCCGCACT TCCGTGTCGC AGTCCAGTAC GCATTCGCTG 
    AACGAAGCCG ACTTTGTCCA TCAGAACGAG TTCAAGAAAG TGGTGGTCAA GCGTGGAGGT 
    CAGAGGCTAG GGGAGAACGT CAGCTTGATG CCCGGGGTGA CCGGATCGCG ATTGCCGCTC 
    CAGAAGTCCG TTTCGACACC ATCCATTGTC ATACCGCCGG GCCAGACTCA CCTCACGGAA 
    ACTGGGGCGC GCGTCGCTCC CTCTCTCTCC ACCAGTCGGC ATGAAAGACA CGAAAAGGGT 
    AGTGGAAGTG AGACAGAGAC GGACGATCTT CACATCCCTC ATGGTCATGA ATTTCACGAG 
    GACTTGATGA GAGAGGGCGC GCCGAATAAC CAAGCTTCCC TCGACGAACT CTTGACCGAC 
    ACAGCATATG ACGATCGACA TTCGGAGAAA ACAAAAAGAA AACGAGGTTC ATTATTTTCA 
    AGAAAGAAGA AGGATAAAAG TGGGAAGAAG CCAGCGCAAC AACATCAATG GGCAGCTATA 
    AACGTATCGT CACAGGGAAA CAACAGTTGT GATTTTTGTA TGAAGTCTTT TGCTAGTAAA 
    CCGACTTTAC ACTGCGAAAA TTGCGGCGCC ATAATTCACC AGGCGTGCAA AGACCATTAC 
    CAAGCAGAAT GCACGAAATC GAAGCCCTCA AGCAAATCTT CGTTCAAATC ACTGTCGAGC 
    GTCTCGATAT CGTCGACGAG CAGCATCGTG AAGCGTGGCT CCACGGCTTC GCTGCCGCTG 
    CCAGCGTCGA TCGGTACCGG AAGTCAAACT ATCAATGAGG AGAGAGACGG AGATGGAGGC 
    TCTCATCGCG ATATTTCCAG CGGCTTGGAG GAGTTCGACT TCGACGATAC GCACCAGTTC 
    AGCCTGGACG AGTTCGACGG TCAGCGTCCG GAGCTGGGCC TGGGTCGGGA GGAGCCGGAC 
    TCTTGGAGCG CCTGGATCGG TCGTAAGGTC GCTCTGCGAC TCGTCGACAA CAACGAGCGC 
    GAAGTCAAGC GGCAGGAGCA CATCTACGAG TTCATCCTCA CCGAGAAGCA CCACTGCCTC 
    GTGCTGCTGG CCATGCAGCG GATCTTCGTC GAGGGCCTGC AGCGTCATTT CAATCTTAAC 
    TCCTCGGTCC TCGACCGCAT GTTCCCCAAG CTCCAGAACC TCATGGACAT CCACTTTGAC 
    TTCTTGGCCA AGCTCAGGCA TCGCCAGGCC GAGAACGCGG TTGTCACCAC CATCGCCGAC 
    ATACTGATAG ACCAGTTTTC CGGCGAGAAC TCCTACAATA TGAAGAATGC CTACGGCGAG 
    TTCTGCAGTC GGCACAGGGA CGCGGTCGAC GTCTACAAGC AGCAGCAGCA GATGGACACG 
    AGGTTCGCCA GATTCGTCAG GCACTGTCAG AACAACCCGT TGCTCAAAAA GAAGGGCATC 
    CCCGAGTGCA TACTCTTCGT CACCCAGAGG CTGACCAAGT ATCCGCTGCT GGTCGAGCCG 
    CTGATCAAGA CCGGGGTGAC CACCGAGGAG ACTGACAATC TGCGTAAAGC CCTGAGTCTC 
    GTTAAGGAGA TACTCGGCGA AGTCGATGCC TGCGTCGCCG ACAAAGAGCG GACGGACAGG 
    AAACTGGATA TTTATCACAA AATCGATGCA AAGTCGTACG CTTACTATCG CGGTAAAAAG 
    TTCAAAAAGT CCGATATCTT GGCGTCGAAT CGCAACCTCA AATTTGAAGG CACAGCCTGG 
    CTGCTCCAGG GACGAAGCAA GACGGTACCT GTAGTGGTGG TCTGCCTTAC TGACGTGCTT 
    TTCTTCCTGG CTGGCGAACA GAAGTATGCG TTCTTCGTGC CTGACAATAA AGCGGGCGTC 
    GTTTCGCTGC AGAAGCTGCT AGTACGCGAG AAGGCCGGCA ACGAATCGCG CGGCATCTAT 
    CTCATCAGCA GCAATCCCAG CGAGCCCGAA ATGTTCGAGC TCAAGGTCAA GGATCCGCGA 
    GACAAGCATC TGTGGGTCAA AGCGATCAGA GCAGCGGTCG AATCGTGCCC GCAAGAGCCC 
    GACAGTGAAA ACTGTAATTT TACCGAGAAC AATATGGTTA ACGAGATGCG GGATGCGCGC 
    TCGCTGTCTC TGTCGAAGAT GTCCCCCGAG GAGAAACTTA GACAAGCCAA AGAAACACAT 
    TTGCAGAATA TAATTGATGA ACTTAAGAAG AAAGATGAGG AGCAAGCATC GCTGTTCGAA 
    CAGAAGATGT ATTTACATAT GAGATTACAC GACGCGATAA GTATGCGCGG TAGTAACGAA 
    AACGACGTGG ATAAAATAGA CAAAGATTAC AAGGAAGTAC CTGACTATTT AAGGTACATC 
    GGAGGTGAAG GAATCAATTT GACAAAGATG TACCAAGAGG CGCGCGAAGC TGTTCAGGAG 
    GCAATGCGAT TGGTCAATTC CTTGTCTTAT GGCGCAGGCG GTGGAACTTT GTCAAGAAGT 
    TTAAGTTCAG CAGGTGAAAG ACACAGCGAT GCTTACGTGC CACCGTCGCT CGCTGTTCCC 
    AGGAGAGCAG AGACCTTTGC TGGCTTTGAT CACAACAAAG AACGCTATCC GTGGCGAGAT 
    TCAGTTGCAT TGAATAACAT GGCACCGCCT ATGCCGAAAA ACGAAGAGGT GAACACCGTT 
    GAACAGGTGG AGGGCAAAGA AGAGGATGAG CTTGACGCCT ATAGAGACCA GCGTGAGGTC 
    GCTGTCAGAA TTTCCCATTA CGTGGATACG CTGCTTTTTA TCATCAGTAA TCAGTTGACA 
    ACAATCGAGA ACTTGCAATC TCAATTAGCA GGTTTCAAAG ACGGTAGCGT AGGTGGCAAA 
    TCGAATAATC GCCCCAACCC GAATCGTCAA CTCGAAGAGC TTCGCAATCT ACAGGACAAA 
    CTGAGTCGCG AGCGAGCTGA ATTTCGCGCA TCCTCGCAGC AAGAGCGTGC CCAGCTCGAG 
    GAGGAGCGAG CTGAGCTCAA CAAGCTACGT AGTCAGCTGT CAGCGGATCA ACGTGACCTC 
    GACAAGCAGC GCGATCAGCT GTATCGCAAA CTGGAGGCGC TGACGCGTCA AGGAGTGTCG 
    CTAACCACGG GTGCACCAGT GCCTGTGGTG ACGCACGGAA CTGGTGACGC TAATCAGAGC 
    TCGTCTTCAT CATCGTCGTC GACATCGCGG AAAAAGTCGC AAACTGACGA GAAGGGCATG 
    ATTCCACAAA ATCTATTCAG TGCCACAAAC CAGCAGAAGG TGCAACAACT GCCCGTAAAG 
    CAGCAACTGC CGCTTAAACT GGCCAGTGGT AGTAATAATA CCAACTCCAG GAGCGGAAGC 
    ATAGTAAGCA ACAACAGTCC GGACCGTCAC TCGCGGACGG GTAGCAGTCC AGCGATAGTA 
    ACGAGCTCTT CGGCCCTATC ATCTCCTGAA CTTGGCACTA GCAGCAATCA CCACAATAAC 
    GGTTCTAGCG CTCTAAGCCA CTTCTCGATG TCGAATCGCT CATTGCGCTA TACGCGTATA 
    CCCGAGCCTT ATCCTCGCAA ACATCACGTA CAACAACAGC AGCAGCAGCA GCAGCAACAG 
    CAGCAGCAAC AGCAGCCACA GCGAGCCGAA CCGCAGCAAC CGCTTGAGGA AGAGGTACTG 
    TTTTTGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    LOC100121921 ( XM_008205667.2 ) cDNA ORF clone, Nasonia vitripennis(jewel wasp) -> XP_008203889.1 Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID ONd06479
    Clone ID Related Accession (Same CDS sequence) XM_008205666.2 , XM_008205667.2 , XM_003425691.3 , XM_003425692.3 , XM_008205668.2 , XM_003425692.4
    Accession Version XM_008205667.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4509bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-05-25
    Organism Nasonia vitripennis(jewel wasp)
    Product rho guanine nucleotide exchange factor 28 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_015869.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On May 26, 2016 this sequence version replaced XM_008205667.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nasonia vitripennis Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGAAAAGC GCAGGGAAGG ACTCGCGCCG TTTTCCTCCG ACGAATGTCC GAACAGCGGG 
    GAGGACAGCG ACGAGGATGT AATAACAGAC TACCTGGGCT CCGCGCAATC GGAGTGTTCA 
    CGCGTGTCTG TCGTTAACGG GGATCACCTC CCCGAGCAGC AGCATCAGTC CGACGCAGCA 
    GTCGCCGGCA ATTATACCAA AGACAGCACC GGTCATCATC AGCAGCAACA TCACCACCAT 
    CCAACGATCG TCATGTCCGA CACGCCGGAA GAGCAACAGC AGCACGGAGC TGGACACCCG 
    ACGGCGACCA GTCCCCTGGT GCCCATCATC AGCGTCACCC CTCACTCGCC TGGACTCGCC 
    GCCAAGCATT ACCCCGTTCT CGAGGAACCT CTGCGTCATC TGCACGAGAT CCACGACAAG 
    ATCAACCAGA TGCGCGACCT GACGCTGGCC CTGGCGAGCC GTACACAGCC GGGCGAGCAC 
    CTGCAGCGTT TCAGCACCTC CTGTCCGTCC CTCTGCCCGA TCATCTCGAT CGACGGCATC 
    GTCCAGTCGT CGTCGTCGGC CGTCGGAGGC CACCACCATC ACCACCACCA TCACCAGCAG 
    CAGCACAGCA GTCAGGAGCA GGATGGCTCG GACCCGGACC TCCTGACCAA CTGCTCGACC 
    AACAGCTCGC CTACGCACTT TCCCGGCACC ATCATGGTTG GCGGCGCTGC TGGACACGCC 
    TGCAGCCAGA TCCTCCAGGG AATCGACAGG CGGCGCAGCT GGACCGACCT CGAGGACTCC 
    AGGCAGCATC GGCGGGGCTC CGATCAGAAT CACCTGCAGG CCCAGAACAT CCGGCAGCGA 
    AGTATCAGCT TGAGCAGTCT CGATAGTGAC ATGGACCTGG AGTTGGATGG CAAATCTCGC 
    GCCAGAGATA CGAGCAACAA AACCCGCACT TCCGTGTCGC AGTCCAGTAC GCATTCGCTG 
    AACGAAGCCG ACTTTGTCCA TCAGAACGAG TTCAAGAAAG TGGTGGTCAA GCGTGGAGGT 
    CAGAGGCTAG GGGAGAACGT CAGCTTGATG CCCGGGGTGA CCGGATCGCG ATTGCCGCTC 
    CAGAAGTCCG TTTCGACACC ATCCATTGTC ATACCGCCGG GCCAGACTCA CCTCACGGAA 
    ACTGGGGCGC GCGTCGCTCC CTCTCTCTCC ACCAGTCGGC ATGAAAGACA CGAAAAGGGT 
    AGTGGAAGTG AGACAGAGAC GGACGATCTT CACATCCCTC ATGGTCATGA ATTTCACGAG 
    GACTTGATGA GAGAGGGCGC GCCGAATAAC CAAGCTTCCC TCGACGAACT CTTGACCGAC 
    ACAGCATATG ACGATCGACA TTCGGAGAAA ACAAAAAGAA AACGAGGTTC ATTATTTTCA 
    AGAAAGAAGA AGGATAAAAG TGGGAAGAAG CCAGCGCAAC AACATCAATG GGCAGCTATA 
    AACGTATCGT CACAGGGAAA CAACAGTTGT GATTTTTGTA TGAAGTCTTT TGCTAGTAAA 
    CCGACTTTAC ACTGCGAAAA TTGCGGCGCC ATAATTCACC AGGCGTGCAA AGACCATTAC 
    CAAGCAGAAT GCACGAAATC GAAGCCCTCA AGCAAATCTT CGTTCAAATC ACTGTCGAGC 
    GTCTCGATAT CGTCGACGAG CAGCATCGTG AAGCGTGGCT CCACGGCTTC GCTGCCGCTG 
    CCAGCGTCGA TCGGTACCGG AAGTCAAACT ATCAATGAGG AGAGAGACGG AGATGGAGGC 
    TCTCATCGCG ATATTTCCAG CGGCTTGGAG GAGTTCGACT TCGACGATAC GCACCAGTTC 
    AGCCTGGACG AGTTCGACGG TCAGCGTCCG GAGCTGGGCC TGGGTCGGGA GGAGCCGGAC 
    TCTTGGAGCG CCTGGATCGG TCGTAAGGTC GCTCTGCGAC TCGTCGACAA CAACGAGCGC 
    GAAGTCAAGC GGCAGGAGCA CATCTACGAG TTCATCCTCA CCGAGAAGCA CCACTGCCTC 
    GTGCTGCTGG CCATGCAGCG GATCTTCGTC GAGGGCCTGC AGCGTCATTT CAATCTTAAC 
    TCCTCGGTCC TCGACCGCAT GTTCCCCAAG CTCCAGAACC TCATGGACAT CCACTTTGAC 
    TTCTTGGCCA AGCTCAGGCA TCGCCAGGCC GAGAACGCGG TTGTCACCAC CATCGCCGAC 
    ATACTGATAG ACCAGTTTTC CGGCGAGAAC TCCTACAATA TGAAGAATGC CTACGGCGAG 
    TTCTGCAGTC GGCACAGGGA CGCGGTCGAC GTCTACAAGC AGCAGCAGCA GATGGACACG 
    AGGTTCGCCA GATTCGTCAG GCACTGTCAG AACAACCCGT TGCTCAAAAA GAAGGGCATC 
    CCCGAGTGCA TACTCTTCGT CACCCAGAGG CTGACCAAGT ATCCGCTGCT GGTCGAGCCG 
    CTGATCAAGA CCGGGGTGAC CACCGAGGAG ACTGACAATC TGCGTAAAGC CCTGAGTCTC 
    GTTAAGGAGA TACTCGGCGA AGTCGATGCC TGCGTCGCCG ACAAAGAGCG GACGGACAGG 
    AAACTGGATA TTTATCACAA AATCGATGCA AAGTCGTACG CTTACTATCG CGGTAAAAAG 
    TTCAAAAAGT CCGATATCTT GGCGTCGAAT CGCAACCTCA AATTTGAAGG CACAGCCTGG 
    CTGCTCCAGG GACGAAGCAA GACGGTACCT GTAGTGGTGG TCTGCCTTAC TGACGTGCTT 
    TTCTTCCTGG CTGGCGAACA GAAGTATGCG TTCTTCGTGC CTGACAATAA AGCGGGCGTC 
    GTTTCGCTGC AGAAGCTGCT AGTACGCGAG AAGGCCGGCA ACGAATCGCG CGGCATCTAT 
    CTCATCAGCA GCAATCCCAG CGAGCCCGAA ATGTTCGAGC TCAAGGTCAA GGATCCGCGA 
    GACAAGCATC TGTGGGTCAA AGCGATCAGA GCAGCGGTCG AATCGTGCCC GCAAGAGCCC 
    GACAGTGAAA ACTGTAATTT TACCGAGAAC AATATGGTTA ACGAGATGCG GGATGCGCGC 
    TCGCTGTCTC TGTCGAAGAT GTCCCCCGAG GAGAAACTTA GACAAGCCAA AGAAACACAT 
    TTGCAGAATA TAATTGATGA ACTTAAGAAG AAAGATGAGG AGCAAGCATC GCTGTTCGAA 
    CAGAAGATGT ATTTACATAT GAGATTACAC GACGCGATAA GTATGCGCGG TAGTAACGAA 
    AACGACGTGG ATAAAATAGA CAAAGATTAC AAGGAAGTAC CTGACTATTT AAGGTACATC 
    GGAGGTGAAG GAATCAATTT GACAAAGATG TACCAAGAGG CGCGCGAAGC TGTTCAGGAG 
    GCAATGCGAT TGGTCAATTC CTTGTCTTAT GGCGCAGGCG GTGGAACTTT GTCAAGAAGT 
    TTAAGTTCAG CAGGTGAAAG ACACAGCGAT GCTTACGTGC CACCGTCGCT CGCTGTTCCC 
    AGGAGAGCAG AGACCTTTGC TGGCTTTGAT CACAACAAAG AACGCTATCC GTGGCGAGAT 
    TCAGTTGCAT TGAATAACAT GGCACCGCCT ATGCCGAAAA ACGAAGAGGT GAACACCGTT 
    GAACAGGTGG AGGGCAAAGA AGAGGATGAG CTTGACGCCT ATAGAGACCA GCGTGAGGTC 
    GCTGTCAGAA TTTCCCATTA CGTGGATACG CTGCTTTTTA TCATCAGTAA TCAGTTGACA 
    ACAATCGAGA ACTTGCAATC TCAATTAGCA GGTTTCAAAG ACGGTAGCGT AGGTGGCAAA 
    TCGAATAATC GCCCCAACCC GAATCGTCAA CTCGAAGAGC TTCGCAATCT ACAGGACAAA 
    CTGAGTCGCG AGCGAGCTGA ATTTCGCGCA TCCTCGCAGC AAGAGCGTGC CCAGCTCGAG 
    GAGGAGCGAG CTGAGCTCAA CAAGCTACGT AGTCAGCTGT CAGCGGATCA ACGTGACCTC 
    GACAAGCAGC GCGATCAGCT GTATCGCAAA CTGGAGGCGC TGACGCGTCA AGGAGTGTCG 
    CTAACCACGG GTGCACCAGT GCCTGTGGTG ACGCACGGAA CTGGTGACGC TAATCAGAGC 
    TCGTCTTCAT CATCGTCGTC GACATCGCGG AAAAAGTCGC AAACTGACGA GAAGGGCATG 
    ATTCCACAAA ATCTATTCAG TGCCACAAAC CAGCAGAAGG TGCAACAACT GCCCGTAAAG 
    CAGCAACTGC CGCTTAAACT GGCCAGTGGT AGTAATAATA CCAACTCCAG GAGCGGAAGC 
    ATAGTAAGCA ACAACAGTCC GGACCGTCAC TCGCGGACGG GTAGCAGTCC AGCGATAGTA 
    ACGAGCTCTT CGGCCCTATC ATCTCCTGAA CTTGGCACTA GCAGCAATCA CCACAATAAC 
    GGTTCTAGCG CTCTAAGCCA CTTCTCGATG TCGAATCGCT CATTGCGCTA TACGCGTATA 
    CCCGAGCCTT ATCCTCGCAA ACATCACGTA CAACAACAGC AGCAGCAGCA GCAGCAACAG 
    CAGCAGCAAC AGCAGCCACA GCGAGCCGAA CCGCAGCAAC CGCTTGAGGA AGAGGTACTG 
    TTTTTGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_008203889.1
    CDS174..4682
    Translation

    Target ORF information:

    RefSeq Version XM_008205667.2
    Organism Nasonia vitripennis(jewel wasp)
    Definition Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008205667.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGAAAAGC GCAGGGAAGG ACTCGCGCCG TTTTCCTCCG ACGAATGTCC GAACAGCGGG 
    GAGGACAGCG ACGAGGATGT AATAACAGAC TACCTGGGCT CCGCGCAATC GGAGTGTTCA 
    CGCGTGTCTG TCGTTAACGG GGATCACCTC CCCGAGCAGC AGCATCAGTC CGACGCAGCA 
    GTCGCCGGCA ATTATACCAA AGACAGCACC GGTCATCATC AGCAGCAACA TCACCACCAT 
    CCAACGATCG TCATGTCCGA CACGCCGGAA GAGCAACAGC AGCACGGAGC TGGACACCCG 
    ACGGCGACCA GTCCCCTGGT GCCCATCATC AGCGTCACCC CTCACTCGCC TGGACTCGCC 
    GCCAAGCATT ACCCCGTTCT CGAGGAACCT CTGCGTCATC TGCACGAGAT CCACGACAAG 
    ATCAACCAGA TGCGCGACCT GACGCTGGCC CTGGCGAGCC GTACACAGCC GGGCGAGCAC 
    CTGCAGCGTT TCAGCACCTC CTGTCCGTCC CTCTGCCCGA TCATCTCGAT CGACGGCATC 
    GTCCAGTCGT CGTCGTCGGC CGTCGGAGGC CACCACCATC ACCACCACCA TCACCAGCAG 
    CAGCACAGCA GTCAGGAGCA GGATGGCTCG GACCCGGACC TCCTGACCAA CTGCTCGACC 
    AACAGCTCGC CTACGCACTT TCCCGGCACC ATCATGGTTG GCGGCGCTGC TGGACACGCC 
    TGCAGCCAGA TCCTCCAGGG AATCGACAGG CGGCGCAGCT GGACCGACCT CGAGGACTCC 
    AGGCAGCATC GGCGGGGCTC CGATCAGAAT CACCTGCAGG CCCAGAACAT CCGGCAGCGA 
    AGTATCAGCT TGAGCAGTCT CGATAGTGAC ATGGACCTGG AGTTGGATGG CAAATCTCGC 
    GCCAGAGATA CGAGCAACAA AACCCGCACT TCCGTGTCGC AGTCCAGTAC GCATTCGCTG 
    AACGAAGCCG ACTTTGTCCA TCAGAACGAG TTCAAGAAAG TGGTGGTCAA GCGTGGAGGT 
    CAGAGGCTAG GGGAGAACGT CAGCTTGATG CCCGGGGTGA CCGGATCGCG ATTGCCGCTC 
    CAGAAGTCCG TTTCGACACC ATCCATTGTC ATACCGCCGG GCCAGACTCA CCTCACGGAA 
    ACTGGGGCGC GCGTCGCTCC CTCTCTCTCC ACCAGTCGGC ATGAAAGACA CGAAAAGGGT 
    AGTGGAAGTG AGACAGAGAC GGACGATCTT CACATCCCTC ATGGTCATGA ATTTCACGAG 
    GACTTGATGA GAGAGGGCGC GCCGAATAAC CAAGCTTCCC TCGACGAACT CTTGACCGAC 
    ACAGCATATG ACGATCGACA TTCGGAGAAA ACAAAAAGAA AACGAGGTTC ATTATTTTCA 
    AGAAAGAAGA AGGATAAAAG TGGGAAGAAG CCAGCGCAAC AACATCAATG GGCAGCTATA 
    AACGTATCGT CACAGGGAAA CAACAGTTGT GATTTTTGTA TGAAGTCTTT TGCTAGTAAA 
    CCGACTTTAC ACTGCGAAAA TTGCGGCGCC ATAATTCACC AGGCGTGCAA AGACCATTAC 
    CAAGCAGAAT GCACGAAATC GAAGCCCTCA AGCAAATCTT CGTTCAAATC ACTGTCGAGC 
    GTCTCGATAT CGTCGACGAG CAGCATCGTG AAGCGTGGCT CCACGGCTTC GCTGCCGCTG 
    CCAGCGTCGA TCGGTACCGG AAGTCAAACT ATCAATGAGG AGAGAGACGG AGATGGAGGC 
    TCTCATCGCG ATATTTCCAG CGGCTTGGAG GAGTTCGACT TCGACGATAC GCACCAGTTC 
    AGCCTGGACG AGTTCGACGG TCAGCGTCCG GAGCTGGGCC TGGGTCGGGA GGAGCCGGAC 
    TCTTGGAGCG CCTGGATCGG TCGTAAGGTC GCTCTGCGAC TCGTCGACAA CAACGAGCGC 
    GAAGTCAAGC GGCAGGAGCA CATCTACGAG TTCATCCTCA CCGAGAAGCA CCACTGCCTC 
    GTGCTGCTGG CCATGCAGCG GATCTTCGTC GAGGGCCTGC AGCGTCATTT CAATCTTAAC 
    TCCTCGGTCC TCGACCGCAT GTTCCCCAAG CTCCAGAACC TCATGGACAT CCACTTTGAC 
    TTCTTGGCCA AGCTCAGGCA TCGCCAGGCC GAGAACGCGG TTGTCACCAC CATCGCCGAC 
    ATACTGATAG ACCAGTTTTC CGGCGAGAAC TCCTACAATA TGAAGAATGC CTACGGCGAG 
    TTCTGCAGTC GGCACAGGGA CGCGGTCGAC GTCTACAAGC AGCAGCAGCA GATGGACACG 
    AGGTTCGCCA GATTCGTCAG GCACTGTCAG AACAACCCGT TGCTCAAAAA GAAGGGCATC 
    CCCGAGTGCA TACTCTTCGT CACCCAGAGG CTGACCAAGT ATCCGCTGCT GGTCGAGCCG 
    CTGATCAAGA CCGGGGTGAC CACCGAGGAG ACTGACAATC TGCGTAAAGC CCTGAGTCTC 
    GTTAAGGAGA TACTCGGCGA AGTCGATGCC TGCGTCGCCG ACAAAGAGCG GACGGACAGG 
    AAACTGGATA TTTATCACAA AATCGATGCA AAGTCGTACG CTTACTATCG CGGTAAAAAG 
    TTCAAAAAGT CCGATATCTT GGCGTCGAAT CGCAACCTCA AATTTGAAGG CACAGCCTGG 
    CTGCTCCAGG GACGAAGCAA GACGGTACCT GTAGTGGTGG TCTGCCTTAC TGACGTGCTT 
    TTCTTCCTGG CTGGCGAACA GAAGTATGCG TTCTTCGTGC CTGACAATAA AGCGGGCGTC 
    GTTTCGCTGC AGAAGCTGCT AGTACGCGAG AAGGCCGGCA ACGAATCGCG CGGCATCTAT 
    CTCATCAGCA GCAATCCCAG CGAGCCCGAA ATGTTCGAGC TCAAGGTCAA GGATCCGCGA 
    GACAAGCATC TGTGGGTCAA AGCGATCAGA GCAGCGGTCG AATCGTGCCC GCAAGAGCCC 
    GACAGTGAAA ACTGTAATTT TACCGAGAAC AATATGGTTA ACGAGATGCG GGATGCGCGC 
    TCGCTGTCTC TGTCGAAGAT GTCCCCCGAG GAGAAACTTA GACAAGCCAA AGAAACACAT 
    TTGCAGAATA TAATTGATGA ACTTAAGAAG AAAGATGAGG AGCAAGCATC GCTGTTCGAA 
    CAGAAGATGT ATTTACATAT GAGATTACAC GACGCGATAA GTATGCGCGG TAGTAACGAA 
    AACGACGTGG ATAAAATAGA CAAAGATTAC AAGGAAGTAC CTGACTATTT AAGGTACATC 
    GGAGGTGAAG GAATCAATTT GACAAAGATG TACCAAGAGG CGCGCGAAGC TGTTCAGGAG 
    GCAATGCGAT TGGTCAATTC CTTGTCTTAT GGCGCAGGCG GTGGAACTTT GTCAAGAAGT 
    TTAAGTTCAG CAGGTGAAAG ACACAGCGAT GCTTACGTGC CACCGTCGCT CGCTGTTCCC 
    AGGAGAGCAG AGACCTTTGC TGGCTTTGAT CACAACAAAG AACGCTATCC GTGGCGAGAT 
    TCAGTTGCAT TGAATAACAT GGCACCGCCT ATGCCGAAAA ACGAAGAGGT GAACACCGTT 
    GAACAGGTGG AGGGCAAAGA AGAGGATGAG CTTGACGCCT ATAGAGACCA GCGTGAGGTC 
    GCTGTCAGAA TTTCCCATTA CGTGGATACG CTGCTTTTTA TCATCAGTAA TCAGTTGACA 
    ACAATCGAGA ACTTGCAATC TCAATTAGCA GGTTTCAAAG ACGGTAGCGT AGGTGGCAAA 
    TCGAATAATC GCCCCAACCC GAATCGTCAA CTCGAAGAGC TTCGCAATCT ACAGGACAAA 
    CTGAGTCGCG AGCGAGCTGA ATTTCGCGCA TCCTCGCAGC AAGAGCGTGC CCAGCTCGAG 
    GAGGAGCGAG CTGAGCTCAA CAAGCTACGT AGTCAGCTGT CAGCGGATCA ACGTGACCTC 
    GACAAGCAGC GCGATCAGCT GTATCGCAAA CTGGAGGCGC TGACGCGTCA AGGAGTGTCG 
    CTAACCACGG GTGCACCAGT GCCTGTGGTG ACGCACGGAA CTGGTGACGC TAATCAGAGC 
    TCGTCTTCAT CATCGTCGTC GACATCGCGG AAAAAGTCGC AAACTGACGA GAAGGGCATG 
    ATTCCACAAA ATCTATTCAG TGCCACAAAC CAGCAGAAGG TGCAACAACT GCCCGTAAAG 
    CAGCAACTGC CGCTTAAACT GGCCAGTGGT AGTAATAATA CCAACTCCAG GAGCGGAAGC 
    ATAGTAAGCA ACAACAGTCC GGACCGTCAC TCGCGGACGG GTAGCAGTCC AGCGATAGTA 
    ACGAGCTCTT CGGCCCTATC ATCTCCTGAA CTTGGCACTA GCAGCAATCA CCACAATAAC 
    GGTTCTAGCG CTCTAAGCCA CTTCTCGATG TCGAATCGCT CATTGCGCTA TACGCGTATA 
    CCCGAGCCTT ATCCTCGCAA ACATCACGTA CAACAACAGC AGCAGCAGCA GCAGCAACAG 
    CAGCAGCAAC AGCAGCCACA GCGAGCCGAA CCGCAGCAAC CGCTTGAGGA AGAGGTACTG 
    TTTTTGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    LOC100121921 ( XM_003425691.3 ) cDNA ORF clone, Nasonia vitripennis(jewel wasp) -> XP_003425739.1 Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ONd06479
    Clone ID Related Accession (Same CDS sequence) XM_008205666.2 , XM_008205667.2 , XM_003425691.3 , XM_003425692.3 , XM_008205668.2 , XM_003425692.4
    Accession Version XM_003425691.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4509bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-05-25
    Organism Nasonia vitripennis(jewel wasp)
    Product rho guanine nucleotide exchange factor 28 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_015869.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On May 26, 2016 this sequence version replaced XM_003425691.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nasonia vitripennis Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGAAAAGC GCAGGGAAGG ACTCGCGCCG TTTTCCTCCG ACGAATGTCC GAACAGCGGG 
    GAGGACAGCG ACGAGGATGT AATAACAGAC TACCTGGGCT CCGCGCAATC GGAGTGTTCA 
    CGCGTGTCTG TCGTTAACGG GGATCACCTC CCCGAGCAGC AGCATCAGTC CGACGCAGCA 
    GTCGCCGGCA ATTATACCAA AGACAGCACC GGTCATCATC AGCAGCAACA TCACCACCAT 
    CCAACGATCG TCATGTCCGA CACGCCGGAA GAGCAACAGC AGCACGGAGC TGGACACCCG 
    ACGGCGACCA GTCCCCTGGT GCCCATCATC AGCGTCACCC CTCACTCGCC TGGACTCGCC 
    GCCAAGCATT ACCCCGTTCT CGAGGAACCT CTGCGTCATC TGCACGAGAT CCACGACAAG 
    ATCAACCAGA TGCGCGACCT GACGCTGGCC CTGGCGAGCC GTACACAGCC GGGCGAGCAC 
    CTGCAGCGTT TCAGCACCTC CTGTCCGTCC CTCTGCCCGA TCATCTCGAT CGACGGCATC 
    GTCCAGTCGT CGTCGTCGGC CGTCGGAGGC CACCACCATC ACCACCACCA TCACCAGCAG 
    CAGCACAGCA GTCAGGAGCA GGATGGCTCG GACCCGGACC TCCTGACCAA CTGCTCGACC 
    AACAGCTCGC CTACGCACTT TCCCGGCACC ATCATGGTTG GCGGCGCTGC TGGACACGCC 
    TGCAGCCAGA TCCTCCAGGG AATCGACAGG CGGCGCAGCT GGACCGACCT CGAGGACTCC 
    AGGCAGCATC GGCGGGGCTC CGATCAGAAT CACCTGCAGG CCCAGAACAT CCGGCAGCGA 
    AGTATCAGCT TGAGCAGTCT CGATAGTGAC ATGGACCTGG AGTTGGATGG CAAATCTCGC 
    GCCAGAGATA CGAGCAACAA AACCCGCACT TCCGTGTCGC AGTCCAGTAC GCATTCGCTG 
    AACGAAGCCG ACTTTGTCCA TCAGAACGAG TTCAAGAAAG TGGTGGTCAA GCGTGGAGGT 
    CAGAGGCTAG GGGAGAACGT CAGCTTGATG CCCGGGGTGA CCGGATCGCG ATTGCCGCTC 
    CAGAAGTCCG TTTCGACACC ATCCATTGTC ATACCGCCGG GCCAGACTCA CCTCACGGAA 
    ACTGGGGCGC GCGTCGCTCC CTCTCTCTCC ACCAGTCGGC ATGAAAGACA CGAAAAGGGT 
    AGTGGAAGTG AGACAGAGAC GGACGATCTT CACATCCCTC ATGGTCATGA ATTTCACGAG 
    GACTTGATGA GAGAGGGCGC GCCGAATAAC CAAGCTTCCC TCGACGAACT CTTGACCGAC 
    ACAGCATATG ACGATCGACA TTCGGAGAAA ACAAAAAGAA AACGAGGTTC ATTATTTTCA 
    AGAAAGAAGA AGGATAAAAG TGGGAAGAAG CCAGCGCAAC AACATCAATG GGCAGCTATA 
    AACGTATCGT CACAGGGAAA CAACAGTTGT GATTTTTGTA TGAAGTCTTT TGCTAGTAAA 
    CCGACTTTAC ACTGCGAAAA TTGCGGCGCC ATAATTCACC AGGCGTGCAA AGACCATTAC 
    CAAGCAGAAT GCACGAAATC GAAGCCCTCA AGCAAATCTT CGTTCAAATC ACTGTCGAGC 
    GTCTCGATAT CGTCGACGAG CAGCATCGTG AAGCGTGGCT CCACGGCTTC GCTGCCGCTG 
    CCAGCGTCGA TCGGTACCGG AAGTCAAACT ATCAATGAGG AGAGAGACGG AGATGGAGGC 
    TCTCATCGCG ATATTTCCAG CGGCTTGGAG GAGTTCGACT TCGACGATAC GCACCAGTTC 
    AGCCTGGACG AGTTCGACGG TCAGCGTCCG GAGCTGGGCC TGGGTCGGGA GGAGCCGGAC 
    TCTTGGAGCG CCTGGATCGG TCGTAAGGTC GCTCTGCGAC TCGTCGACAA CAACGAGCGC 
    GAAGTCAAGC GGCAGGAGCA CATCTACGAG TTCATCCTCA CCGAGAAGCA CCACTGCCTC 
    GTGCTGCTGG CCATGCAGCG GATCTTCGTC GAGGGCCTGC AGCGTCATTT CAATCTTAAC 
    TCCTCGGTCC TCGACCGCAT GTTCCCCAAG CTCCAGAACC TCATGGACAT CCACTTTGAC 
    TTCTTGGCCA AGCTCAGGCA TCGCCAGGCC GAGAACGCGG TTGTCACCAC CATCGCCGAC 
    ATACTGATAG ACCAGTTTTC CGGCGAGAAC TCCTACAATA TGAAGAATGC CTACGGCGAG 
    TTCTGCAGTC GGCACAGGGA CGCGGTCGAC GTCTACAAGC AGCAGCAGCA GATGGACACG 
    AGGTTCGCCA GATTCGTCAG GCACTGTCAG AACAACCCGT TGCTCAAAAA GAAGGGCATC 
    CCCGAGTGCA TACTCTTCGT CACCCAGAGG CTGACCAAGT ATCCGCTGCT GGTCGAGCCG 
    CTGATCAAGA CCGGGGTGAC CACCGAGGAG ACTGACAATC TGCGTAAAGC CCTGAGTCTC 
    GTTAAGGAGA TACTCGGCGA AGTCGATGCC TGCGTCGCCG ACAAAGAGCG GACGGACAGG 
    AAACTGGATA TTTATCACAA AATCGATGCA AAGTCGTACG CTTACTATCG CGGTAAAAAG 
    TTCAAAAAGT CCGATATCTT GGCGTCGAAT CGCAACCTCA AATTTGAAGG CACAGCCTGG 
    CTGCTCCAGG GACGAAGCAA GACGGTACCT GTAGTGGTGG TCTGCCTTAC TGACGTGCTT 
    TTCTTCCTGG CTGGCGAACA GAAGTATGCG TTCTTCGTGC CTGACAATAA AGCGGGCGTC 
    GTTTCGCTGC AGAAGCTGCT AGTACGCGAG AAGGCCGGCA ACGAATCGCG CGGCATCTAT 
    CTCATCAGCA GCAATCCCAG CGAGCCCGAA ATGTTCGAGC TCAAGGTCAA GGATCCGCGA 
    GACAAGCATC TGTGGGTCAA AGCGATCAGA GCAGCGGTCG AATCGTGCCC GCAAGAGCCC 
    GACAGTGAAA ACTGTAATTT TACCGAGAAC AATATGGTTA ACGAGATGCG GGATGCGCGC 
    TCGCTGTCTC TGTCGAAGAT GTCCCCCGAG GAGAAACTTA GACAAGCCAA AGAAACACAT 
    TTGCAGAATA TAATTGATGA ACTTAAGAAG AAAGATGAGG AGCAAGCATC GCTGTTCGAA 
    CAGAAGATGT ATTTACATAT GAGATTACAC GACGCGATAA GTATGCGCGG TAGTAACGAA 
    AACGACGTGG ATAAAATAGA CAAAGATTAC AAGGAAGTAC CTGACTATTT AAGGTACATC 
    GGAGGTGAAG GAATCAATTT GACAAAGATG TACCAAGAGG CGCGCGAAGC TGTTCAGGAG 
    GCAATGCGAT TGGTCAATTC CTTGTCTTAT GGCGCAGGCG GTGGAACTTT GTCAAGAAGT 
    TTAAGTTCAG CAGGTGAAAG ACACAGCGAT GCTTACGTGC CACCGTCGCT CGCTGTTCCC 
    AGGAGAGCAG AGACCTTTGC TGGCTTTGAT CACAACAAAG AACGCTATCC GTGGCGAGAT 
    TCAGTTGCAT TGAATAACAT GGCACCGCCT ATGCCGAAAA ACGAAGAGGT GAACACCGTT 
    GAACAGGTGG AGGGCAAAGA AGAGGATGAG CTTGACGCCT ATAGAGACCA GCGTGAGGTC 
    GCTGTCAGAA TTTCCCATTA CGTGGATACG CTGCTTTTTA TCATCAGTAA TCAGTTGACA 
    ACAATCGAGA ACTTGCAATC TCAATTAGCA GGTTTCAAAG ACGGTAGCGT AGGTGGCAAA 
    TCGAATAATC GCCCCAACCC GAATCGTCAA CTCGAAGAGC TTCGCAATCT ACAGGACAAA 
    CTGAGTCGCG AGCGAGCTGA ATTTCGCGCA TCCTCGCAGC AAGAGCGTGC CCAGCTCGAG 
    GAGGAGCGAG CTGAGCTCAA CAAGCTACGT AGTCAGCTGT CAGCGGATCA ACGTGACCTC 
    GACAAGCAGC GCGATCAGCT GTATCGCAAA CTGGAGGCGC TGACGCGTCA AGGAGTGTCG 
    CTAACCACGG GTGCACCAGT GCCTGTGGTG ACGCACGGAA CTGGTGACGC TAATCAGAGC 
    TCGTCTTCAT CATCGTCGTC GACATCGCGG AAAAAGTCGC AAACTGACGA GAAGGGCATG 
    ATTCCACAAA ATCTATTCAG TGCCACAAAC CAGCAGAAGG TGCAACAACT GCCCGTAAAG 
    CAGCAACTGC CGCTTAAACT GGCCAGTGGT AGTAATAATA CCAACTCCAG GAGCGGAAGC 
    ATAGTAAGCA ACAACAGTCC GGACCGTCAC TCGCGGACGG GTAGCAGTCC AGCGATAGTA 
    ACGAGCTCTT CGGCCCTATC ATCTCCTGAA CTTGGCACTA GCAGCAATCA CCACAATAAC 
    GGTTCTAGCG CTCTAAGCCA CTTCTCGATG TCGAATCGCT CATTGCGCTA TACGCGTATA 
    CCCGAGCCTT ATCCTCGCAA ACATCACGTA CAACAACAGC AGCAGCAGCA GCAGCAACAG 
    CAGCAGCAAC AGCAGCCACA GCGAGCCGAA CCGCAGCAAC CGCTTGAGGA AGAGGTACTG 
    TTTTTGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_003425739.1
    CDS277..4785
    Translation

    Target ORF information:

    RefSeq Version XM_003425691.3
    Organism Nasonia vitripennis(jewel wasp)
    Definition Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_003425691.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGAAAAGC GCAGGGAAGG ACTCGCGCCG TTTTCCTCCG ACGAATGTCC GAACAGCGGG 
    GAGGACAGCG ACGAGGATGT AATAACAGAC TACCTGGGCT CCGCGCAATC GGAGTGTTCA 
    CGCGTGTCTG TCGTTAACGG GGATCACCTC CCCGAGCAGC AGCATCAGTC CGACGCAGCA 
    GTCGCCGGCA ATTATACCAA AGACAGCACC GGTCATCATC AGCAGCAACA TCACCACCAT 
    CCAACGATCG TCATGTCCGA CACGCCGGAA GAGCAACAGC AGCACGGAGC TGGACACCCG 
    ACGGCGACCA GTCCCCTGGT GCCCATCATC AGCGTCACCC CTCACTCGCC TGGACTCGCC 
    GCCAAGCATT ACCCCGTTCT CGAGGAACCT CTGCGTCATC TGCACGAGAT CCACGACAAG 
    ATCAACCAGA TGCGCGACCT GACGCTGGCC CTGGCGAGCC GTACACAGCC GGGCGAGCAC 
    CTGCAGCGTT TCAGCACCTC CTGTCCGTCC CTCTGCCCGA TCATCTCGAT CGACGGCATC 
    GTCCAGTCGT CGTCGTCGGC CGTCGGAGGC CACCACCATC ACCACCACCA TCACCAGCAG 
    CAGCACAGCA GTCAGGAGCA GGATGGCTCG GACCCGGACC TCCTGACCAA CTGCTCGACC 
    AACAGCTCGC CTACGCACTT TCCCGGCACC ATCATGGTTG GCGGCGCTGC TGGACACGCC 
    TGCAGCCAGA TCCTCCAGGG AATCGACAGG CGGCGCAGCT GGACCGACCT CGAGGACTCC 
    AGGCAGCATC GGCGGGGCTC CGATCAGAAT CACCTGCAGG CCCAGAACAT CCGGCAGCGA 
    AGTATCAGCT TGAGCAGTCT CGATAGTGAC ATGGACCTGG AGTTGGATGG CAAATCTCGC 
    GCCAGAGATA CGAGCAACAA AACCCGCACT TCCGTGTCGC AGTCCAGTAC GCATTCGCTG 
    AACGAAGCCG ACTTTGTCCA TCAGAACGAG TTCAAGAAAG TGGTGGTCAA GCGTGGAGGT 
    CAGAGGCTAG GGGAGAACGT CAGCTTGATG CCCGGGGTGA CCGGATCGCG ATTGCCGCTC 
    CAGAAGTCCG TTTCGACACC ATCCATTGTC ATACCGCCGG GCCAGACTCA CCTCACGGAA 
    ACTGGGGCGC GCGTCGCTCC CTCTCTCTCC ACCAGTCGGC ATGAAAGACA CGAAAAGGGT 
    AGTGGAAGTG AGACAGAGAC GGACGATCTT CACATCCCTC ATGGTCATGA ATTTCACGAG 
    GACTTGATGA GAGAGGGCGC GCCGAATAAC CAAGCTTCCC TCGACGAACT CTTGACCGAC 
    ACAGCATATG ACGATCGACA TTCGGAGAAA ACAAAAAGAA AACGAGGTTC ATTATTTTCA 
    AGAAAGAAGA AGGATAAAAG TGGGAAGAAG CCAGCGCAAC AACATCAATG GGCAGCTATA 
    AACGTATCGT CACAGGGAAA CAACAGTTGT GATTTTTGTA TGAAGTCTTT TGCTAGTAAA 
    CCGACTTTAC ACTGCGAAAA TTGCGGCGCC ATAATTCACC AGGCGTGCAA AGACCATTAC 
    CAAGCAGAAT GCACGAAATC GAAGCCCTCA AGCAAATCTT CGTTCAAATC ACTGTCGAGC 
    GTCTCGATAT CGTCGACGAG CAGCATCGTG AAGCGTGGCT CCACGGCTTC GCTGCCGCTG 
    CCAGCGTCGA TCGGTACCGG AAGTCAAACT ATCAATGAGG AGAGAGACGG AGATGGAGGC 
    TCTCATCGCG ATATTTCCAG CGGCTTGGAG GAGTTCGACT TCGACGATAC GCACCAGTTC 
    AGCCTGGACG AGTTCGACGG TCAGCGTCCG GAGCTGGGCC TGGGTCGGGA GGAGCCGGAC 
    TCTTGGAGCG CCTGGATCGG TCGTAAGGTC GCTCTGCGAC TCGTCGACAA CAACGAGCGC 
    GAAGTCAAGC GGCAGGAGCA CATCTACGAG TTCATCCTCA CCGAGAAGCA CCACTGCCTC 
    GTGCTGCTGG CCATGCAGCG GATCTTCGTC GAGGGCCTGC AGCGTCATTT CAATCTTAAC 
    TCCTCGGTCC TCGACCGCAT GTTCCCCAAG CTCCAGAACC TCATGGACAT CCACTTTGAC 
    TTCTTGGCCA AGCTCAGGCA TCGCCAGGCC GAGAACGCGG TTGTCACCAC CATCGCCGAC 
    ATACTGATAG ACCAGTTTTC CGGCGAGAAC TCCTACAATA TGAAGAATGC CTACGGCGAG 
    TTCTGCAGTC GGCACAGGGA CGCGGTCGAC GTCTACAAGC AGCAGCAGCA GATGGACACG 
    AGGTTCGCCA GATTCGTCAG GCACTGTCAG AACAACCCGT TGCTCAAAAA GAAGGGCATC 
    CCCGAGTGCA TACTCTTCGT CACCCAGAGG CTGACCAAGT ATCCGCTGCT GGTCGAGCCG 
    CTGATCAAGA CCGGGGTGAC CACCGAGGAG ACTGACAATC TGCGTAAAGC CCTGAGTCTC 
    GTTAAGGAGA TACTCGGCGA AGTCGATGCC TGCGTCGCCG ACAAAGAGCG GACGGACAGG 
    AAACTGGATA TTTATCACAA AATCGATGCA AAGTCGTACG CTTACTATCG CGGTAAAAAG 
    TTCAAAAAGT CCGATATCTT GGCGTCGAAT CGCAACCTCA AATTTGAAGG CACAGCCTGG 
    CTGCTCCAGG GACGAAGCAA GACGGTACCT GTAGTGGTGG TCTGCCTTAC TGACGTGCTT 
    TTCTTCCTGG CTGGCGAACA GAAGTATGCG TTCTTCGTGC CTGACAATAA AGCGGGCGTC 
    GTTTCGCTGC AGAAGCTGCT AGTACGCGAG AAGGCCGGCA ACGAATCGCG CGGCATCTAT 
    CTCATCAGCA GCAATCCCAG CGAGCCCGAA ATGTTCGAGC TCAAGGTCAA GGATCCGCGA 
    GACAAGCATC TGTGGGTCAA AGCGATCAGA GCAGCGGTCG AATCGTGCCC GCAAGAGCCC 
    GACAGTGAAA ACTGTAATTT TACCGAGAAC AATATGGTTA ACGAGATGCG GGATGCGCGC 
    TCGCTGTCTC TGTCGAAGAT GTCCCCCGAG GAGAAACTTA GACAAGCCAA AGAAACACAT 
    TTGCAGAATA TAATTGATGA ACTTAAGAAG AAAGATGAGG AGCAAGCATC GCTGTTCGAA 
    CAGAAGATGT ATTTACATAT GAGATTACAC GACGCGATAA GTATGCGCGG TAGTAACGAA 
    AACGACGTGG ATAAAATAGA CAAAGATTAC AAGGAAGTAC CTGACTATTT AAGGTACATC 
    GGAGGTGAAG GAATCAATTT GACAAAGATG TACCAAGAGG CGCGCGAAGC TGTTCAGGAG 
    GCAATGCGAT TGGTCAATTC CTTGTCTTAT GGCGCAGGCG GTGGAACTTT GTCAAGAAGT 
    TTAAGTTCAG CAGGTGAAAG ACACAGCGAT GCTTACGTGC CACCGTCGCT CGCTGTTCCC 
    AGGAGAGCAG AGACCTTTGC TGGCTTTGAT CACAACAAAG AACGCTATCC GTGGCGAGAT 
    TCAGTTGCAT TGAATAACAT GGCACCGCCT ATGCCGAAAA ACGAAGAGGT GAACACCGTT 
    GAACAGGTGG AGGGCAAAGA AGAGGATGAG CTTGACGCCT ATAGAGACCA GCGTGAGGTC 
    GCTGTCAGAA TTTCCCATTA CGTGGATACG CTGCTTTTTA TCATCAGTAA TCAGTTGACA 
    ACAATCGAGA ACTTGCAATC TCAATTAGCA GGTTTCAAAG ACGGTAGCGT AGGTGGCAAA 
    TCGAATAATC GCCCCAACCC GAATCGTCAA CTCGAAGAGC TTCGCAATCT ACAGGACAAA 
    CTGAGTCGCG AGCGAGCTGA ATTTCGCGCA TCCTCGCAGC AAGAGCGTGC CCAGCTCGAG 
    GAGGAGCGAG CTGAGCTCAA CAAGCTACGT AGTCAGCTGT CAGCGGATCA ACGTGACCTC 
    GACAAGCAGC GCGATCAGCT GTATCGCAAA CTGGAGGCGC TGACGCGTCA AGGAGTGTCG 
    CTAACCACGG GTGCACCAGT GCCTGTGGTG ACGCACGGAA CTGGTGACGC TAATCAGAGC 
    TCGTCTTCAT CATCGTCGTC GACATCGCGG AAAAAGTCGC AAACTGACGA GAAGGGCATG 
    ATTCCACAAA ATCTATTCAG TGCCACAAAC CAGCAGAAGG TGCAACAACT GCCCGTAAAG 
    CAGCAACTGC CGCTTAAACT GGCCAGTGGT AGTAATAATA CCAACTCCAG GAGCGGAAGC 
    ATAGTAAGCA ACAACAGTCC GGACCGTCAC TCGCGGACGG GTAGCAGTCC AGCGATAGTA 
    ACGAGCTCTT CGGCCCTATC ATCTCCTGAA CTTGGCACTA GCAGCAATCA CCACAATAAC 
    GGTTCTAGCG CTCTAAGCCA CTTCTCGATG TCGAATCGCT CATTGCGCTA TACGCGTATA 
    CCCGAGCCTT ATCCTCGCAA ACATCACGTA CAACAACAGC AGCAGCAGCA GCAGCAACAG 
    CAGCAGCAAC AGCAGCCACA GCGAGCCGAA CCGCAGCAAC CGCTTGAGGA AGAGGTACTG 
    TTTTTGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    LOC100121921 ( XM_003425692.3 ) cDNA ORF clone, Nasonia vitripennis(jewel wasp) -> XP_003425740.1 Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ONd06479
    Clone ID Related Accession (Same CDS sequence) XM_008205666.2 , XM_008205667.2 , XM_003425691.3 , XM_003425692.3 , XM_008205668.2 , XM_003425692.4
    Accession Version XM_003425692.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4509bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-05-25
    Organism Nasonia vitripennis(jewel wasp)
    Product rho guanine nucleotide exchange factor 28 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_015869.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On May 26, 2016 this sequence version replaced XM_003425692.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nasonia vitripennis Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGAAAAGC GCAGGGAAGG ACTCGCGCCG TTTTCCTCCG ACGAATGTCC GAACAGCGGG 
    GAGGACAGCG ACGAGGATGT AATAACAGAC TACCTGGGCT CCGCGCAATC GGAGTGTTCA 
    CGCGTGTCTG TCGTTAACGG GGATCACCTC CCCGAGCAGC AGCATCAGTC CGACGCAGCA 
    GTCGCCGGCA ATTATACCAA AGACAGCACC GGTCATCATC AGCAGCAACA TCACCACCAT 
    CCAACGATCG TCATGTCCGA CACGCCGGAA GAGCAACAGC AGCACGGAGC TGGACACCCG 
    ACGGCGACCA GTCCCCTGGT GCCCATCATC AGCGTCACCC CTCACTCGCC TGGACTCGCC 
    GCCAAGCATT ACCCCGTTCT CGAGGAACCT CTGCGTCATC TGCACGAGAT CCACGACAAG 
    ATCAACCAGA TGCGCGACCT GACGCTGGCC CTGGCGAGCC GTACACAGCC GGGCGAGCAC 
    CTGCAGCGTT TCAGCACCTC CTGTCCGTCC CTCTGCCCGA TCATCTCGAT CGACGGCATC 
    GTCCAGTCGT CGTCGTCGGC CGTCGGAGGC CACCACCATC ACCACCACCA TCACCAGCAG 
    CAGCACAGCA GTCAGGAGCA GGATGGCTCG GACCCGGACC TCCTGACCAA CTGCTCGACC 
    AACAGCTCGC CTACGCACTT TCCCGGCACC ATCATGGTTG GCGGCGCTGC TGGACACGCC 
    TGCAGCCAGA TCCTCCAGGG AATCGACAGG CGGCGCAGCT GGACCGACCT CGAGGACTCC 
    AGGCAGCATC GGCGGGGCTC CGATCAGAAT CACCTGCAGG CCCAGAACAT CCGGCAGCGA 
    AGTATCAGCT TGAGCAGTCT CGATAGTGAC ATGGACCTGG AGTTGGATGG CAAATCTCGC 
    GCCAGAGATA CGAGCAACAA AACCCGCACT TCCGTGTCGC AGTCCAGTAC GCATTCGCTG 
    AACGAAGCCG ACTTTGTCCA TCAGAACGAG TTCAAGAAAG TGGTGGTCAA GCGTGGAGGT 
    CAGAGGCTAG GGGAGAACGT CAGCTTGATG CCCGGGGTGA CCGGATCGCG ATTGCCGCTC 
    CAGAAGTCCG TTTCGACACC ATCCATTGTC ATACCGCCGG GCCAGACTCA CCTCACGGAA 
    ACTGGGGCGC GCGTCGCTCC CTCTCTCTCC ACCAGTCGGC ATGAAAGACA CGAAAAGGGT 
    AGTGGAAGTG AGACAGAGAC GGACGATCTT CACATCCCTC ATGGTCATGA ATTTCACGAG 
    GACTTGATGA GAGAGGGCGC GCCGAATAAC CAAGCTTCCC TCGACGAACT CTTGACCGAC 
    ACAGCATATG ACGATCGACA TTCGGAGAAA ACAAAAAGAA AACGAGGTTC ATTATTTTCA 
    AGAAAGAAGA AGGATAAAAG TGGGAAGAAG CCAGCGCAAC AACATCAATG GGCAGCTATA 
    AACGTATCGT CACAGGGAAA CAACAGTTGT GATTTTTGTA TGAAGTCTTT TGCTAGTAAA 
    CCGACTTTAC ACTGCGAAAA TTGCGGCGCC ATAATTCACC AGGCGTGCAA AGACCATTAC 
    CAAGCAGAAT GCACGAAATC GAAGCCCTCA AGCAAATCTT CGTTCAAATC ACTGTCGAGC 
    GTCTCGATAT CGTCGACGAG CAGCATCGTG AAGCGTGGCT CCACGGCTTC GCTGCCGCTG 
    CCAGCGTCGA TCGGTACCGG AAGTCAAACT ATCAATGAGG AGAGAGACGG AGATGGAGGC 
    TCTCATCGCG ATATTTCCAG CGGCTTGGAG GAGTTCGACT TCGACGATAC GCACCAGTTC 
    AGCCTGGACG AGTTCGACGG TCAGCGTCCG GAGCTGGGCC TGGGTCGGGA GGAGCCGGAC 
    TCTTGGAGCG CCTGGATCGG TCGTAAGGTC GCTCTGCGAC TCGTCGACAA CAACGAGCGC 
    GAAGTCAAGC GGCAGGAGCA CATCTACGAG TTCATCCTCA CCGAGAAGCA CCACTGCCTC 
    GTGCTGCTGG CCATGCAGCG GATCTTCGTC GAGGGCCTGC AGCGTCATTT CAATCTTAAC 
    TCCTCGGTCC TCGACCGCAT GTTCCCCAAG CTCCAGAACC TCATGGACAT CCACTTTGAC 
    TTCTTGGCCA AGCTCAGGCA TCGCCAGGCC GAGAACGCGG TTGTCACCAC CATCGCCGAC 
    ATACTGATAG ACCAGTTTTC CGGCGAGAAC TCCTACAATA TGAAGAATGC CTACGGCGAG 
    TTCTGCAGTC GGCACAGGGA CGCGGTCGAC GTCTACAAGC AGCAGCAGCA GATGGACACG 
    AGGTTCGCCA GATTCGTCAG GCACTGTCAG AACAACCCGT TGCTCAAAAA GAAGGGCATC 
    CCCGAGTGCA TACTCTTCGT CACCCAGAGG CTGACCAAGT ATCCGCTGCT GGTCGAGCCG 
    CTGATCAAGA CCGGGGTGAC CACCGAGGAG ACTGACAATC TGCGTAAAGC CCTGAGTCTC 
    GTTAAGGAGA TACTCGGCGA AGTCGATGCC TGCGTCGCCG ACAAAGAGCG GACGGACAGG 
    AAACTGGATA TTTATCACAA AATCGATGCA AAGTCGTACG CTTACTATCG CGGTAAAAAG 
    TTCAAAAAGT CCGATATCTT GGCGTCGAAT CGCAACCTCA AATTTGAAGG CACAGCCTGG 
    CTGCTCCAGG GACGAAGCAA GACGGTACCT GTAGTGGTGG TCTGCCTTAC TGACGTGCTT 
    TTCTTCCTGG CTGGCGAACA GAAGTATGCG TTCTTCGTGC CTGACAATAA AGCGGGCGTC 
    GTTTCGCTGC AGAAGCTGCT AGTACGCGAG AAGGCCGGCA ACGAATCGCG CGGCATCTAT 
    CTCATCAGCA GCAATCCCAG CGAGCCCGAA ATGTTCGAGC TCAAGGTCAA GGATCCGCGA 
    GACAAGCATC TGTGGGTCAA AGCGATCAGA GCAGCGGTCG AATCGTGCCC GCAAGAGCCC 
    GACAGTGAAA ACTGTAATTT TACCGAGAAC AATATGGTTA ACGAGATGCG GGATGCGCGC 
    TCGCTGTCTC TGTCGAAGAT GTCCCCCGAG GAGAAACTTA GACAAGCCAA AGAAACACAT 
    TTGCAGAATA TAATTGATGA ACTTAAGAAG AAAGATGAGG AGCAAGCATC GCTGTTCGAA 
    CAGAAGATGT ATTTACATAT GAGATTACAC GACGCGATAA GTATGCGCGG TAGTAACGAA 
    AACGACGTGG ATAAAATAGA CAAAGATTAC AAGGAAGTAC CTGACTATTT AAGGTACATC 
    GGAGGTGAAG GAATCAATTT GACAAAGATG TACCAAGAGG CGCGCGAAGC TGTTCAGGAG 
    GCAATGCGAT TGGTCAATTC CTTGTCTTAT GGCGCAGGCG GTGGAACTTT GTCAAGAAGT 
    TTAAGTTCAG CAGGTGAAAG ACACAGCGAT GCTTACGTGC CACCGTCGCT CGCTGTTCCC 
    AGGAGAGCAG AGACCTTTGC TGGCTTTGAT CACAACAAAG AACGCTATCC GTGGCGAGAT 
    TCAGTTGCAT TGAATAACAT GGCACCGCCT ATGCCGAAAA ACGAAGAGGT GAACACCGTT 
    GAACAGGTGG AGGGCAAAGA AGAGGATGAG CTTGACGCCT ATAGAGACCA GCGTGAGGTC 
    GCTGTCAGAA TTTCCCATTA CGTGGATACG CTGCTTTTTA TCATCAGTAA TCAGTTGACA 
    ACAATCGAGA ACTTGCAATC TCAATTAGCA GGTTTCAAAG ACGGTAGCGT AGGTGGCAAA 
    TCGAATAATC GCCCCAACCC GAATCGTCAA CTCGAAGAGC TTCGCAATCT ACAGGACAAA 
    CTGAGTCGCG AGCGAGCTGA ATTTCGCGCA TCCTCGCAGC AAGAGCGTGC CCAGCTCGAG 
    GAGGAGCGAG CTGAGCTCAA CAAGCTACGT AGTCAGCTGT CAGCGGATCA ACGTGACCTC 
    GACAAGCAGC GCGATCAGCT GTATCGCAAA CTGGAGGCGC TGACGCGTCA AGGAGTGTCG 
    CTAACCACGG GTGCACCAGT GCCTGTGGTG ACGCACGGAA CTGGTGACGC TAATCAGAGC 
    TCGTCTTCAT CATCGTCGTC GACATCGCGG AAAAAGTCGC AAACTGACGA GAAGGGCATG 
    ATTCCACAAA ATCTATTCAG TGCCACAAAC CAGCAGAAGG TGCAACAACT GCCCGTAAAG 
    CAGCAACTGC CGCTTAAACT GGCCAGTGGT AGTAATAATA CCAACTCCAG GAGCGGAAGC 
    ATAGTAAGCA ACAACAGTCC GGACCGTCAC TCGCGGACGG GTAGCAGTCC AGCGATAGTA 
    ACGAGCTCTT CGGCCCTATC ATCTCCTGAA CTTGGCACTA GCAGCAATCA CCACAATAAC 
    GGTTCTAGCG CTCTAAGCCA CTTCTCGATG TCGAATCGCT CATTGCGCTA TACGCGTATA 
    CCCGAGCCTT ATCCTCGCAA ACATCACGTA CAACAACAGC AGCAGCAGCA GCAGCAACAG 
    CAGCAGCAAC AGCAGCCACA GCGAGCCGAA CCGCAGCAAC CGCTTGAGGA AGAGGTACTG 
    TTTTTGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_003425740.1
    CDS521..5029
    Translation

    Target ORF information:

    RefSeq Version XM_003425692.3
    Organism Nasonia vitripennis(jewel wasp)
    Definition Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_003425692.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGAAAAGC GCAGGGAAGG ACTCGCGCCG TTTTCCTCCG ACGAATGTCC GAACAGCGGG 
    GAGGACAGCG ACGAGGATGT AATAACAGAC TACCTGGGCT CCGCGCAATC GGAGTGTTCA 
    CGCGTGTCTG TCGTTAACGG GGATCACCTC CCCGAGCAGC AGCATCAGTC CGACGCAGCA 
    GTCGCCGGCA ATTATACCAA AGACAGCACC GGTCATCATC AGCAGCAACA TCACCACCAT 
    CCAACGATCG TCATGTCCGA CACGCCGGAA GAGCAACAGC AGCACGGAGC TGGACACCCG 
    ACGGCGACCA GTCCCCTGGT GCCCATCATC AGCGTCACCC CTCACTCGCC TGGACTCGCC 
    GCCAAGCATT ACCCCGTTCT CGAGGAACCT CTGCGTCATC TGCACGAGAT CCACGACAAG 
    ATCAACCAGA TGCGCGACCT GACGCTGGCC CTGGCGAGCC GTACACAGCC GGGCGAGCAC 
    CTGCAGCGTT TCAGCACCTC CTGTCCGTCC CTCTGCCCGA TCATCTCGAT CGACGGCATC 
    GTCCAGTCGT CGTCGTCGGC CGTCGGAGGC CACCACCATC ACCACCACCA TCACCAGCAG 
    CAGCACAGCA GTCAGGAGCA GGATGGCTCG GACCCGGACC TCCTGACCAA CTGCTCGACC 
    AACAGCTCGC CTACGCACTT TCCCGGCACC ATCATGGTTG GCGGCGCTGC TGGACACGCC 
    TGCAGCCAGA TCCTCCAGGG AATCGACAGG CGGCGCAGCT GGACCGACCT CGAGGACTCC 
    AGGCAGCATC GGCGGGGCTC CGATCAGAAT CACCTGCAGG CCCAGAACAT CCGGCAGCGA 
    AGTATCAGCT TGAGCAGTCT CGATAGTGAC ATGGACCTGG AGTTGGATGG CAAATCTCGC 
    GCCAGAGATA CGAGCAACAA AACCCGCACT TCCGTGTCGC AGTCCAGTAC GCATTCGCTG 
    AACGAAGCCG ACTTTGTCCA TCAGAACGAG TTCAAGAAAG TGGTGGTCAA GCGTGGAGGT 
    CAGAGGCTAG GGGAGAACGT CAGCTTGATG CCCGGGGTGA CCGGATCGCG ATTGCCGCTC 
    CAGAAGTCCG TTTCGACACC ATCCATTGTC ATACCGCCGG GCCAGACTCA CCTCACGGAA 
    ACTGGGGCGC GCGTCGCTCC CTCTCTCTCC ACCAGTCGGC ATGAAAGACA CGAAAAGGGT 
    AGTGGAAGTG AGACAGAGAC GGACGATCTT CACATCCCTC ATGGTCATGA ATTTCACGAG 
    GACTTGATGA GAGAGGGCGC GCCGAATAAC CAAGCTTCCC TCGACGAACT CTTGACCGAC 
    ACAGCATATG ACGATCGACA TTCGGAGAAA ACAAAAAGAA AACGAGGTTC ATTATTTTCA 
    AGAAAGAAGA AGGATAAAAG TGGGAAGAAG CCAGCGCAAC AACATCAATG GGCAGCTATA 
    AACGTATCGT CACAGGGAAA CAACAGTTGT GATTTTTGTA TGAAGTCTTT TGCTAGTAAA 
    CCGACTTTAC ACTGCGAAAA TTGCGGCGCC ATAATTCACC AGGCGTGCAA AGACCATTAC 
    CAAGCAGAAT GCACGAAATC GAAGCCCTCA AGCAAATCTT CGTTCAAATC ACTGTCGAGC 
    GTCTCGATAT CGTCGACGAG CAGCATCGTG AAGCGTGGCT CCACGGCTTC GCTGCCGCTG 
    CCAGCGTCGA TCGGTACCGG AAGTCAAACT ATCAATGAGG AGAGAGACGG AGATGGAGGC 
    TCTCATCGCG ATATTTCCAG CGGCTTGGAG GAGTTCGACT TCGACGATAC GCACCAGTTC 
    AGCCTGGACG AGTTCGACGG TCAGCGTCCG GAGCTGGGCC TGGGTCGGGA GGAGCCGGAC 
    TCTTGGAGCG CCTGGATCGG TCGTAAGGTC GCTCTGCGAC TCGTCGACAA CAACGAGCGC 
    GAAGTCAAGC GGCAGGAGCA CATCTACGAG TTCATCCTCA CCGAGAAGCA CCACTGCCTC 
    GTGCTGCTGG CCATGCAGCG GATCTTCGTC GAGGGCCTGC AGCGTCATTT CAATCTTAAC 
    TCCTCGGTCC TCGACCGCAT GTTCCCCAAG CTCCAGAACC TCATGGACAT CCACTTTGAC 
    TTCTTGGCCA AGCTCAGGCA TCGCCAGGCC GAGAACGCGG TTGTCACCAC CATCGCCGAC 
    ATACTGATAG ACCAGTTTTC CGGCGAGAAC TCCTACAATA TGAAGAATGC CTACGGCGAG 
    TTCTGCAGTC GGCACAGGGA CGCGGTCGAC GTCTACAAGC AGCAGCAGCA GATGGACACG 
    AGGTTCGCCA GATTCGTCAG GCACTGTCAG AACAACCCGT TGCTCAAAAA GAAGGGCATC 
    CCCGAGTGCA TACTCTTCGT CACCCAGAGG CTGACCAAGT ATCCGCTGCT GGTCGAGCCG 
    CTGATCAAGA CCGGGGTGAC CACCGAGGAG ACTGACAATC TGCGTAAAGC CCTGAGTCTC 
    GTTAAGGAGA TACTCGGCGA AGTCGATGCC TGCGTCGCCG ACAAAGAGCG GACGGACAGG 
    AAACTGGATA TTTATCACAA AATCGATGCA AAGTCGTACG CTTACTATCG CGGTAAAAAG 
    TTCAAAAAGT CCGATATCTT GGCGTCGAAT CGCAACCTCA AATTTGAAGG CACAGCCTGG 
    CTGCTCCAGG GACGAAGCAA GACGGTACCT GTAGTGGTGG TCTGCCTTAC TGACGTGCTT 
    TTCTTCCTGG CTGGCGAACA GAAGTATGCG TTCTTCGTGC CTGACAATAA AGCGGGCGTC 
    GTTTCGCTGC AGAAGCTGCT AGTACGCGAG AAGGCCGGCA ACGAATCGCG CGGCATCTAT 
    CTCATCAGCA GCAATCCCAG CGAGCCCGAA ATGTTCGAGC TCAAGGTCAA GGATCCGCGA 
    GACAAGCATC TGTGGGTCAA AGCGATCAGA GCAGCGGTCG AATCGTGCCC GCAAGAGCCC 
    GACAGTGAAA ACTGTAATTT TACCGAGAAC AATATGGTTA ACGAGATGCG GGATGCGCGC 
    TCGCTGTCTC TGTCGAAGAT GTCCCCCGAG GAGAAACTTA GACAAGCCAA AGAAACACAT 
    TTGCAGAATA TAATTGATGA ACTTAAGAAG AAAGATGAGG AGCAAGCATC GCTGTTCGAA 
    CAGAAGATGT ATTTACATAT GAGATTACAC GACGCGATAA GTATGCGCGG TAGTAACGAA 
    AACGACGTGG ATAAAATAGA CAAAGATTAC AAGGAAGTAC CTGACTATTT AAGGTACATC 
    GGAGGTGAAG GAATCAATTT GACAAAGATG TACCAAGAGG CGCGCGAAGC TGTTCAGGAG 
    GCAATGCGAT TGGTCAATTC CTTGTCTTAT GGCGCAGGCG GTGGAACTTT GTCAAGAAGT 
    TTAAGTTCAG CAGGTGAAAG ACACAGCGAT GCTTACGTGC CACCGTCGCT CGCTGTTCCC 
    AGGAGAGCAG AGACCTTTGC TGGCTTTGAT CACAACAAAG AACGCTATCC GTGGCGAGAT 
    TCAGTTGCAT TGAATAACAT GGCACCGCCT ATGCCGAAAA ACGAAGAGGT GAACACCGTT 
    GAACAGGTGG AGGGCAAAGA AGAGGATGAG CTTGACGCCT ATAGAGACCA GCGTGAGGTC 
    GCTGTCAGAA TTTCCCATTA CGTGGATACG CTGCTTTTTA TCATCAGTAA TCAGTTGACA 
    ACAATCGAGA ACTTGCAATC TCAATTAGCA GGTTTCAAAG ACGGTAGCGT AGGTGGCAAA 
    TCGAATAATC GCCCCAACCC GAATCGTCAA CTCGAAGAGC TTCGCAATCT ACAGGACAAA 
    CTGAGTCGCG AGCGAGCTGA ATTTCGCGCA TCCTCGCAGC AAGAGCGTGC CCAGCTCGAG 
    GAGGAGCGAG CTGAGCTCAA CAAGCTACGT AGTCAGCTGT CAGCGGATCA ACGTGACCTC 
    GACAAGCAGC GCGATCAGCT GTATCGCAAA CTGGAGGCGC TGACGCGTCA AGGAGTGTCG 
    CTAACCACGG GTGCACCAGT GCCTGTGGTG ACGCACGGAA CTGGTGACGC TAATCAGAGC 
    TCGTCTTCAT CATCGTCGTC GACATCGCGG AAAAAGTCGC AAACTGACGA GAAGGGCATG 
    ATTCCACAAA ATCTATTCAG TGCCACAAAC CAGCAGAAGG TGCAACAACT GCCCGTAAAG 
    CAGCAACTGC CGCTTAAACT GGCCAGTGGT AGTAATAATA CCAACTCCAG GAGCGGAAGC 
    ATAGTAAGCA ACAACAGTCC GGACCGTCAC TCGCGGACGG GTAGCAGTCC AGCGATAGTA 
    ACGAGCTCTT CGGCCCTATC ATCTCCTGAA CTTGGCACTA GCAGCAATCA CCACAATAAC 
    GGTTCTAGCG CTCTAAGCCA CTTCTCGATG TCGAATCGCT CATTGCGCTA TACGCGTATA 
    CCCGAGCCTT ATCCTCGCAA ACATCACGTA CAACAACAGC AGCAGCAGCA GCAGCAACAG 
    CAGCAGCAAC AGCAGCCACA GCGAGCCGAA CCGCAGCAAC CGCTTGAGGA AGAGGTACTG 
    TTTTTGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    LOC100121921 ( XM_008205668.2 ) cDNA ORF clone, Nasonia vitripennis(jewel wasp) -> XP_008203890.1 Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID ONd06479
    Clone ID Related Accession (Same CDS sequence) XM_008205666.2 , XM_008205667.2 , XM_003425691.3 , XM_003425692.3 , XM_008205668.2 , XM_003425692.4
    Accession Version XM_008205668.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4509bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-05-25
    Organism Nasonia vitripennis(jewel wasp)
    Product rho guanine nucleotide exchange factor 28 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_015869.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On May 26, 2016 this sequence version replaced XM_008205668.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nasonia vitripennis Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGAAAAGC GCAGGGAAGG ACTCGCGCCG TTTTCCTCCG ACGAATGTCC GAACAGCGGG 
    GAGGACAGCG ACGAGGATGT AATAACAGAC TACCTGGGCT CCGCGCAATC GGAGTGTTCA 
    CGCGTGTCTG TCGTTAACGG GGATCACCTC CCCGAGCAGC AGCATCAGTC CGACGCAGCA 
    GTCGCCGGCA ATTATACCAA AGACAGCACC GGTCATCATC AGCAGCAACA TCACCACCAT 
    CCAACGATCG TCATGTCCGA CACGCCGGAA GAGCAACAGC AGCACGGAGC TGGACACCCG 
    ACGGCGACCA GTCCCCTGGT GCCCATCATC AGCGTCACCC CTCACTCGCC TGGACTCGCC 
    GCCAAGCATT ACCCCGTTCT CGAGGAACCT CTGCGTCATC TGCACGAGAT CCACGACAAG 
    ATCAACCAGA TGCGCGACCT GACGCTGGCC CTGGCGAGCC GTACACAGCC GGGCGAGCAC 
    CTGCAGCGTT TCAGCACCTC CTGTCCGTCC CTCTGCCCGA TCATCTCGAT CGACGGCATC 
    GTCCAGTCGT CGTCGTCGGC CGTCGGAGGC CACCACCATC ACCACCACCA TCACCAGCAG 
    CAGCACAGCA GTCAGGAGCA GGATGGCTCG GACCCGGACC TCCTGACCAA CTGCTCGACC 
    AACAGCTCGC CTACGCACTT TCCCGGCACC ATCATGGTTG GCGGCGCTGC TGGACACGCC 
    TGCAGCCAGA TCCTCCAGGG AATCGACAGG CGGCGCAGCT GGACCGACCT CGAGGACTCC 
    AGGCAGCATC GGCGGGGCTC CGATCAGAAT CACCTGCAGG CCCAGAACAT CCGGCAGCGA 
    AGTATCAGCT TGAGCAGTCT CGATAGTGAC ATGGACCTGG AGTTGGATGG CAAATCTCGC 
    GCCAGAGATA CGAGCAACAA AACCCGCACT TCCGTGTCGC AGTCCAGTAC GCATTCGCTG 
    AACGAAGCCG ACTTTGTCCA TCAGAACGAG TTCAAGAAAG TGGTGGTCAA GCGTGGAGGT 
    CAGAGGCTAG GGGAGAACGT CAGCTTGATG CCCGGGGTGA CCGGATCGCG ATTGCCGCTC 
    CAGAAGTCCG TTTCGACACC ATCCATTGTC ATACCGCCGG GCCAGACTCA CCTCACGGAA 
    ACTGGGGCGC GCGTCGCTCC CTCTCTCTCC ACCAGTCGGC ATGAAAGACA CGAAAAGGGT 
    AGTGGAAGTG AGACAGAGAC GGACGATCTT CACATCCCTC ATGGTCATGA ATTTCACGAG 
    GACTTGATGA GAGAGGGCGC GCCGAATAAC CAAGCTTCCC TCGACGAACT CTTGACCGAC 
    ACAGCATATG ACGATCGACA TTCGGAGAAA ACAAAAAGAA AACGAGGTTC ATTATTTTCA 
    AGAAAGAAGA AGGATAAAAG TGGGAAGAAG CCAGCGCAAC AACATCAATG GGCAGCTATA 
    AACGTATCGT CACAGGGAAA CAACAGTTGT GATTTTTGTA TGAAGTCTTT TGCTAGTAAA 
    CCGACTTTAC ACTGCGAAAA TTGCGGCGCC ATAATTCACC AGGCGTGCAA AGACCATTAC 
    CAAGCAGAAT GCACGAAATC GAAGCCCTCA AGCAAATCTT CGTTCAAATC ACTGTCGAGC 
    GTCTCGATAT CGTCGACGAG CAGCATCGTG AAGCGTGGCT CCACGGCTTC GCTGCCGCTG 
    CCAGCGTCGA TCGGTACCGG AAGTCAAACT ATCAATGAGG AGAGAGACGG AGATGGAGGC 
    TCTCATCGCG ATATTTCCAG CGGCTTGGAG GAGTTCGACT TCGACGATAC GCACCAGTTC 
    AGCCTGGACG AGTTCGACGG TCAGCGTCCG GAGCTGGGCC TGGGTCGGGA GGAGCCGGAC 
    TCTTGGAGCG CCTGGATCGG TCGTAAGGTC GCTCTGCGAC TCGTCGACAA CAACGAGCGC 
    GAAGTCAAGC GGCAGGAGCA CATCTACGAG TTCATCCTCA CCGAGAAGCA CCACTGCCTC 
    GTGCTGCTGG CCATGCAGCG GATCTTCGTC GAGGGCCTGC AGCGTCATTT CAATCTTAAC 
    TCCTCGGTCC TCGACCGCAT GTTCCCCAAG CTCCAGAACC TCATGGACAT CCACTTTGAC 
    TTCTTGGCCA AGCTCAGGCA TCGCCAGGCC GAGAACGCGG TTGTCACCAC CATCGCCGAC 
    ATACTGATAG ACCAGTTTTC CGGCGAGAAC TCCTACAATA TGAAGAATGC CTACGGCGAG 
    TTCTGCAGTC GGCACAGGGA CGCGGTCGAC GTCTACAAGC AGCAGCAGCA GATGGACACG 
    AGGTTCGCCA GATTCGTCAG GCACTGTCAG AACAACCCGT TGCTCAAAAA GAAGGGCATC 
    CCCGAGTGCA TACTCTTCGT CACCCAGAGG CTGACCAAGT ATCCGCTGCT GGTCGAGCCG 
    CTGATCAAGA CCGGGGTGAC CACCGAGGAG ACTGACAATC TGCGTAAAGC CCTGAGTCTC 
    GTTAAGGAGA TACTCGGCGA AGTCGATGCC TGCGTCGCCG ACAAAGAGCG GACGGACAGG 
    AAACTGGATA TTTATCACAA AATCGATGCA AAGTCGTACG CTTACTATCG CGGTAAAAAG 
    TTCAAAAAGT CCGATATCTT GGCGTCGAAT CGCAACCTCA AATTTGAAGG CACAGCCTGG 
    CTGCTCCAGG GACGAAGCAA GACGGTACCT GTAGTGGTGG TCTGCCTTAC TGACGTGCTT 
    TTCTTCCTGG CTGGCGAACA GAAGTATGCG TTCTTCGTGC CTGACAATAA AGCGGGCGTC 
    GTTTCGCTGC AGAAGCTGCT AGTACGCGAG AAGGCCGGCA ACGAATCGCG CGGCATCTAT 
    CTCATCAGCA GCAATCCCAG CGAGCCCGAA ATGTTCGAGC TCAAGGTCAA GGATCCGCGA 
    GACAAGCATC TGTGGGTCAA AGCGATCAGA GCAGCGGTCG AATCGTGCCC GCAAGAGCCC 
    GACAGTGAAA ACTGTAATTT TACCGAGAAC AATATGGTTA ACGAGATGCG GGATGCGCGC 
    TCGCTGTCTC TGTCGAAGAT GTCCCCCGAG GAGAAACTTA GACAAGCCAA AGAAACACAT 
    TTGCAGAATA TAATTGATGA ACTTAAGAAG AAAGATGAGG AGCAAGCATC GCTGTTCGAA 
    CAGAAGATGT ATTTACATAT GAGATTACAC GACGCGATAA GTATGCGCGG TAGTAACGAA 
    AACGACGTGG ATAAAATAGA CAAAGATTAC AAGGAAGTAC CTGACTATTT AAGGTACATC 
    GGAGGTGAAG GAATCAATTT GACAAAGATG TACCAAGAGG CGCGCGAAGC TGTTCAGGAG 
    GCAATGCGAT TGGTCAATTC CTTGTCTTAT GGCGCAGGCG GTGGAACTTT GTCAAGAAGT 
    TTAAGTTCAG CAGGTGAAAG ACACAGCGAT GCTTACGTGC CACCGTCGCT CGCTGTTCCC 
    AGGAGAGCAG AGACCTTTGC TGGCTTTGAT CACAACAAAG AACGCTATCC GTGGCGAGAT 
    TCAGTTGCAT TGAATAACAT GGCACCGCCT ATGCCGAAAA ACGAAGAGGT GAACACCGTT 
    GAACAGGTGG AGGGCAAAGA AGAGGATGAG CTTGACGCCT ATAGAGACCA GCGTGAGGTC 
    GCTGTCAGAA TTTCCCATTA CGTGGATACG CTGCTTTTTA TCATCAGTAA TCAGTTGACA 
    ACAATCGAGA ACTTGCAATC TCAATTAGCA GGTTTCAAAG ACGGTAGCGT AGGTGGCAAA 
    TCGAATAATC GCCCCAACCC GAATCGTCAA CTCGAAGAGC TTCGCAATCT ACAGGACAAA 
    CTGAGTCGCG AGCGAGCTGA ATTTCGCGCA TCCTCGCAGC AAGAGCGTGC CCAGCTCGAG 
    GAGGAGCGAG CTGAGCTCAA CAAGCTACGT AGTCAGCTGT CAGCGGATCA ACGTGACCTC 
    GACAAGCAGC GCGATCAGCT GTATCGCAAA CTGGAGGCGC TGACGCGTCA AGGAGTGTCG 
    CTAACCACGG GTGCACCAGT GCCTGTGGTG ACGCACGGAA CTGGTGACGC TAATCAGAGC 
    TCGTCTTCAT CATCGTCGTC GACATCGCGG AAAAAGTCGC AAACTGACGA GAAGGGCATG 
    ATTCCACAAA ATCTATTCAG TGCCACAAAC CAGCAGAAGG TGCAACAACT GCCCGTAAAG 
    CAGCAACTGC CGCTTAAACT GGCCAGTGGT AGTAATAATA CCAACTCCAG GAGCGGAAGC 
    ATAGTAAGCA ACAACAGTCC GGACCGTCAC TCGCGGACGG GTAGCAGTCC AGCGATAGTA 
    ACGAGCTCTT CGGCCCTATC ATCTCCTGAA CTTGGCACTA GCAGCAATCA CCACAATAAC 
    GGTTCTAGCG CTCTAAGCCA CTTCTCGATG TCGAATCGCT CATTGCGCTA TACGCGTATA 
    CCCGAGCCTT ATCCTCGCAA ACATCACGTA CAACAACAGC AGCAGCAGCA GCAGCAACAG 
    CAGCAGCAAC AGCAGCCACA GCGAGCCGAA CCGCAGCAAC CGCTTGAGGA AGAGGTACTG 
    TTTTTGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_008203890.1
    CDS145..4653
    Translation

    Target ORF information:

    RefSeq Version XM_008205668.2
    Organism Nasonia vitripennis(jewel wasp)
    Definition Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008205668.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGAAAAGC GCAGGGAAGG ACTCGCGCCG TTTTCCTCCG ACGAATGTCC GAACAGCGGG 
    GAGGACAGCG ACGAGGATGT AATAACAGAC TACCTGGGCT CCGCGCAATC GGAGTGTTCA 
    CGCGTGTCTG TCGTTAACGG GGATCACCTC CCCGAGCAGC AGCATCAGTC CGACGCAGCA 
    GTCGCCGGCA ATTATACCAA AGACAGCACC GGTCATCATC AGCAGCAACA TCACCACCAT 
    CCAACGATCG TCATGTCCGA CACGCCGGAA GAGCAACAGC AGCACGGAGC TGGACACCCG 
    ACGGCGACCA GTCCCCTGGT GCCCATCATC AGCGTCACCC CTCACTCGCC TGGACTCGCC 
    GCCAAGCATT ACCCCGTTCT CGAGGAACCT CTGCGTCATC TGCACGAGAT CCACGACAAG 
    ATCAACCAGA TGCGCGACCT GACGCTGGCC CTGGCGAGCC GTACACAGCC GGGCGAGCAC 
    CTGCAGCGTT TCAGCACCTC CTGTCCGTCC CTCTGCCCGA TCATCTCGAT CGACGGCATC 
    GTCCAGTCGT CGTCGTCGGC CGTCGGAGGC CACCACCATC ACCACCACCA TCACCAGCAG 
    CAGCACAGCA GTCAGGAGCA GGATGGCTCG GACCCGGACC TCCTGACCAA CTGCTCGACC 
    AACAGCTCGC CTACGCACTT TCCCGGCACC ATCATGGTTG GCGGCGCTGC TGGACACGCC 
    TGCAGCCAGA TCCTCCAGGG AATCGACAGG CGGCGCAGCT GGACCGACCT CGAGGACTCC 
    AGGCAGCATC GGCGGGGCTC CGATCAGAAT CACCTGCAGG CCCAGAACAT CCGGCAGCGA 
    AGTATCAGCT TGAGCAGTCT CGATAGTGAC ATGGACCTGG AGTTGGATGG CAAATCTCGC 
    GCCAGAGATA CGAGCAACAA AACCCGCACT TCCGTGTCGC AGTCCAGTAC GCATTCGCTG 
    AACGAAGCCG ACTTTGTCCA TCAGAACGAG TTCAAGAAAG TGGTGGTCAA GCGTGGAGGT 
    CAGAGGCTAG GGGAGAACGT CAGCTTGATG CCCGGGGTGA CCGGATCGCG ATTGCCGCTC 
    CAGAAGTCCG TTTCGACACC ATCCATTGTC ATACCGCCGG GCCAGACTCA CCTCACGGAA 
    ACTGGGGCGC GCGTCGCTCC CTCTCTCTCC ACCAGTCGGC ATGAAAGACA CGAAAAGGGT 
    AGTGGAAGTG AGACAGAGAC GGACGATCTT CACATCCCTC ATGGTCATGA ATTTCACGAG 
    GACTTGATGA GAGAGGGCGC GCCGAATAAC CAAGCTTCCC TCGACGAACT CTTGACCGAC 
    ACAGCATATG ACGATCGACA TTCGGAGAAA ACAAAAAGAA AACGAGGTTC ATTATTTTCA 
    AGAAAGAAGA AGGATAAAAG TGGGAAGAAG CCAGCGCAAC AACATCAATG GGCAGCTATA 
    AACGTATCGT CACAGGGAAA CAACAGTTGT GATTTTTGTA TGAAGTCTTT TGCTAGTAAA 
    CCGACTTTAC ACTGCGAAAA TTGCGGCGCC ATAATTCACC AGGCGTGCAA AGACCATTAC 
    CAAGCAGAAT GCACGAAATC GAAGCCCTCA AGCAAATCTT CGTTCAAATC ACTGTCGAGC 
    GTCTCGATAT CGTCGACGAG CAGCATCGTG AAGCGTGGCT CCACGGCTTC GCTGCCGCTG 
    CCAGCGTCGA TCGGTACCGG AAGTCAAACT ATCAATGAGG AGAGAGACGG AGATGGAGGC 
    TCTCATCGCG ATATTTCCAG CGGCTTGGAG GAGTTCGACT TCGACGATAC GCACCAGTTC 
    AGCCTGGACG AGTTCGACGG TCAGCGTCCG GAGCTGGGCC TGGGTCGGGA GGAGCCGGAC 
    TCTTGGAGCG CCTGGATCGG TCGTAAGGTC GCTCTGCGAC TCGTCGACAA CAACGAGCGC 
    GAAGTCAAGC GGCAGGAGCA CATCTACGAG TTCATCCTCA CCGAGAAGCA CCACTGCCTC 
    GTGCTGCTGG CCATGCAGCG GATCTTCGTC GAGGGCCTGC AGCGTCATTT CAATCTTAAC 
    TCCTCGGTCC TCGACCGCAT GTTCCCCAAG CTCCAGAACC TCATGGACAT CCACTTTGAC 
    TTCTTGGCCA AGCTCAGGCA TCGCCAGGCC GAGAACGCGG TTGTCACCAC CATCGCCGAC 
    ATACTGATAG ACCAGTTTTC CGGCGAGAAC TCCTACAATA TGAAGAATGC CTACGGCGAG 
    TTCTGCAGTC GGCACAGGGA CGCGGTCGAC GTCTACAAGC AGCAGCAGCA GATGGACACG 
    AGGTTCGCCA GATTCGTCAG GCACTGTCAG AACAACCCGT TGCTCAAAAA GAAGGGCATC 
    CCCGAGTGCA TACTCTTCGT CACCCAGAGG CTGACCAAGT ATCCGCTGCT GGTCGAGCCG 
    CTGATCAAGA CCGGGGTGAC CACCGAGGAG ACTGACAATC TGCGTAAAGC CCTGAGTCTC 
    GTTAAGGAGA TACTCGGCGA AGTCGATGCC TGCGTCGCCG ACAAAGAGCG GACGGACAGG 
    AAACTGGATA TTTATCACAA AATCGATGCA AAGTCGTACG CTTACTATCG CGGTAAAAAG 
    TTCAAAAAGT CCGATATCTT GGCGTCGAAT CGCAACCTCA AATTTGAAGG CACAGCCTGG 
    CTGCTCCAGG GACGAAGCAA GACGGTACCT GTAGTGGTGG TCTGCCTTAC TGACGTGCTT 
    TTCTTCCTGG CTGGCGAACA GAAGTATGCG TTCTTCGTGC CTGACAATAA AGCGGGCGTC 
    GTTTCGCTGC AGAAGCTGCT AGTACGCGAG AAGGCCGGCA ACGAATCGCG CGGCATCTAT 
    CTCATCAGCA GCAATCCCAG CGAGCCCGAA ATGTTCGAGC TCAAGGTCAA GGATCCGCGA 
    GACAAGCATC TGTGGGTCAA AGCGATCAGA GCAGCGGTCG AATCGTGCCC GCAAGAGCCC 
    GACAGTGAAA ACTGTAATTT TACCGAGAAC AATATGGTTA ACGAGATGCG GGATGCGCGC 
    TCGCTGTCTC TGTCGAAGAT GTCCCCCGAG GAGAAACTTA GACAAGCCAA AGAAACACAT 
    TTGCAGAATA TAATTGATGA ACTTAAGAAG AAAGATGAGG AGCAAGCATC GCTGTTCGAA 
    CAGAAGATGT ATTTACATAT GAGATTACAC GACGCGATAA GTATGCGCGG TAGTAACGAA 
    AACGACGTGG ATAAAATAGA CAAAGATTAC AAGGAAGTAC CTGACTATTT AAGGTACATC 
    GGAGGTGAAG GAATCAATTT GACAAAGATG TACCAAGAGG CGCGCGAAGC TGTTCAGGAG 
    GCAATGCGAT TGGTCAATTC CTTGTCTTAT GGCGCAGGCG GTGGAACTTT GTCAAGAAGT 
    TTAAGTTCAG CAGGTGAAAG ACACAGCGAT GCTTACGTGC CACCGTCGCT CGCTGTTCCC 
    AGGAGAGCAG AGACCTTTGC TGGCTTTGAT CACAACAAAG AACGCTATCC GTGGCGAGAT 
    TCAGTTGCAT TGAATAACAT GGCACCGCCT ATGCCGAAAA ACGAAGAGGT GAACACCGTT 
    GAACAGGTGG AGGGCAAAGA AGAGGATGAG CTTGACGCCT ATAGAGACCA GCGTGAGGTC 
    GCTGTCAGAA TTTCCCATTA CGTGGATACG CTGCTTTTTA TCATCAGTAA TCAGTTGACA 
    ACAATCGAGA ACTTGCAATC TCAATTAGCA GGTTTCAAAG ACGGTAGCGT AGGTGGCAAA 
    TCGAATAATC GCCCCAACCC GAATCGTCAA CTCGAAGAGC TTCGCAATCT ACAGGACAAA 
    CTGAGTCGCG AGCGAGCTGA ATTTCGCGCA TCCTCGCAGC AAGAGCGTGC CCAGCTCGAG 
    GAGGAGCGAG CTGAGCTCAA CAAGCTACGT AGTCAGCTGT CAGCGGATCA ACGTGACCTC 
    GACAAGCAGC GCGATCAGCT GTATCGCAAA CTGGAGGCGC TGACGCGTCA AGGAGTGTCG 
    CTAACCACGG GTGCACCAGT GCCTGTGGTG ACGCACGGAA CTGGTGACGC TAATCAGAGC 
    TCGTCTTCAT CATCGTCGTC GACATCGCGG AAAAAGTCGC AAACTGACGA GAAGGGCATG 
    ATTCCACAAA ATCTATTCAG TGCCACAAAC CAGCAGAAGG TGCAACAACT GCCCGTAAAG 
    CAGCAACTGC CGCTTAAACT GGCCAGTGGT AGTAATAATA CCAACTCCAG GAGCGGAAGC 
    ATAGTAAGCA ACAACAGTCC GGACCGTCAC TCGCGGACGG GTAGCAGTCC AGCGATAGTA 
    ACGAGCTCTT CGGCCCTATC ATCTCCTGAA CTTGGCACTA GCAGCAATCA CCACAATAAC 
    GGTTCTAGCG CTCTAAGCCA CTTCTCGATG TCGAATCGCT CATTGCGCTA TACGCGTATA 
    CCCGAGCCTT ATCCTCGCAA ACATCACGTA CAACAACAGC AGCAGCAGCA GCAGCAACAG 
    CAGCAGCAAC AGCAGCCACA GCGAGCCGAA CCGCAGCAAC CGCTTGAGGA AGAGGTACTG 
    TTTTTGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    LOC100121921 ( XM_008205669.2 ) cDNA ORF clone, Nasonia vitripennis(jewel wasp) -> XP_008203891.1 Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID ONd06480
    Clone ID Related Accession (Same CDS sequence) XM_008205669.2 , XM_008205669.3
    Accession Version XM_008205669.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4506bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-05-25
    Organism Nasonia vitripennis(jewel wasp)
    Product rho guanine nucleotide exchange factor 28 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_015869.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On May 26, 2016 this sequence version replaced XM_008205669.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nasonia vitripennis Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGAAAAGC GCAGGGAAGG ACTCGCGCCG TTTTCCTCCG ACGAATGTCC GAACAGCGGG 
    GAGGACAGCG ACGAGGATGT AATAACAGAC TACCTGGGCT CCGCGCAATC GGAGTGTTCA 
    CGCGTGTCTG TCGTTAACGG GGATCACCTC CCCGAGCAGC AGCATCAGTC CGACGCAGCA 
    GTCGCCGGCA ATTATACCAA AGACAGCACC GGTCATCATC AGCAGCAACA TCACCACCAT 
    CCAACGATCG TCATGTCCGA CACGCCGGAA GAGCAACAGC AGCACGGAGC TGGACACCCG 
    ACGGCGACCA GTCCCCTGGT GCCCATCATC AGCGTCACCC CTCACTCGCC TGGACTCGCC 
    GCCAAGCATT ACCCCGTTCT CGAGGAACCT CTGCGTCATC TGCACGAGAT CCACGACAAG 
    ATCAACCAGA TGCGCGACCT GACGCTGGCC CTGGCGAGCC GTACACAGCC GGGCGAGCAC 
    CTGCAGCGTT TCAGCACCTC CTGTCCGTCC CTCTGCCCGA TCATCTCGAT CGACGGCATC 
    GTCCAGTCGT CGTCGTCGGC CGTCGGAGGC CACCACCATC ACCACCACCA TCACCAGCAG 
    CAGCACAGCA GTCAGGAGCA GGATGGCTCG GACCCGGACC TCCTGACCAA CTGCTCGACC 
    AACAGCTCGC CTACGCACTT TCCCGGCACC ATCATGGTTG GCGGCGCTGC TGGACACGCC 
    TGCAGCCAGA TCCTCCAGGG AATCGACAGG CGGCGCAGCT GGACCGACCT CGAGGACTCC 
    AGGCAGCATC GGCGGGGCTC CGATCAGAAT CACCTGCAGG CCCAGAACAT CCGGCAGCGA 
    AGTATCAGCT TGAGCAGTCT CGATAGTGAC ATGGACCTGG AGTTGGATGG CAAATCTCGC 
    GCCAGAGATA CGAGCAACAA AACCCGCACT TCCGTGTCGC AGTCCAGTAC GCATTCGCTG 
    AACGAAGCCG ACTTTGTCCA TCAGAACGAG TTCAAGAAAG TGGTGGTCAA GCGTGGAGGT 
    CAGAGGCTAG GGGAGAACGT CAGCTTGATG CCCGGGGTGA CCGGATCGCG ATTGCCGCTC 
    CAGAAGTCCG TTTCGACACC ATCCATTGTC ATACCGCCGG GCCAGACTCA CCTCACGGAA 
    ACTGGGGCGC GCGTCGCTCC CTCTCTCTCC ACTCGGCATG AAAGACACGA AAAGGGTAGT 
    GGAAGTGAGA CAGAGACGGA CGATCTTCAC ATCCCTCATG GTCATGAATT TCACGAGGAC 
    TTGATGAGAG AGGGCGCGCC GAATAACCAA GCTTCCCTCG ACGAACTCTT GACCGACACA 
    GCATATGACG ATCGACATTC GGAGAAAACA AAAAGAAAAC GAGGTTCATT ATTTTCAAGA 
    AAGAAGAAGG ATAAAAGTGG GAAGAAGCCA GCGCAACAAC ATCAATGGGC AGCTATAAAC 
    GTATCGTCAC AGGGAAACAA CAGTTGTGAT TTTTGTATGA AGTCTTTTGC TAGTAAACCG 
    ACTTTACACT GCGAAAATTG CGGCGCCATA ATTCACCAGG CGTGCAAAGA CCATTACCAA 
    GCAGAATGCA CGAAATCGAA GCCCTCAAGC AAATCTTCGT TCAAATCACT GTCGAGCGTC 
    TCGATATCGT CGACGAGCAG CATCGTGAAG CGTGGCTCCA CGGCTTCGCT GCCGCTGCCA 
    GCGTCGATCG GTACCGGAAG TCAAACTATC AATGAGGAGA GAGACGGAGA TGGAGGCTCT 
    CATCGCGATA TTTCCAGCGG CTTGGAGGAG TTCGACTTCG ACGATACGCA CCAGTTCAGC 
    CTGGACGAGT TCGACGGTCA GCGTCCGGAG CTGGGCCTGG GTCGGGAGGA GCCGGACTCT 
    TGGAGCGCCT GGATCGGTCG TAAGGTCGCT CTGCGACTCG TCGACAACAA CGAGCGCGAA 
    GTCAAGCGGC AGGAGCACAT CTACGAGTTC ATCCTCACCG AGAAGCACCA CTGCCTCGTG 
    CTGCTGGCCA TGCAGCGGAT CTTCGTCGAG GGCCTGCAGC GTCATTTCAA TCTTAACTCC 
    TCGGTCCTCG ACCGCATGTT CCCCAAGCTC CAGAACCTCA TGGACATCCA CTTTGACTTC 
    TTGGCCAAGC TCAGGCATCG CCAGGCCGAG AACGCGGTTG TCACCACCAT CGCCGACATA 
    CTGATAGACC AGTTTTCCGG CGAGAACTCC TACAATATGA AGAATGCCTA CGGCGAGTTC 
    TGCAGTCGGC ACAGGGACGC GGTCGACGTC TACAAGCAGC AGCAGCAGAT GGACACGAGG 
    TTCGCCAGAT TCGTCAGGCA CTGTCAGAAC AACCCGTTGC TCAAAAAGAA GGGCATCCCC 
    GAGTGCATAC TCTTCGTCAC CCAGAGGCTG ACCAAGTATC CGCTGCTGGT CGAGCCGCTG 
    ATCAAGACCG GGGTGACCAC CGAGGAGACT GACAATCTGC GTAAAGCCCT GAGTCTCGTT 
    AAGGAGATAC TCGGCGAAGT CGATGCCTGC GTCGCCGACA AAGAGCGGAC GGACAGGAAA 
    CTGGATATTT ATCACAAAAT CGATGCAAAG TCGTACGCTT ACTATCGCGG TAAAAAGTTC 
    AAAAAGTCCG ATATCTTGGC GTCGAATCGC AACCTCAAAT TTGAAGGCAC AGCCTGGCTG 
    CTCCAGGGAC GAAGCAAGAC GGTACCTGTA GTGGTGGTCT GCCTTACTGA CGTGCTTTTC 
    TTCCTGGCTG GCGAACAGAA GTATGCGTTC TTCGTGCCTG ACAATAAAGC GGGCGTCGTT 
    TCGCTGCAGA AGCTGCTAGT ACGCGAGAAG GCCGGCAACG AATCGCGCGG CATCTATCTC 
    ATCAGCAGCA ATCCCAGCGA GCCCGAAATG TTCGAGCTCA AGGTCAAGGA TCCGCGAGAC 
    AAGCATCTGT GGGTCAAAGC GATCAGAGCA GCGGTCGAAT CGTGCCCGCA AGAGCCCGAC 
    AGTGAAAACT GTAATTTTAC CGAGAACAAT ATGGTTAACG AGATGCGGGA TGCGCGCTCG 
    CTGTCTCTGT CGAAGATGTC CCCCGAGGAG AAACTTAGAC AAGCCAAAGA AACACATTTG 
    CAGAATATAA TTGATGAACT TAAGAAGAAA GATGAGGAGC AAGCATCGCT GTTCGAACAG 
    AAGATGTATT TACATATGAG ATTACACGAC GCGATAAGTA TGCGCGGTAG TAACGAAAAC 
    GACGTGGATA AAATAGACAA AGATTACAAG GAAGTACCTG ACTATTTAAG GTACATCGGA 
    GGTGAAGGAA TCAATTTGAC AAAGATGTAC CAAGAGGCGC GCGAAGCTGT TCAGGAGGCA 
    ATGCGATTGG TCAATTCCTT GTCTTATGGC GCAGGCGGTG GAACTTTGTC AAGAAGTTTA 
    AGTTCAGCAG GTGAAAGACA CAGCGATGCT TACGTGCCAC CGTCGCTCGC TGTTCCCAGG 
    AGAGCAGAGA CCTTTGCTGG CTTTGATCAC AACAAAGAAC GCTATCCGTG GCGAGATTCA 
    GTTGCATTGA ATAACATGGC ACCGCCTATG CCGAAAAACG AAGAGGTGAA CACCGTTGAA 
    CAGGTGGAGG GCAAAGAAGA GGATGAGCTT GACGCCTATA GAGACCAGCG TGAGGTCGCT 
    GTCAGAATTT CCCATTACGT GGATACGCTG CTTTTTATCA TCAGTAATCA GTTGACAACA 
    ATCGAGAACT TGCAATCTCA ATTAGCAGGT TTCAAAGACG GTAGCGTAGG TGGCAAATCG 
    AATAATCGCC CCAACCCGAA TCGTCAACTC GAAGAGCTTC GCAATCTACA GGACAAACTG 
    AGTCGCGAGC GAGCTGAATT TCGCGCATCC TCGCAGCAAG AGCGTGCCCA GCTCGAGGAG 
    GAGCGAGCTG AGCTCAACAA GCTACGTAGT CAGCTGTCAG CGGATCAACG TGACCTCGAC 
    AAGCAGCGCG ATCAGCTGTA TCGCAAACTG GAGGCGCTGA CGCGTCAAGG AGTGTCGCTA 
    ACCACGGGTG CACCAGTGCC TGTGGTGACG CACGGAACTG GTGACGCTAA TCAGAGCTCG 
    TCTTCATCAT CGTCGTCGAC ATCGCGGAAA AAGTCGCAAA CTGACGAGAA GGGCATGATT 
    CCACAAAATC TATTCAGTGC CACAAACCAG CAGAAGGTGC AACAACTGCC CGTAAAGCAG 
    CAACTGCCGC TTAAACTGGC CAGTGGTAGT AATAATACCA ACTCCAGGAG CGGAAGCATA 
    GTAAGCAACA ACAGTCCGGA CCGTCACTCG CGGACGGGTA GCAGTCCAGC GATAGTAACG 
    AGCTCTTCGG CCCTATCATC TCCTGAACTT GGCACTAGCA GCAATCACCA CAATAACGGT 
    TCTAGCGCTC TAAGCCACTT CTCGATGTCG AATCGCTCAT TGCGCTATAC GCGTATACCC 
    GAGCCTTATC CTCGCAAACA TCACGTACAA CAACAGCAGC AGCAGCAGCA GCAACAGCAG 
    CAGCAACAGC AGCCACAGCG AGCCGAACCG CAGCAACCGC TTGAGGAAGA GGTACTGTTT 
    TTGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_008203891.1
    CDS522..5027
    Translation

    Target ORF information:

    RefSeq Version XM_008205669.2
    Organism Nasonia vitripennis(jewel wasp)
    Definition Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008205669.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGAAAAGC GCAGGGAAGG ACTCGCGCCG TTTTCCTCCG ACGAATGTCC GAACAGCGGG 
    GAGGACAGCG ACGAGGATGT AATAACAGAC TACCTGGGCT CCGCGCAATC GGAGTGTTCA 
    CGCGTGTCTG TCGTTAACGG GGATCACCTC CCCGAGCAGC AGCATCAGTC CGACGCAGCA 
    GTCGCCGGCA ATTATACCAA AGACAGCACC GGTCATCATC AGCAGCAACA TCACCACCAT 
    CCAACGATCG TCATGTCCGA CACGCCGGAA GAGCAACAGC AGCACGGAGC TGGACACCCG 
    ACGGCGACCA GTCCCCTGGT GCCCATCATC AGCGTCACCC CTCACTCGCC TGGACTCGCC 
    GCCAAGCATT ACCCCGTTCT CGAGGAACCT CTGCGTCATC TGCACGAGAT CCACGACAAG 
    ATCAACCAGA TGCGCGACCT GACGCTGGCC CTGGCGAGCC GTACACAGCC GGGCGAGCAC 
    CTGCAGCGTT TCAGCACCTC CTGTCCGTCC CTCTGCCCGA TCATCTCGAT CGACGGCATC 
    GTCCAGTCGT CGTCGTCGGC CGTCGGAGGC CACCACCATC ACCACCACCA TCACCAGCAG 
    CAGCACAGCA GTCAGGAGCA GGATGGCTCG GACCCGGACC TCCTGACCAA CTGCTCGACC 
    AACAGCTCGC CTACGCACTT TCCCGGCACC ATCATGGTTG GCGGCGCTGC TGGACACGCC 
    TGCAGCCAGA TCCTCCAGGG AATCGACAGG CGGCGCAGCT GGACCGACCT CGAGGACTCC 
    AGGCAGCATC GGCGGGGCTC CGATCAGAAT CACCTGCAGG CCCAGAACAT CCGGCAGCGA 
    AGTATCAGCT TGAGCAGTCT CGATAGTGAC ATGGACCTGG AGTTGGATGG CAAATCTCGC 
    GCCAGAGATA CGAGCAACAA AACCCGCACT TCCGTGTCGC AGTCCAGTAC GCATTCGCTG 
    AACGAAGCCG ACTTTGTCCA TCAGAACGAG TTCAAGAAAG TGGTGGTCAA GCGTGGAGGT 
    CAGAGGCTAG GGGAGAACGT CAGCTTGATG CCCGGGGTGA CCGGATCGCG ATTGCCGCTC 
    CAGAAGTCCG TTTCGACACC ATCCATTGTC ATACCGCCGG GCCAGACTCA CCTCACGGAA 
    ACTGGGGCGC GCGTCGCTCC CTCTCTCTCC ACTCGGCATG AAAGACACGA AAAGGGTAGT 
    GGAAGTGAGA CAGAGACGGA CGATCTTCAC ATCCCTCATG GTCATGAATT TCACGAGGAC 
    TTGATGAGAG AGGGCGCGCC GAATAACCAA GCTTCCCTCG ACGAACTCTT GACCGACACA 
    GCATATGACG ATCGACATTC GGAGAAAACA AAAAGAAAAC GAGGTTCATT ATTTTCAAGA 
    AAGAAGAAGG ATAAAAGTGG GAAGAAGCCA GCGCAACAAC ATCAATGGGC AGCTATAAAC 
    GTATCGTCAC AGGGAAACAA CAGTTGTGAT TTTTGTATGA AGTCTTTTGC TAGTAAACCG 
    ACTTTACACT GCGAAAATTG CGGCGCCATA ATTCACCAGG CGTGCAAAGA CCATTACCAA 
    GCAGAATGCA CGAAATCGAA GCCCTCAAGC AAATCTTCGT TCAAATCACT GTCGAGCGTC 
    TCGATATCGT CGACGAGCAG CATCGTGAAG CGTGGCTCCA CGGCTTCGCT GCCGCTGCCA 
    GCGTCGATCG GTACCGGAAG TCAAACTATC AATGAGGAGA GAGACGGAGA TGGAGGCTCT 
    CATCGCGATA TTTCCAGCGG CTTGGAGGAG TTCGACTTCG ACGATACGCA CCAGTTCAGC 
    CTGGACGAGT TCGACGGTCA GCGTCCGGAG CTGGGCCTGG GTCGGGAGGA GCCGGACTCT 
    TGGAGCGCCT GGATCGGTCG TAAGGTCGCT CTGCGACTCG TCGACAACAA CGAGCGCGAA 
    GTCAAGCGGC AGGAGCACAT CTACGAGTTC ATCCTCACCG AGAAGCACCA CTGCCTCGTG 
    CTGCTGGCCA TGCAGCGGAT CTTCGTCGAG GGCCTGCAGC GTCATTTCAA TCTTAACTCC 
    TCGGTCCTCG ACCGCATGTT CCCCAAGCTC CAGAACCTCA TGGACATCCA CTTTGACTTC 
    TTGGCCAAGC TCAGGCATCG CCAGGCCGAG AACGCGGTTG TCACCACCAT CGCCGACATA 
    CTGATAGACC AGTTTTCCGG CGAGAACTCC TACAATATGA AGAATGCCTA CGGCGAGTTC 
    TGCAGTCGGC ACAGGGACGC GGTCGACGTC TACAAGCAGC AGCAGCAGAT GGACACGAGG 
    TTCGCCAGAT TCGTCAGGCA CTGTCAGAAC AACCCGTTGC TCAAAAAGAA GGGCATCCCC 
    GAGTGCATAC TCTTCGTCAC CCAGAGGCTG ACCAAGTATC CGCTGCTGGT CGAGCCGCTG 
    ATCAAGACCG GGGTGACCAC CGAGGAGACT GACAATCTGC GTAAAGCCCT GAGTCTCGTT 
    AAGGAGATAC TCGGCGAAGT CGATGCCTGC GTCGCCGACA AAGAGCGGAC GGACAGGAAA 
    CTGGATATTT ATCACAAAAT CGATGCAAAG TCGTACGCTT ACTATCGCGG TAAAAAGTTC 
    AAAAAGTCCG ATATCTTGGC GTCGAATCGC AACCTCAAAT TTGAAGGCAC AGCCTGGCTG 
    CTCCAGGGAC GAAGCAAGAC GGTACCTGTA GTGGTGGTCT GCCTTACTGA CGTGCTTTTC 
    TTCCTGGCTG GCGAACAGAA GTATGCGTTC TTCGTGCCTG ACAATAAAGC GGGCGTCGTT 
    TCGCTGCAGA AGCTGCTAGT ACGCGAGAAG GCCGGCAACG AATCGCGCGG CATCTATCTC 
    ATCAGCAGCA ATCCCAGCGA GCCCGAAATG TTCGAGCTCA AGGTCAAGGA TCCGCGAGAC 
    AAGCATCTGT GGGTCAAAGC GATCAGAGCA GCGGTCGAAT CGTGCCCGCA AGAGCCCGAC 
    AGTGAAAACT GTAATTTTAC CGAGAACAAT ATGGTTAACG AGATGCGGGA TGCGCGCTCG 
    CTGTCTCTGT CGAAGATGTC CCCCGAGGAG AAACTTAGAC AAGCCAAAGA AACACATTTG 
    CAGAATATAA TTGATGAACT TAAGAAGAAA GATGAGGAGC AAGCATCGCT GTTCGAACAG 
    AAGATGTATT TACATATGAG ATTACACGAC GCGATAAGTA TGCGCGGTAG TAACGAAAAC 
    GACGTGGATA AAATAGACAA AGATTACAAG GAAGTACCTG ACTATTTAAG GTACATCGGA 
    GGTGAAGGAA TCAATTTGAC AAAGATGTAC CAAGAGGCGC GCGAAGCTGT TCAGGAGGCA 
    ATGCGATTGG TCAATTCCTT GTCTTATGGC GCAGGCGGTG GAACTTTGTC AAGAAGTTTA 
    AGTTCAGCAG GTGAAAGACA CAGCGATGCT TACGTGCCAC CGTCGCTCGC TGTTCCCAGG 
    AGAGCAGAGA CCTTTGCTGG CTTTGATCAC AACAAAGAAC GCTATCCGTG GCGAGATTCA 
    GTTGCATTGA ATAACATGGC ACCGCCTATG CCGAAAAACG AAGAGGTGAA CACCGTTGAA 
    CAGGTGGAGG GCAAAGAAGA GGATGAGCTT GACGCCTATA GAGACCAGCG TGAGGTCGCT 
    GTCAGAATTT CCCATTACGT GGATACGCTG CTTTTTATCA TCAGTAATCA GTTGACAACA 
    ATCGAGAACT TGCAATCTCA ATTAGCAGGT TTCAAAGACG GTAGCGTAGG TGGCAAATCG 
    AATAATCGCC CCAACCCGAA TCGTCAACTC GAAGAGCTTC GCAATCTACA GGACAAACTG 
    AGTCGCGAGC GAGCTGAATT TCGCGCATCC TCGCAGCAAG AGCGTGCCCA GCTCGAGGAG 
    GAGCGAGCTG AGCTCAACAA GCTACGTAGT CAGCTGTCAG CGGATCAACG TGACCTCGAC 
    AAGCAGCGCG ATCAGCTGTA TCGCAAACTG GAGGCGCTGA CGCGTCAAGG AGTGTCGCTA 
    ACCACGGGTG CACCAGTGCC TGTGGTGACG CACGGAACTG GTGACGCTAA TCAGAGCTCG 
    TCTTCATCAT CGTCGTCGAC ATCGCGGAAA AAGTCGCAAA CTGACGAGAA GGGCATGATT 
    CCACAAAATC TATTCAGTGC CACAAACCAG CAGAAGGTGC AACAACTGCC CGTAAAGCAG 
    CAACTGCCGC TTAAACTGGC CAGTGGTAGT AATAATACCA ACTCCAGGAG CGGAAGCATA 
    GTAAGCAACA ACAGTCCGGA CCGTCACTCG CGGACGGGTA GCAGTCCAGC GATAGTAACG 
    AGCTCTTCGG CCCTATCATC TCCTGAACTT GGCACTAGCA GCAATCACCA CAATAACGGT 
    TCTAGCGCTC TAAGCCACTT CTCGATGTCG AATCGCTCAT TGCGCTATAC GCGTATACCC 
    GAGCCTTATC CTCGCAAACA TCACGTACAA CAACAGCAGC AGCAGCAGCA GCAACAGCAG 
    CAGCAACAGC AGCCACAGCG AGCCGAACCG CAGCAACCGC TTGAGGAAGA GGTACTGTTT 
    TTGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    LOC100121921 ( XM_008205670.2 ) cDNA ORF clone, Nasonia vitripennis(jewel wasp) -> XP_008203892.1 Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID ONd06481
    Clone ID Related Accession (Same CDS sequence) XM_008205670.2
    Accession Version XM_008205670.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4506bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-05-25
    Organism Nasonia vitripennis(jewel wasp)
    Product rho guanine nucleotide exchange factor 28 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_015869.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On May 26, 2016 this sequence version replaced XM_008205670.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nasonia vitripennis Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGAAAAGC GCAGGGAAGG ACTCGCGCCG TTTTCCTCCG ACGAATGTCC GAACAGCGGG 
    GAGGACAGCG ACGAGGATGT AATAACAGAC TACCTGGGCT CCGCGCAATC GGAGTGTTCA 
    CGCGTGTCTG TCGTTAACGG GGATCACCTC CCCGAGCAGC AGCATCAGTC CGACGCAGCA 
    GTCGCCGGCA ATTATACCAA AGACAGCACC GGTCATCATC AGCAGCAACA TCACCACCAT 
    CCAACGATCG TCATGTCCGA CACGCCGGAA GAGCAACAGC AGCACGGAGC TGGACACCCG 
    ACGGCGACCA GTCCCCTGGT GCCCATCATC AGCGTCACCC CTCACTCGCC TGGACTCGCC 
    GCCAAGCATT ACCCCGTTCT CGAGGAACCT CTGCGTCATC TGCACGAGAT CCACGACAAG 
    ATCAACCAGA TGCGCGACCT GACGCTGGCC CTGGCGAGCC GTACACAGCC GGGCGAGCAC 
    CTGCAGCGTT TCAGCACCTC CTGTCCGTCC CTCTGCCCGA TCATCTCGAT CGACGGCATC 
    GTCCAGTCGT CGTCGTCGGC CGTCGGAGGC CACCACCATC ACCACCACCA TCACCAGCAG 
    CAGCACAGCA GTCAGGAGCA GGATGGCTCG GACCCGGACC TCCTGACCAA CTGCTCGACC 
    AACAGCTCGC CTACGCACTT TCCCGGCACC ATCATGGTTG GCGGCGCTGC TGGACACGCC 
    TGCAGCCAGA TCCTCCAGGG AATCGACAGG CGGCGCAGCT GGACCGACCT CGAGGACTCC 
    AGGCAGCATC GGCGGGGCTC CGATCAGAAT CACCTGCAGG CCCAGAACAT CCGGCAGCGA 
    AGTATCAGCT TGAGCAGTCT CGATAGTGAC ATGGACCTGG AGTTGGATGG CAAATCTCGC 
    GCCAGAGATA CGAGCAACAA AACCCGCACT TCCGTGTCGC AGTCCAGTAC GCATTCGCTG 
    AACGAAGCCG ACTTTGTCCA TCAGAACGAG TTCAAGAAAG TGGTGGTCAA GCGTGGAGGT 
    CAGAGGCTAG GGGAGAACGT CAGCTTGATG CCCGGGGTGA CCGGATCGCG ATTGCCGCTC 
    CAGAAGTCCG TTTCGACACC ATCCATTGTC ATACCGCCGG GCCAGACTCA CCTCACGGAA 
    ACTGGGGCGC GCGTCGCTCC CTCTCTCTCC ACCAGTCGGC ATGAAAGACA CGAAAAGGGT 
    AGTGGAAGTG AGACAGAGAC GGACGATCTT CACATCCCTC ATGGTCATGA ATTTCACGAG 
    GACTTGATGA GAGAGGGCGC GCCGAATAAC CAAGCTTCCC TCGACGAACT CTTGACCGAC 
    ACAGCATATG ACGATCGACA TTCGGAGAAA ACAAAAAGAA AACGAGGTTC ATTATTTTCA 
    AGAAAGAAGA AGGATAAAAG TGGGAAGAAG CCAGCGCAAC AACATCAATG GGCAGCTATA 
    AACGTATCGT CACAGGGAAA CAACAGTTGT GATTTTTGTA TGAAGTCTTT TGCTAGTAAA 
    CCGACTTTAC ACTGCGAAAA TTGCGGCGCC ATAATTCACC AGGCGTGCAA AGACCATTAC 
    CAAGCAGAAT GCACGAAATC GAAGCCCTCA AGCAAATCTT CGTTCAAATC ACTGTCGAGC 
    GTCTCGATAT CGTCGACGAG CAGCATCGTG AAGCGTGGCT CCACGGCTTC GCTGCCGCTG 
    CCAGCGTCGA TCGGTACCGG AAGTCAAACT ATCAATGAGG AGAGAGACGG AGATGGAGGC 
    TCTCATCGCG ATATTTCCAG CGGCTTGGAG GAGTTCGACT TCGACGATAC GCACCAGTTC 
    AGCCTGGACG AGTTCGACGG TCAGCGTCCG GAGCTGGGCC TGGGTCGGGA GGAGCCGGAC 
    TCTTGGAGCG CCTGGATCGG TCGTAAGGTC GCTCTGCGAC TCGTCGACAA CAACGAGCGC 
    GAAGTCAAGC GGCAGGAGCA CATCTACGAG TTCATCCTCA CCGAGAAGCA CCACTGCCTC 
    GTGCTGCTGG CCATGCAGCG GATCTTCGTC GAGGGCCTGC AGCGTCATTT CAATCTTAAC 
    TCCTCGGTCC TCGACCGCAT GTTCCCCAAG CTCCAGAACC TCATGGACAT CCACTTTGAC 
    TTCTTGGCCA AGCTCAGGCA TCGCCAGGCC GAGAACGCGG TTGTCACCAC CATCGCCGAC 
    ATACTGATAG ACCAGTTTTC CGGCGAGAAC TCCTACAATA TGAAGAATGC CTACGGCGAG 
    TTCTGCAGTC GGCACAGGGA CGCGGTCGAC GTCTACAAGC AGCAGCAGCA GATGGACACG 
    AGGTTCGCCA GATTCGTCAG GCACTGTCAG AACAACCCGT TGCTCAAAAA GAAGGGCATC 
    CCCGAGTGCA TACTCTTCGT CACCCAGAGG CTGACCAAGT ATCCGCTGCT GGTCGAGCCG 
    CTGATCAAGA CCGGGGTGAC CACCGAGGAG ACTGACAATC TGCGTAAAGC CCTGAGTCTC 
    GTTAAGGAGA TACTCGGCGA AGTCGATGCC TGCGTCGCCG ACAAAGAGCG GACGGACAGG 
    AAACTGGATA TTTATCACAA AATCGATGCA AAGTCGTACG CTTACTATCG CGGTAAAAAG 
    TTCAAAAAGT CCGATATCTT GGCGTCGAAT CGCAACCTCA AATTTGAAGG CACAGCCTGG 
    CTGCTCCAGG GACGAAGCAA GACGGTACCT GTAGTGGTGG TCTGCCTTAC TGACGTGCTT 
    TTCTTCCTGG CTGGCGAACA GAAGTATGCG TTCTTCGTGC CTGACAATAA AGCGGGCGTC 
    GTTTCGCTGC AGAAGCTGCT AGTACGCGAG AAGGCCGGCA ACGAATCGCG CGGCATCTAT 
    CTCATCAGCA GCAATCCCAG CGAGCCCGAA ATGTTCGAGC TCAAGGTCAA GGATCCGCGA 
    GACAAGCATC TGTGGGTCAA AGCGATCAGA GCAGCGGTCG AATCGTGCCC GCAAGAGCCC 
    GACAGTGAAA ACTGTAATTT TACCGAGAAC AATATGGTTA ACGAGATGCG GGATGCGCGC 
    TCGCTGTCTC TGTCGAAGAT GTCCCCCGAG GAGAAACTTA GACAAGCCAA AGAAACACAT 
    TTGCAGAATA TAATTGATGA ACTTAAGAAG AAAGATGAGG AGCAAGCATC GCTGTTCGAA 
    CAGAAGATGT ATTTACATAT GAGATTACAC GACGCGATAA GTATGCGCGG TAGTAACGAA 
    AACGACGTGG ATAAAATAGA CAAAGATTAC AAGGAAGTAC CTGACTATTT AAGGTACATC 
    GGAGGTGAAG GAATCAATTT GACAAAGATG TACCAAGAGG CGCGCGAAGC TGTTCAGGAG 
    GCAATGCGAT TGGTCAATTC CTTGTCTTAT GGCGCAGGCG GTGGAACTTT GTCAAGAAGT 
    TTAAGTTCAG CAGGTGAAAG ACACAGCGAT GCTTACGTGC CACCGTCGCT CGCTGTTCCC 
    AGGAGAGCAG AGACCTTTGC TGGCTTTGAT CACAACAAAG AACGCTATCC GTGGCGAGAT 
    TCAGTTGCAT TGAATAACAT GGCACCGCCT ATGCCGAAAA ACGAAGAGGT GAACACCGTT 
    GAACAGGTGG AGGGCAAAGA AGAGGATGAG CTTGACGCCT ATAGAGACCA GCGTGAGGTC 
    GCTGTCAGAA TTTCCCATTA CGTGGATACG CTGCTTTTTA TCATCAGTAA TCAGTTGACA 
    ACAATCGAGA ACTTGCAATC TCAATTAGGT TTCAAAGACG GTAGCGTAGG TGGCAAATCG 
    AATAATCGCC CCAACCCGAA TCGTCAACTC GAAGAGCTTC GCAATCTACA GGACAAACTG 
    AGTCGCGAGC GAGCTGAATT TCGCGCATCC TCGCAGCAAG AGCGTGCCCA GCTCGAGGAG 
    GAGCGAGCTG AGCTCAACAA GCTACGTAGT CAGCTGTCAG CGGATCAACG TGACCTCGAC 
    AAGCAGCGCG ATCAGCTGTA TCGCAAACTG GAGGCGCTGA CGCGTCAAGG AGTGTCGCTA 
    ACCACGGGTG CACCAGTGCC TGTGGTGACG CACGGAACTG GTGACGCTAA TCAGAGCTCG 
    TCTTCATCAT CGTCGTCGAC ATCGCGGAAA AAGTCGCAAA CTGACGAGAA GGGCATGATT 
    CCACAAAATC TATTCAGTGC CACAAACCAG CAGAAGGTGC AACAACTGCC CGTAAAGCAG 
    CAACTGCCGC TTAAACTGGC CAGTGGTAGT AATAATACCA ACTCCAGGAG CGGAAGCATA 
    GTAAGCAACA ACAGTCCGGA CCGTCACTCG CGGACGGGTA GCAGTCCAGC GATAGTAACG 
    AGCTCTTCGG CCCTATCATC TCCTGAACTT GGCACTAGCA GCAATCACCA CAATAACGGT 
    TCTAGCGCTC TAAGCCACTT CTCGATGTCG AATCGCTCAT TGCGCTATAC GCGTATACCC 
    GAGCCTTATC CTCGCAAACA TCACGTACAA CAACAGCAGC AGCAGCAGCA GCAACAGCAG 
    CAGCAACAGC AGCCACAGCG AGCCGAACCG CAGCAACCGC TTGAGGAAGA GGTACTGTTT 
    TTGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_008203892.1
    CDS522..5027
    Translation

    Target ORF information:

    RefSeq Version XM_008205670.2
    Organism Nasonia vitripennis(jewel wasp)
    Definition Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008205670.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGGAAAAGC GCAGGGAAGG ACTCGCGCCG TTTTCCTCCG ACGAATGTCC GAACAGCGGG 
    GAGGACAGCG ACGAGGATGT AATAACAGAC TACCTGGGCT CCGCGCAATC GGAGTGTTCA 
    CGCGTGTCTG TCGTTAACGG GGATCACCTC CCCGAGCAGC AGCATCAGTC CGACGCAGCA 
    GTCGCCGGCA ATTATACCAA AGACAGCACC GGTCATCATC AGCAGCAACA TCACCACCAT 
    CCAACGATCG TCATGTCCGA CACGCCGGAA GAGCAACAGC AGCACGGAGC TGGACACCCG 
    ACGGCGACCA GTCCCCTGGT GCCCATCATC AGCGTCACCC CTCACTCGCC TGGACTCGCC 
    GCCAAGCATT ACCCCGTTCT CGAGGAACCT CTGCGTCATC TGCACGAGAT CCACGACAAG 
    ATCAACCAGA TGCGCGACCT GACGCTGGCC CTGGCGAGCC GTACACAGCC GGGCGAGCAC 
    CTGCAGCGTT TCAGCACCTC CTGTCCGTCC CTCTGCCCGA TCATCTCGAT CGACGGCATC 
    GTCCAGTCGT CGTCGTCGGC CGTCGGAGGC CACCACCATC ACCACCACCA TCACCAGCAG 
    CAGCACAGCA GTCAGGAGCA GGATGGCTCG GACCCGGACC TCCTGACCAA CTGCTCGACC 
    AACAGCTCGC CTACGCACTT TCCCGGCACC ATCATGGTTG GCGGCGCTGC TGGACACGCC 
    TGCAGCCAGA TCCTCCAGGG AATCGACAGG CGGCGCAGCT GGACCGACCT CGAGGACTCC 
    AGGCAGCATC GGCGGGGCTC CGATCAGAAT CACCTGCAGG CCCAGAACAT CCGGCAGCGA 
    AGTATCAGCT TGAGCAGTCT CGATAGTGAC ATGGACCTGG AGTTGGATGG CAAATCTCGC 
    GCCAGAGATA CGAGCAACAA AACCCGCACT TCCGTGTCGC AGTCCAGTAC GCATTCGCTG 
    AACGAAGCCG ACTTTGTCCA TCAGAACGAG TTCAAGAAAG TGGTGGTCAA GCGTGGAGGT 
    CAGAGGCTAG GGGAGAACGT CAGCTTGATG CCCGGGGTGA CCGGATCGCG ATTGCCGCTC 
    CAGAAGTCCG TTTCGACACC ATCCATTGTC ATACCGCCGG GCCAGACTCA CCTCACGGAA 
    ACTGGGGCGC GCGTCGCTCC CTCTCTCTCC ACCAGTCGGC ATGAAAGACA CGAAAAGGGT 
    AGTGGAAGTG AGACAGAGAC GGACGATCTT CACATCCCTC ATGGTCATGA ATTTCACGAG 
    GACTTGATGA GAGAGGGCGC GCCGAATAAC CAAGCTTCCC TCGACGAACT CTTGACCGAC 
    ACAGCATATG ACGATCGACA TTCGGAGAAA ACAAAAAGAA AACGAGGTTC ATTATTTTCA 
    AGAAAGAAGA AGGATAAAAG TGGGAAGAAG CCAGCGCAAC AACATCAATG GGCAGCTATA 
    AACGTATCGT CACAGGGAAA CAACAGTTGT GATTTTTGTA TGAAGTCTTT TGCTAGTAAA 
    CCGACTTTAC ACTGCGAAAA TTGCGGCGCC ATAATTCACC AGGCGTGCAA AGACCATTAC 
    CAAGCAGAAT GCACGAAATC GAAGCCCTCA AGCAAATCTT CGTTCAAATC ACTGTCGAGC 
    GTCTCGATAT CGTCGACGAG CAGCATCGTG AAGCGTGGCT CCACGGCTTC GCTGCCGCTG 
    CCAGCGTCGA TCGGTACCGG AAGTCAAACT ATCAATGAGG AGAGAGACGG AGATGGAGGC 
    TCTCATCGCG ATATTTCCAG CGGCTTGGAG GAGTTCGACT TCGACGATAC GCACCAGTTC 
    AGCCTGGACG AGTTCGACGG TCAGCGTCCG GAGCTGGGCC TGGGTCGGGA GGAGCCGGAC 
    TCTTGGAGCG CCTGGATCGG TCGTAAGGTC GCTCTGCGAC TCGTCGACAA CAACGAGCGC 
    GAAGTCAAGC GGCAGGAGCA CATCTACGAG TTCATCCTCA CCGAGAAGCA CCACTGCCTC 
    GTGCTGCTGG CCATGCAGCG GATCTTCGTC GAGGGCCTGC AGCGTCATTT CAATCTTAAC 
    TCCTCGGTCC TCGACCGCAT GTTCCCCAAG CTCCAGAACC TCATGGACAT CCACTTTGAC 
    TTCTTGGCCA AGCTCAGGCA TCGCCAGGCC GAGAACGCGG TTGTCACCAC CATCGCCGAC 
    ATACTGATAG ACCAGTTTTC CGGCGAGAAC TCCTACAATA TGAAGAATGC CTACGGCGAG 
    TTCTGCAGTC GGCACAGGGA CGCGGTCGAC GTCTACAAGC AGCAGCAGCA GATGGACACG 
    AGGTTCGCCA GATTCGTCAG GCACTGTCAG AACAACCCGT TGCTCAAAAA GAAGGGCATC 
    CCCGAGTGCA TACTCTTCGT CACCCAGAGG CTGACCAAGT ATCCGCTGCT GGTCGAGCCG 
    CTGATCAAGA CCGGGGTGAC CACCGAGGAG ACTGACAATC TGCGTAAAGC CCTGAGTCTC 
    GTTAAGGAGA TACTCGGCGA AGTCGATGCC TGCGTCGCCG ACAAAGAGCG GACGGACAGG 
    AAACTGGATA TTTATCACAA AATCGATGCA AAGTCGTACG CTTACTATCG CGGTAAAAAG 
    TTCAAAAAGT CCGATATCTT GGCGTCGAAT CGCAACCTCA AATTTGAAGG CACAGCCTGG 
    CTGCTCCAGG GACGAAGCAA GACGGTACCT GTAGTGGTGG TCTGCCTTAC TGACGTGCTT 
    TTCTTCCTGG CTGGCGAACA GAAGTATGCG TTCTTCGTGC CTGACAATAA AGCGGGCGTC 
    GTTTCGCTGC AGAAGCTGCT AGTACGCGAG AAGGCCGGCA ACGAATCGCG CGGCATCTAT 
    CTCATCAGCA GCAATCCCAG CGAGCCCGAA ATGTTCGAGC TCAAGGTCAA GGATCCGCGA 
    GACAAGCATC TGTGGGTCAA AGCGATCAGA GCAGCGGTCG AATCGTGCCC GCAAGAGCCC 
    GACAGTGAAA ACTGTAATTT TACCGAGAAC AATATGGTTA ACGAGATGCG GGATGCGCGC 
    TCGCTGTCTC TGTCGAAGAT GTCCCCCGAG GAGAAACTTA GACAAGCCAA AGAAACACAT 
    TTGCAGAATA TAATTGATGA ACTTAAGAAG AAAGATGAGG AGCAAGCATC GCTGTTCGAA 
    CAGAAGATGT ATTTACATAT GAGATTACAC GACGCGATAA GTATGCGCGG TAGTAACGAA 
    AACGACGTGG ATAAAATAGA CAAAGATTAC AAGGAAGTAC CTGACTATTT AAGGTACATC 
    GGAGGTGAAG GAATCAATTT GACAAAGATG TACCAAGAGG CGCGCGAAGC TGTTCAGGAG 
    GCAATGCGAT TGGTCAATTC CTTGTCTTAT GGCGCAGGCG GTGGAACTTT GTCAAGAAGT 
    TTAAGTTCAG CAGGTGAAAG ACACAGCGAT GCTTACGTGC CACCGTCGCT CGCTGTTCCC 
    AGGAGAGCAG AGACCTTTGC TGGCTTTGAT CACAACAAAG AACGCTATCC GTGGCGAGAT 
    TCAGTTGCAT TGAATAACAT GGCACCGCCT ATGCCGAAAA ACGAAGAGGT GAACACCGTT 
    GAACAGGTGG AGGGCAAAGA AGAGGATGAG CTTGACGCCT ATAGAGACCA GCGTGAGGTC 
    GCTGTCAGAA TTTCCCATTA CGTGGATACG CTGCTTTTTA TCATCAGTAA TCAGTTGACA 
    ACAATCGAGA ACTTGCAATC TCAATTAGGT TTCAAAGACG GTAGCGTAGG TGGCAAATCG 
    AATAATCGCC CCAACCCGAA TCGTCAACTC GAAGAGCTTC GCAATCTACA GGACAAACTG 
    AGTCGCGAGC GAGCTGAATT TCGCGCATCC TCGCAGCAAG AGCGTGCCCA GCTCGAGGAG 
    GAGCGAGCTG AGCTCAACAA GCTACGTAGT CAGCTGTCAG CGGATCAACG TGACCTCGAC 
    AAGCAGCGCG ATCAGCTGTA TCGCAAACTG GAGGCGCTGA CGCGTCAAGG AGTGTCGCTA 
    ACCACGGGTG CACCAGTGCC TGTGGTGACG CACGGAACTG GTGACGCTAA TCAGAGCTCG 
    TCTTCATCAT CGTCGTCGAC ATCGCGGAAA AAGTCGCAAA CTGACGAGAA GGGCATGATT 
    CCACAAAATC TATTCAGTGC CACAAACCAG CAGAAGGTGC AACAACTGCC CGTAAAGCAG 
    CAACTGCCGC TTAAACTGGC CAGTGGTAGT AATAATACCA ACTCCAGGAG CGGAAGCATA 
    GTAAGCAACA ACAGTCCGGA CCGTCACTCG CGGACGGGTA GCAGTCCAGC GATAGTAACG 
    AGCTCTTCGG CCCTATCATC TCCTGAACTT GGCACTAGCA GCAATCACCA CAATAACGGT 
    TCTAGCGCTC TAAGCCACTT CTCGATGTCG AATCGCTCAT TGCGCTATAC GCGTATACCC 
    GAGCCTTATC CTCGCAAACA TCACGTACAA CAACAGCAGC AGCAGCAGCA GCAACAGCAG 
    CAGCAACAGC AGCCACAGCG AGCCGAACCG CAGCAACCGC TTGAGGAAGA GGTACTGTTT 
    TTGTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    LOC100121921 ( XM_016983795.1 ) cDNA ORF clone, Nasonia vitripennis(jewel wasp) -> XP_016839284.1 Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID ONd23576
    Clone ID Related Accession (Same CDS sequence) XM_016983795.1
    Accession Version XM_016983795.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4362bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-05-25
    Organism Nasonia vitripennis(jewel wasp)
    Product rho guanine nucleotide exchange factor 28 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_015869.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nasonia vitripennis Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGAAAAGC GCAGGGAAGG ACTCGCGCCG TTTTCCTCCG ACGAATGTCC GAACAGCGGG 
    GAGGACAGCG ACGAGGATGT AATAACAGAC TACCTGGGCT CCGCGCAATC GGAGTGTTCA 
    CGCGTGTCTG TCGTTAACGG GGATCACCTC CCCGAGCAGC AGCATCAGTC CGACGCAGCA 
    GTCGCCGGCA ATTATACCAA AGACAGCACC GGTCATCATC AGCAGCAACA TCACCACCAT 
    CCAACGATCG TCATGTCCGA CACGCCGGAA GAGCAACAGC AGCACGGAGC TGGACACCCG 
    ACGGCGACCA GTCCCCTGGT GCCCATCATC AGCGTCACCC CTCACTCGCC TGGACTCGCC 
    GCCAAGCATT ACCCCGTTCT CGAGGAACCT CTGCGTCATC TGCACGAGAT CCACGACAAG 
    ATCAACCAGA TGCGCGACCT GACGCTGGCC CTGGCGAGCC GTACACAGCC GGGCGAGCAC 
    CTGCAGCGTT TCAGCACCTC CTGTCCGTCC CTCTGCCCGA TCATCTCGAT CGACGGCATC 
    GTCCAGTCGT CGTCGTCGGC CGTCGGAGGC CACCACCATC ACCACCACCA TCACCAGCAG 
    CAGCACAGCA GTCAGGAGCA GGATGGCTCG GACCCGGACC TCCTGACCAA CTGCTCGACC 
    AACAGCTCGC CTACGCACTT TCCCGGCACC ATCATGGTTG GCGGCGCTGC TGGACACGCC 
    TGCAGCCAGA TCCTCCAGGG AATCGACAGG CGGCGCAGCT GGACCGACCT CGAGGACTCC 
    AGGCAGCATC GGCGGGGCTC CGATCAGAAT CACCTGCAGG CCCAGAACAT CCGGCAGCGA 
    AGTATCAGCT TGAGCAGTCT CGATAGTGAC ATGGACCTGG AGTTGGATGG CAAATCTCGC 
    GCCAGAGATA CGAGCAACAA AACCCGCACT TCCGTGTCGC AGTCCAGTAC GCATTCGCTG 
    AACGAAGCCG ACTTTGTCCA TCAGAACGAG TTCAAGAAAG TGGTGGTCAA GCGTGGAGGT 
    CAGAGGCTAG GGGAGAACGT CAGCTTGATG CCCGGGGTGA CCGGATCGCG ATTGCCGCTC 
    CAGAAGTCCG TTTCGACACC ATCCATTGTC ATACCGCCGG GCCAGACTCA CCTCACGGAA 
    ACTGGGGCGC GCGTCGCTCC CTCTCTCTCC ACCACAGCAT ATGACGATCG ACATTCGGAG 
    AAAACAAAAA GAAAACGAGG TTCATTATTT TCAAGAAAGA AGAAGGATAA AAGTGGGAAG 
    AAGCCAGCGC AACAACATCA ATGGGCAGCT ATAAACGTAT CGTCACAGGG AAACAACAGT 
    TGTGATTTTT GTATGAAGTC TTTTGCTAGT AAACCGACTT TACACTGCGA AAATTGCGGC 
    GCCATAATTC ACCAGGCGTG CAAAGACCAT TACCAAGCAG AATGCACGAA ATCGAAGCCC 
    TCAAGCAAAT CTTCGTTCAA ATCACTGTCG AGCGTCTCGA TATCGTCGAC GAGCAGCATC 
    GTGAAGCGTG GCTCCACGGC TTCGCTGCCG CTGCCAGCGT CGATCGGTAC CGGAAGTCAA 
    ACTATCAATG AGGAGAGAGA CGGAGATGGA GGCTCTCATC GCGATATTTC CAGCGGCTTG 
    GAGGAGTTCG ACTTCGACGA TACGCACCAG TTCAGCCTGG ACGAGTTCGA CGGTCAGCGT 
    CCGGAGCTGG GCCTGGGTCG GGAGGAGCCG GACTCTTGGA GCGCCTGGAT CGGTCGTAAG 
    GTCGCTCTGC GACTCGTCGA CAACAACGAG CGCGAAGTCA AGCGGCAGGA GCACATCTAC 
    GAGTTCATCC TCACCGAGAA GCACCACTGC CTCGTGCTGC TGGCCATGCA GCGGATCTTC 
    GTCGAGGGCC TGCAGCGTCA TTTCAATCTT AACTCCTCGG TCCTCGACCG CATGTTCCCC 
    AAGCTCCAGA ACCTCATGGA CATCCACTTT GACTTCTTGG CCAAGCTCAG GCATCGCCAG 
    GCCGAGAACG CGGTTGTCAC CACCATCGCC GACATACTGA TAGACCAGTT TTCCGGCGAG 
    AACTCCTACA ATATGAAGAA TGCCTACGGC GAGTTCTGCA GTCGGCACAG GGACGCGGTC 
    GACGTCTACA AGCAGCAGCA GCAGATGGAC ACGAGGTTCG CCAGATTCGT CAGGCACTGT 
    CAGAACAACC CGTTGCTCAA AAAGAAGGGC ATCCCCGAGT GCATACTCTT CGTCACCCAG 
    AGGCTGACCA AGTATCCGCT GCTGGTCGAG CCGCTGATCA AGACCGGGGT GACCACCGAG 
    GAGACTGACA ATCTGCGTAA AGCCCTGAGT CTCGTTAAGG AGATACTCGG CGAAGTCGAT 
    GCCTGCGTCG CCGACAAAGA GCGGACGGAC AGGAAACTGG ATATTTATCA CAAAATCGAT 
    GCAAAGTCGT ACGCTTACTA TCGCGGTAAA AAGTTCAAAA AGTCCGATAT CTTGGCGTCG 
    AATCGCAACC TCAAATTTGA AGGCACAGCC TGGCTGCTCC AGGGACGAAG CAAGACGGTA 
    CCTGTAGTGG TGGTCTGCCT TACTGACGTG CTTTTCTTCC TGGCTGGCGA ACAGAAGTAT 
    GCGTTCTTCG TGCCTGACAA TAAAGCGGGC GTCGTTTCGC TGCAGAAGCT GCTAGTACGC 
    GAGAAGGCCG GCAACGAATC GCGCGGCATC TATCTCATCA GCAGCAATCC CAGCGAGCCC 
    GAAATGTTCG AGCTCAAGGT CAAGGATCCG CGAGACAAGC ATCTGTGGGT CAAAGCGATC 
    AGAGCAGCGG TCGAATCGTG CCCGCAAGAG CCCGACAGTG AAAACTGTAA TTTTACCGAG 
    AACAATATGG TTAACGAGAT GCGGGATGCG CGCTCGCTGT CTCTGTCGAA GATGTCCCCC 
    GAGGAGAAAC TTAGACAAGC CAAAGAAACA CATTTGCAGA ATATAATTGA TGAACTTAAG 
    AAGAAAGATG AGGAGCAAGC ATCGCTGTTC GAACAGAAGA TGTATTTACA TATGAGATTA 
    CACGACGCGA TAAGTATGCG CGGTAGTAAC GAAAACGACG TGGATAAAAT AGACAAAGAT 
    TACAAGGAAG TACCTGACTA TTTAAGGTAC ATCGGAGGTG AAGGAATCAA TTTGACAAAG 
    ATGTACCAAG AGGCGCGCGA AGCTGTTCAG GAGGCAATGC GATTGGTCAA TTCCTTGTCT 
    TATGGCGCAG GCGGTGGAAC TTTGTCAAGA AGTTTAAGTT CAGCAGGTGA AAGACACAGC 
    GATGCTTACG TGCCACCGTC GCTCGCTGTT CCCAGGAGAG CAGAGACCTT TGCTGGCTTT 
    GATCACAACA AAGAACGCTA TCCGTGGCGA GATTCAGTTG CATTGAATAA CATGGCACCG 
    CCTATGCCGA AAAACGAAGA GGTGAACACC GTTGAACAGG TGGAGGGCAA AGAAGAGGAT 
    GAGCTTGACG CCTATAGAGA CCAGCGTGAG GTCGCTGTCA GAATTTCCCA TTACGTGGAT 
    ACGCTGCTTT TTATCATCAG TAATCAGTTG ACAACAATCG AGAACTTGCA ATCTCAATTA 
    GCAGGTTTCA AAGACGGTAG CGTAGGTGGC AAATCGAATA ATCGCCCCAA CCCGAATCGT 
    CAACTCGAAG AGCTTCGCAA TCTACAGGAC AAACTGAGTC GCGAGCGAGC TGAATTTCGC 
    GCATCCTCGC AGCAAGAGCG TGCCCAGCTC GAGGAGGAGC GAGCTGAGCT CAACAAGCTA 
    CGTAGTCAGC TGTCAGCGGA TCAACGTGAC CTCGACAAGC AGCGCGATCA GCTGTATCGC 
    AAACTGGAGG CGCTGACGCG TCAAGGAGTG TCGCTAACCA CGGGTGCACC AGTGCCTGTG 
    GTGACGCACG GAACTGGTGA CGCTAATCAG AGCTCGTCTT CATCATCGTC GTCGACATCG 
    CGGAAAAAGT CGCAAACTGA CGAGAAGGGC ATGATTCCAC AAAATCTATT CAGTGCCACA 
    AACCAGCAGA AGGTGCAACA ACTGCCCGTA AAGCAGCAAC TGCCGCTTAA ACTGGCCAGT 
    GGTAGTAATA ATACCAACTC CAGGAGCGGA AGCATAGTAA GCAACAACAG TCCGGACCGT 
    CACTCGCGGA CGGGTAGCAG TCCAGCGATA GTAACGAGCT CTTCGGCCCT ATCATCTCCT 
    GAACTTGGCA CTAGCAGCAA TCACCACAAT AACGGTTCTA GCGCTCTAAG CCACTTCTCG 
    ATGTCGAATC GCTCATTGCG CTATACGCGT ATACCCGAGC CTTATCCTCG CAAACATCAC 
    GTACAACAAC AGCAGCAGCA GCAGCAGCAA CAGCAGCAGC AACAGCAGCC ACAGCGAGCC 
    GAACCGCAGC AACCGCTTGA GGAAGAGGTA CTGTTTTTGT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_016839284.1
    CDS521..4882
    Translation

    Target ORF information:

    RefSeq Version XM_016983795.1
    Organism Nasonia vitripennis(jewel wasp)
    Definition Nasonia vitripennis rho guanine nucleotide exchange factor 28 (LOC100121921), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_016983795.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGGAAAAGC GCAGGGAAGG ACTCGCGCCG TTTTCCTCCG ACGAATGTCC GAACAGCGGG 
    GAGGACAGCG ACGAGGATGT AATAACAGAC TACCTGGGCT CCGCGCAATC GGAGTGTTCA 
    CGCGTGTCTG TCGTTAACGG GGATCACCTC CCCGAGCAGC AGCATCAGTC CGACGCAGCA 
    GTCGCCGGCA ATTATACCAA AGACAGCACC GGTCATCATC AGCAGCAACA TCACCACCAT 
    CCAACGATCG TCATGTCCGA CACGCCGGAA GAGCAACAGC AGCACGGAGC TGGACACCCG 
    ACGGCGACCA GTCCCCTGGT GCCCATCATC AGCGTCACCC CTCACTCGCC TGGACTCGCC 
    GCCAAGCATT ACCCCGTTCT CGAGGAACCT CTGCGTCATC TGCACGAGAT CCACGACAAG 
    ATCAACCAGA TGCGCGACCT GACGCTGGCC CTGGCGAGCC GTACACAGCC GGGCGAGCAC 
    CTGCAGCGTT TCAGCACCTC CTGTCCGTCC CTCTGCCCGA TCATCTCGAT CGACGGCATC 
    GTCCAGTCGT CGTCGTCGGC CGTCGGAGGC CACCACCATC ACCACCACCA TCACCAGCAG 
    CAGCACAGCA GTCAGGAGCA GGATGGCTCG GACCCGGACC TCCTGACCAA CTGCTCGACC 
    AACAGCTCGC CTACGCACTT TCCCGGCACC ATCATGGTTG GCGGCGCTGC TGGACACGCC 
    TGCAGCCAGA TCCTCCAGGG AATCGACAGG CGGCGCAGCT GGACCGACCT CGAGGACTCC 
    AGGCAGCATC GGCGGGGCTC CGATCAGAAT CACCTGCAGG CCCAGAACAT CCGGCAGCGA 
    AGTATCAGCT TGAGCAGTCT CGATAGTGAC ATGGACCTGG AGTTGGATGG CAAATCTCGC 
    GCCAGAGATA CGAGCAACAA AACCCGCACT TCCGTGTCGC AGTCCAGTAC GCATTCGCTG 
    AACGAAGCCG ACTTTGTCCA TCAGAACGAG TTCAAGAAAG TGGTGGTCAA GCGTGGAGGT 
    CAGAGGCTAG GGGAGAACGT CAGCTTGATG CCCGGGGTGA CCGGATCGCG ATTGCCGCTC 
    CAGAAGTCCG TTTCGACACC ATCCATTGTC ATACCGCCGG GCCAGACTCA CCTCACGGAA 
    ACTGGGGCGC GCGTCGCTCC CTCTCTCTCC ACCACAGCAT ATGACGATCG ACATTCGGAG 
    AAAACAAAAA GAAAACGAGG TTCATTATTT TCAAGAAAGA AGAAGGATAA AAGTGGGAAG 
    AAGCCAGCGC AACAACATCA ATGGGCAGCT ATAAACGTAT CGTCACAGGG AAACAACAGT 
    TGTGATTTTT GTATGAAGTC TTTTGCTAGT AAACCGACTT TACACTGCGA AAATTGCGGC 
    GCCATAATTC ACCAGGCGTG CAAAGACCAT TACCAAGCAG AATGCACGAA ATCGAAGCCC 
    TCAAGCAAAT CTTCGTTCAA ATCACTGTCG AGCGTCTCGA TATCGTCGAC GAGCAGCATC 
    GTGAAGCGTG GCTCCACGGC TTCGCTGCCG CTGCCAGCGT CGATCGGTAC CGGAAGTCAA 
    ACTATCAATG AGGAGAGAGA CGGAGATGGA GGCTCTCATC GCGATATTTC CAGCGGCTTG 
    GAGGAGTTCG ACTTCGACGA TACGCACCAG TTCAGCCTGG ACGAGTTCGA CGGTCAGCGT 
    CCGGAGCTGG GCCTGGGTCG GGAGGAGCCG GACTCTTGGA GCGCCTGGAT CGGTCGTAAG 
    GTCGCTCTGC GACTCGTCGA CAACAACGAG CGCGAAGTCA AGCGGCAGGA GCACATCTAC 
    GAGTTCATCC TCACCGAGAA GCACCACTGC CTCGTGCTGC TGGCCATGCA GCGGATCTTC 
    GTCGAGGGCC TGCAGCGTCA TTTCAATCTT AACTCCTCGG TCCTCGACCG CATGTTCCCC 
    AAGCTCCAGA ACCTCATGGA CATCCACTTT GACTTCTTGG CCAAGCTCAG GCATCGCCAG 
    GCCGAGAACG CGGTTGTCAC CACCATCGCC GACATACTGA TAGACCAGTT TTCCGGCGAG 
    AACTCCTACA ATATGAAGAA TGCCTACGGC GAGTTCTGCA GTCGGCACAG GGACGCGGTC 
    GACGTCTACA AGCAGCAGCA GCAGATGGAC ACGAGGTTCG CCAGATTCGT CAGGCACTGT 
    CAGAACAACC CGTTGCTCAA AAAGAAGGGC ATCCCCGAGT GCATACTCTT CGTCACCCAG 
    AGGCTGACCA AGTATCCGCT GCTGGTCGAG CCGCTGATCA AGACCGGGGT GACCACCGAG 
    GAGACTGACA ATCTGCGTAA AGCCCTGAGT CTCGTTAAGG AGATACTCGG CGAAGTCGAT 
    GCCTGCGTCG CCGACAAAGA GCGGACGGAC AGGAAACTGG ATATTTATCA CAAAATCGAT 
    GCAAAGTCGT ACGCTTACTA TCGCGGTAAA AAGTTCAAAA AGTCCGATAT CTTGGCGTCG 
    AATCGCAACC TCAAATTTGA AGGCACAGCC TGGCTGCTCC AGGGACGAAG CAAGACGGTA 
    CCTGTAGTGG TGGTCTGCCT TACTGACGTG CTTTTCTTCC TGGCTGGCGA ACAGAAGTAT 
    GCGTTCTTCG TGCCTGACAA TAAAGCGGGC GTCGTTTCGC TGCAGAAGCT GCTAGTACGC 
    GAGAAGGCCG GCAACGAATC GCGCGGCATC TATCTCATCA GCAGCAATCC CAGCGAGCCC 
    GAAATGTTCG AGCTCAAGGT CAAGGATCCG CGAGACAAGC ATCTGTGGGT CAAAGCGATC 
    AGAGCAGCGG TCGAATCGTG CCCGCAAGAG CCCGACAGTG AAAACTGTAA TTTTACCGAG 
    AACAATATGG TTAACGAGAT GCGGGATGCG CGCTCGCTGT CTCTGTCGAA GATGTCCCCC 
    GAGGAGAAAC TTAGACAAGC CAAAGAAACA CATTTGCAGA ATATAATTGA TGAACTTAAG 
    AAGAAAGATG AGGAGCAAGC ATCGCTGTTC GAACAGAAGA TGTATTTACA TATGAGATTA 
    CACGACGCGA TAAGTATGCG CGGTAGTAAC GAAAACGACG TGGATAAAAT AGACAAAGAT 
    TACAAGGAAG TACCTGACTA TTTAAGGTAC ATCGGAGGTG AAGGAATCAA TTTGACAAAG 
    ATGTACCAAG AGGCGCGCGA AGCTGTTCAG GAGGCAATGC GATTGGTCAA TTCCTTGTCT 
    TATGGCGCAG GCGGTGGAAC TTTGTCAAGA AGTTTAAGTT CAGCAGGTGA AAGACACAGC 
    GATGCTTACG TGCCACCGTC GCTCGCTGTT CCCAGGAGAG CAGAGACCTT TGCTGGCTTT 
    GATCACAACA AAGAACGCTA TCCGTGGCGA GATTCAGTTG CATTGAATAA CATGGCACCG 
    CCTATGCCGA AAAACGAAGA GGTGAACACC GTTGAACAGG TGGAGGGCAA AGAAGAGGAT 
    GAGCTTGACG CCTATAGAGA CCAGCGTGAG GTCGCTGTCA GAATTTCCCA TTACGTGGAT 
    ACGCTGCTTT TTATCATCAG TAATCAGTTG ACAACAATCG AGAACTTGCA ATCTCAATTA 
    GCAGGTTTCA AAGACGGTAG CGTAGGTGGC AAATCGAATA ATCGCCCCAA CCCGAATCGT 
    CAACTCGAAG AGCTTCGCAA TCTACAGGAC AAACTGAGTC GCGAGCGAGC TGAATTTCGC 
    GCATCCTCGC AGCAAGAGCG TGCCCAGCTC GAGGAGGAGC GAGCTGAGCT CAACAAGCTA 
    CGTAGTCAGC TGTCAGCGGA TCAACGTGAC CTCGACAAGC AGCGCGATCA GCTGTATCGC 
    AAACTGGAGG CGCTGACGCG TCAAGGAGTG TCGCTAACCA CGGGTGCACC AGTGCCTGTG 
    GTGACGCACG GAACTGGTGA CGCTAATCAG AGCTCGTCTT CATCATCGTC GTCGACATCG 
    CGGAAAAAGT CGCAAACTGA CGAGAAGGGC ATGATTCCAC AAAATCTATT CAGTGCCACA 
    AACCAGCAGA AGGTGCAACA ACTGCCCGTA AAGCAGCAAC TGCCGCTTAA ACTGGCCAGT 
    GGTAGTAATA ATACCAACTC CAGGAGCGGA AGCATAGTAA GCAACAACAG TCCGGACCGT 
    CACTCGCGGA CGGGTAGCAG TCCAGCGATA GTAACGAGCT CTTCGGCCCT ATCATCTCCT 
    GAACTTGGCA CTAGCAGCAA TCACCACAAT AACGGTTCTA GCGCTCTAAG CCACTTCTCG 
    ATGTCGAATC GCTCATTGCG CTATACGCGT ATACCCGAGC CTTATCCTCG CAAACATCAC 
    GTACAACAAC AGCAGCAGCA GCAGCAGCAA CAGCAGCAGC AACAGCAGCC ACAGCGAGCC 
    GAACCGCAGC AACCGCTTGA GGAAGAGGTA CTGTTTTTGT GA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

REQUEST A QUOTE

EMAIL

[email protected]

PHONE

1-877-436-7274

ONLINE FORM

Online Quote Submission

ONLINE FORM

Online Quote Submission

FAX

1-732-210-0262