ORF » Species Summary » Atta colombica » LOC108684848 cDNA ORF clone

LOC108684848 cDNA ORF clone, Atta colombica

The following LOC108684848 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC108684848 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
OAt82492 XM_018189377.1
Latest version!		 Atta colombica splicing factor, arginine/serine-rich 15 (LOC108684848), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
OAt82493 XM_018189378.1
Latest version!		 Atta colombica splicing factor, arginine/serine-rich 15 (LOC108684848), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00

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** 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)
    LOC108684848 ( XM_018189377.1 ) cDNA ORF clone, Atta colombica -> XP_018044866.1 Atta colombica splicing factor, arginine/serine-rich 15 (LOC108684848), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OAt82492
    Clone ID Related Accession (Same CDS sequence) XM_018189377.1
    Accession Version XM_018189377.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4773bp)
    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 2016-09-18
    Organism Atta colombica
    Product splicing factor, arginine/serine-rich 15 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017259229.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Atta colombica Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 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
    4621
    4681
    4741
    ATGGAGGCGG TGAAGGCGTT TAACGCGGAG CTCTCTGCTC TTTATGATGT CAAACCCCCA 
    ATCTCGAAAG CCAAAATGAA TTCGCTTACA CGGGGAGCCA TCAAAGCAAT AAAATTCTAC 
    AAGCATGTTG TACAAAGCGT AGAAAAATTT ATTCAAAAAT GCAAGCCGGA GTACAAAGTA 
    CCAGGATTGT ATGTAATAGA TTCAATTGTT CGACAGTCCC GACATCAGTT TGGGATGGAG 
    AAAGATGTGT TCGCTCCACG ATTTGCAAAA AATATGCAGA CTACCTTTCT TAATCTTTTA 
    AAGTGCCCGC AAGAAGACAA GAGCAAAGTT ATACGTGTAT TAAATCTTTG GCAAAAGAAT 
    GCAGTTTTTC CACCAGAAGT TATTCAACCA CTTTTTGATC TAGCAGATCC GAATCATCCT 
    ATACATAAAG AACAGCCAGT AAATAGCAAT GGTACATTAA ATGCATCATC TGGAAGTAAT 
    CTGAGTAATG TAAGTGCAGT CACAAAAACT CCGCCATCTA CAATTAAAAA CGCTGCAAAG 
    GATCCCAAAC TATTTCCATC TGGAAAAACG ATTGATCCAG TATGGCTTGC ACAAACAAAA 
    ATGGAAGCAG CAGTCAACGC AAACAAACTT TTGAATCAGT CCAATTCCGG TCAAGTGGAT 
    TCCTCTTTTT TCGATCAATT ACAACATTTA CAGCAATTAC TTATGAAAAA GGACGTTACA 
    AATGAACCAA AGAGTTCTGT CAAGTTTGAT AAAAAGTTGT TAGACTTTGA TTACGGAGAA 
    GAAGAAGATG ACGACGTCGT TGTTACTAAT TCTCCAAGCA CAGCTGCCTC AGCAAATACA 
    CAGCACAATA CAGTTTCAGC AAACAGCAGT TTAGAAAGTC TTGGACTATT GCTTGCAAAT 
    CCAGAGGTTA TGAGACAATT ACAAACTTTA CAACAAACCA TGCAAAGTAA TGCAACCTCT 
    TCACTCGAAA TGGAAGAAAA AATGCGCAAG TTGCAACAAA TGAAACAACA AGAAGAAGAA 
    TTTGATAAGC ATTTAGCACA AACTGTTCCT AATCTTCCAT TTGCAGCTGA ATGCGATTTA 
    AAACCTTCTG ATATTTTGAA ACCAAGCACA CAAAATTATG CATCAAATAT GAACAGTAAT 
    GTGATGCAAG ATATGAGTCA GCCACCACCT GGTTATCCAC CAGCTATGTC GTATTCTTCC 
    CAGTCTTTAT CGAACATTCG ACAAATAAAT CAGTCTACGC ATCAAAATCA AAAGAGTCCA 
    TTGCTTGATG AACGTCAAGA AACGCAAGAT TATTCTGGAA ACAGTGTCAG ACGTGATAGC 
    AGCAGTGTAG AAATTGTAAA CTGCGAAAAT GCAAGTTCCC AAAGTAGATC GCCAGACCGA 
    TATCGACATC ACAGTCGATC CCGATCTCCA CGACTCAGAG ATAGAGATCG AGATAGAGAT 
    AGAAAATCTC GATCTAGAAG CAGATCGAGA CGAAGAAGAT CTCGTTCAAG AGTTCGAAAA 
    CGTGATGATA GCCGAGAAAA GATGACGGAA GAAGAGCGGG AAAAGGATAG GGAACGACGT 
    AAACGCGGTT TGCCGCCAAT AATTAGAGAT AAATTAAGTG TTTGCAGTAC AACACTTTGG 
    GTAGGACATT TGTCAAAACT TGTTCATCAA GAAGAATTAT CTGATACATT TGGAGAGCTT 
    GGTGATATTG TTAGCATTGA TTTAATCTCG CCGAGAGGTT GTGCATTTAT ATGTATGAAT 
    AGAAGACAGG ACGCATATCG AGCGCTAACA AAATTAAAAA ATCAAAAGAT GCAAGGCAAA 
    GCTATTACGT TGGCATGGGC ACCTGGTAAA GGAGTAAAAG GCAAAGAGTG GAAAGATTAC 
    TGGGAAGTAG AGCTAGGCGT CAGTTATATC CCCTGGAATA AATTAACCAA CATTACCGAT 
    CAAGAATTGG AGCTACTAGA AGAAGGAGGG ATGATAGACG AAGATACACT ACCTCCTCAT 
    TTGAAAGGGA AGTTGAAACA CACTGGCACA AGTGCAGATG TTTTGCAACA ACAGTTGCAT 
    TTGCAACAGC AAGCAATAGT TGCCACTGGT GCTCCTATTC CCACTTTGAC GGATGGTATC 
    GTTAATGTCA TACAGCCGCC GGCTAGTTCA CAGCAACAAC AGCAGCAGCC GCCACAGCAA 
    CAACAATTAG TCGATACTAG TCAACCGCCA CCAATCAGAC CACCAACATC GGCTGCGCTA 
    CTGCCTCCAC CGAACACTCA GTTGCAAATG ATGCCGCCAG CATTTACAAT GCCACCTGGA 
    GTGCCACGAA TGATTAGCCA CATGGGCCTA CAAATGCCGC ATGGACTAAT GCCGAATGTT 
    CCAATCGGAG TACCACCACC TAACATGCAG AGTCTGCTGG GACCACCCGG CATGATGCAA 
    ACCATGTTGA CACCACAAGT AAACCCGCCA TTTGGAGCAG GTGTTGGTGT AAGTTTATTG 
    ACACAAATTC CACTGCCCGC ACCTGCAGCG CCTTCGGATA AGCCAAATTC CACTGGATAC 
    GAGATCCTGA ACATTACAGG TATGCCGCAC AATGTTCCAC CGATTGGAGT ACCACCGCCT 
    ACGACAGAGA CGAATATGCC GAACTTGCCG ATGTTACGAC AACCGTACGG AGTTGGTCCG 
    GCGCCACCAA TGCAGATGCA ACTACCTCAA CAACAGCATC ACTCGGATGA TATGGACGTA 
    GAAATGGAGG ACGCGATGCC GCAAAGTTTG AACAGCAACT TGTCCAAGGA TAAGCCGAAT 
    CTCAGTGATC AGTTGATCGC GGCGATGAAT ATAACCAGCA ATGTAAACGA TTGTCGTATG 
    GAGAACGACC AATCTCGCGA TTACAAGGAA CGGGAACGTG ATCGAGAAAA CAGGGAAAGG 
    AGAGACCGGA GTGATCGAGA TCGCGGAGAT CGCATGGATA TCAACGAATG CAGAATAGAT 
    CGTGGCAGAG ATAGAGGAAG AGGACGAGAT CGCGGTCGAG ATAATAGACG GAGAGATAAT 
    CGTGACAGAG AGAGGGATGA TAGACGCGAC AGAGACAGCC GTGAGACCCG GGATAGTCGG 
    GAGAACAGCA GCAGACACTC AGAAGGACCG AGTGGACAAA ATCAAAACAT TCAAGAAGGC 
    GAGGGCATGA AAAAGGAAAG CAAGCCTAGT CTAGCCGAAC GACTACGGCA GTTGGCGGAC 
    GGTACGTTAC CGCTGGATGA CCGGATGGAT AGAAATATGC GTGGCAACCG AGCTGAGCGT 
    AACAATGAAC GGAATGACAG GAACTTCGAA GAAAGTCCCG GAGGTGGTGT ACGACGGCCA 
    CCCGGTGACA TGCCGATCTC ATTGATGGAC CTACCTAAGT TCCCTGGAGT AATGCCTCCG 
    GATCGAGCCG ATTTTCCGCG AGGACCAGAT TTCCGGAGCG GACCAGACAC ACGCGAGTTT 
    CCGCAACGCG GCCTGCCCGA CCGGCCTGAT CGACAGAATT TCCCACCGCG CGGTGGACCG 
    AGAACTTCAC AGATGGATGA CTTCCATGAT CCTAGAATGC AGCCAGGCAT ATTCCCGGAG 
    GAACACTACG AGAATAGGTT AGGCCACAAT GGACCTCGGC CTGACGACTT TCCACCGGGT 
    AGGCTAGGTC CGGCTAGAGA CGAGTTTGAA CGACCAGAAC GTGGTCCTCG CAGACCGCCC 
    GTGGACGAGT ACGAACGTGA GCGTTTCGAG TACGAGATGA GACGTGATGG ATTTGATCCG 
    CGAATGCAGG ATGGGTTCGA TCACAGAGGT CACAATGAGC GCTCCGATTT TGATCTCCGC 
    AGAAGGGAAT TCTTTGGTGG GCCGATGGAG CCAGTGTTTG GAATGCCGCC TTTAATGGGG 
    CCAAAAGGAC CAAGAGGACC AGTTGGTCCT GATGGATTTG GACCACGCGG AGCCAGAGGA 
    CCTGGTCCTC TCATGTTCCA TTTACGTGGC ATGGGTCCGA GAGGTATGAG GCCCGGGATG 
    AGGCCACCGT TCGCACCTCG AGGTCCACCA TTCGATCCCA GAGAATCGGA TTCTTTCTTC 
    CGACCGCCGT TCGATGAAAT GCGCGGTCGT CCAGGACCGC ATATCCGACC ACCGTTTGGC 
    CCAATGGGTC CGCCGGCAAT GCATGGACCA GATGGACCAT GGAGAAATCA GGAAGGCGGT 
    GGGCCCGCAT CATGGTCTGG ACAGGAACCT GATGGACACG GACAACGCGA GAATCATCTT 
    CCACGAGACA AGCAAAAATT AGCAAAGCAT CAAGATTATA AAAACATGTC CGAGCGGGAG 
    AACCGTAACC GAAATCGAAA ATCTAGATGG GGCAATATTA GCCCACAAAT GACGGATGAC 
    GTAGATGAGA TGCCATCGGA AGAAGCCGAA AATAAAATGG AGATATCGGA TGGCAGCAAA 
    TTAGAGACGA AGGATAGCTT TGATGCTTCA GCTTTGGCTA TCAATCAACA GAACCTTCTA 
    ATGCAAAAGA ATCAAGATGA GTCGATAATT CACGAGCAGA ATATGATGCA TGATGACAGA 
    GAAAATGAAT TTGCAAGTGT ATCGAACGAT AACAATGTTG ATGAGATGAG TTATAAAAAT 
    GATGAGACCA ACGCCTTCGA AATTGGTGTG GATTTCTCCA GCAACGATTT AGCGCTAACG 
    CAGCAGGGTG AAGAGGAACA GTGTGAATAT GAAGCACCCA TTCCAGCTGA AGATTCAGCG 
    CAGCAAAATG TGGTACAATC GATCGAACAA ATAGGGCACG TCAGTGAGAA TTATAGTGAG 
    CAATCAGTGG AACAGCAAGC AGATTTGTTA TAA

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

    RefSeq XP_018044866.1
    CDS1..4773
    Translation

    Target ORF information:

    RefSeq Version XM_018189377.1
    Organism Atta colombica
    Definition Atta colombica splicing factor, arginine/serine-rich 15 (LOC108684848), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_018189377.1

    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
    4621
    4681
    4741
    ATGGAGGCGG TGAAGGCGTT TAACGCGGAG CTCTCTGCTC TTTATGATGT CAAACCCCCA 
    ATCTCGAAAG CCAAAATGAA TTCGCTTACA CGGGGAGCCA TCAAAGCAAT AAAATTCTAC 
    AAGCATGTTG TACAAAGCGT AGAAAAATTT ATTCAAAAAT GCAAGCCGGA GTACAAAGTA 
    CCAGGATTGT ATGTAATAGA TTCAATTGTT CGACAGTCCC GACATCAGTT TGGGATGGAG 
    AAAGATGTGT TCGCTCCACG ATTTGCAAAA AATATGCAGA CTACCTTTCT TAATCTTTTA 
    AAGTGCCCGC AAGAAGACAA GAGCAAAGTT ATACGTGTAT TAAATCTTTG GCAAAAGAAT 
    GCAGTTTTTC CACCAGAAGT TATTCAACCA CTTTTTGATC TAGCAGATCC GAATCATCCT 
    ATACATAAAG AACAGCCAGT AAATAGCAAT GGTACATTAA ATGCATCATC TGGAAGTAAT 
    CTGAGTAATG TAAGTGCAGT CACAAAAACT CCGCCATCTA CAATTAAAAA CGCTGCAAAG 
    GATCCCAAAC TATTTCCATC TGGAAAAACG ATTGATCCAG TATGGCTTGC ACAAACAAAA 
    ATGGAAGCAG CAGTCAACGC AAACAAACTT TTGAATCAGT CCAATTCCGG TCAAGTGGAT 
    TCCTCTTTTT TCGATCAATT ACAACATTTA CAGCAATTAC TTATGAAAAA GGACGTTACA 
    AATGAACCAA AGAGTTCTGT CAAGTTTGAT AAAAAGTTGT TAGACTTTGA TTACGGAGAA 
    GAAGAAGATG ACGACGTCGT TGTTACTAAT TCTCCAAGCA CAGCTGCCTC AGCAAATACA 
    CAGCACAATA CAGTTTCAGC AAACAGCAGT TTAGAAAGTC TTGGACTATT GCTTGCAAAT 
    CCAGAGGTTA TGAGACAATT ACAAACTTTA CAACAAACCA TGCAAAGTAA TGCAACCTCT 
    TCACTCGAAA TGGAAGAAAA AATGCGCAAG TTGCAACAAA TGAAACAACA AGAAGAAGAA 
    TTTGATAAGC ATTTAGCACA AACTGTTCCT AATCTTCCAT TTGCAGCTGA ATGCGATTTA 
    AAACCTTCTG ATATTTTGAA ACCAAGCACA CAAAATTATG CATCAAATAT GAACAGTAAT 
    GTGATGCAAG ATATGAGTCA GCCACCACCT GGTTATCCAC CAGCTATGTC GTATTCTTCC 
    CAGTCTTTAT CGAACATTCG ACAAATAAAT CAGTCTACGC ATCAAAATCA AAAGAGTCCA 
    TTGCTTGATG AACGTCAAGA AACGCAAGAT TATTCTGGAA ACAGTGTCAG ACGTGATAGC 
    AGCAGTGTAG AAATTGTAAA CTGCGAAAAT GCAAGTTCCC AAAGTAGATC GCCAGACCGA 
    TATCGACATC ACAGTCGATC CCGATCTCCA CGACTCAGAG ATAGAGATCG AGATAGAGAT 
    AGAAAATCTC GATCTAGAAG CAGATCGAGA CGAAGAAGAT CTCGTTCAAG AGTTCGAAAA 
    CGTGATGATA GCCGAGAAAA GATGACGGAA GAAGAGCGGG AAAAGGATAG GGAACGACGT 
    AAACGCGGTT TGCCGCCAAT AATTAGAGAT AAATTAAGTG TTTGCAGTAC AACACTTTGG 
    GTAGGACATT TGTCAAAACT TGTTCATCAA GAAGAATTAT CTGATACATT TGGAGAGCTT 
    GGTGATATTG TTAGCATTGA TTTAATCTCG CCGAGAGGTT GTGCATTTAT ATGTATGAAT 
    AGAAGACAGG ACGCATATCG AGCGCTAACA AAATTAAAAA ATCAAAAGAT GCAAGGCAAA 
    GCTATTACGT TGGCATGGGC ACCTGGTAAA GGAGTAAAAG GCAAAGAGTG GAAAGATTAC 
    TGGGAAGTAG AGCTAGGCGT CAGTTATATC CCCTGGAATA AATTAACCAA CATTACCGAT 
    CAAGAATTGG AGCTACTAGA AGAAGGAGGG ATGATAGACG AAGATACACT ACCTCCTCAT 
    TTGAAAGGGA AGTTGAAACA CACTGGCACA AGTGCAGATG TTTTGCAACA ACAGTTGCAT 
    TTGCAACAGC AAGCAATAGT TGCCACTGGT GCTCCTATTC CCACTTTGAC GGATGGTATC 
    GTTAATGTCA TACAGCCGCC GGCTAGTTCA CAGCAACAAC AGCAGCAGCC GCCACAGCAA 
    CAACAATTAG TCGATACTAG TCAACCGCCA CCAATCAGAC CACCAACATC GGCTGCGCTA 
    CTGCCTCCAC CGAACACTCA GTTGCAAATG ATGCCGCCAG CATTTACAAT GCCACCTGGA 
    GTGCCACGAA TGATTAGCCA CATGGGCCTA CAAATGCCGC ATGGACTAAT GCCGAATGTT 
    CCAATCGGAG TACCACCACC TAACATGCAG AGTCTGCTGG GACCACCCGG CATGATGCAA 
    ACCATGTTGA CACCACAAGT AAACCCGCCA TTTGGAGCAG GTGTTGGTGT AAGTTTATTG 
    ACACAAATTC CACTGCCCGC ACCTGCAGCG CCTTCGGATA AGCCAAATTC CACTGGATAC 
    GAGATCCTGA ACATTACAGG TATGCCGCAC AATGTTCCAC CGATTGGAGT ACCACCGCCT 
    ACGACAGAGA CGAATATGCC GAACTTGCCG ATGTTACGAC AACCGTACGG AGTTGGTCCG 
    GCGCCACCAA TGCAGATGCA ACTACCTCAA CAACAGCATC ACTCGGATGA TATGGACGTA 
    GAAATGGAGG ACGCGATGCC GCAAAGTTTG AACAGCAACT TGTCCAAGGA TAAGCCGAAT 
    CTCAGTGATC AGTTGATCGC GGCGATGAAT ATAACCAGCA ATGTAAACGA TTGTCGTATG 
    GAGAACGACC AATCTCGCGA TTACAAGGAA CGGGAACGTG ATCGAGAAAA CAGGGAAAGG 
    AGAGACCGGA GTGATCGAGA TCGCGGAGAT CGCATGGATA TCAACGAATG CAGAATAGAT 
    CGTGGCAGAG ATAGAGGAAG AGGACGAGAT CGCGGTCGAG ATAATAGACG GAGAGATAAT 
    CGTGACAGAG AGAGGGATGA TAGACGCGAC AGAGACAGCC GTGAGACCCG GGATAGTCGG 
    GAGAACAGCA GCAGACACTC AGAAGGACCG AGTGGACAAA ATCAAAACAT TCAAGAAGGC 
    GAGGGCATGA AAAAGGAAAG CAAGCCTAGT CTAGCCGAAC GACTACGGCA GTTGGCGGAC 
    GGTACGTTAC CGCTGGATGA CCGGATGGAT AGAAATATGC GTGGCAACCG AGCTGAGCGT 
    AACAATGAAC GGAATGACAG GAACTTCGAA GAAAGTCCCG GAGGTGGTGT ACGACGGCCA 
    CCCGGTGACA TGCCGATCTC ATTGATGGAC CTACCTAAGT TCCCTGGAGT AATGCCTCCG 
    GATCGAGCCG ATTTTCCGCG AGGACCAGAT TTCCGGAGCG GACCAGACAC ACGCGAGTTT 
    CCGCAACGCG GCCTGCCCGA CCGGCCTGAT CGACAGAATT TCCCACCGCG CGGTGGACCG 
    AGAACTTCAC AGATGGATGA CTTCCATGAT CCTAGAATGC AGCCAGGCAT ATTCCCGGAG 
    GAACACTACG AGAATAGGTT AGGCCACAAT GGACCTCGGC CTGACGACTT TCCACCGGGT 
    AGGCTAGGTC CGGCTAGAGA CGAGTTTGAA CGACCAGAAC GTGGTCCTCG CAGACCGCCC 
    GTGGACGAGT ACGAACGTGA GCGTTTCGAG TACGAGATGA GACGTGATGG ATTTGATCCG 
    CGAATGCAGG ATGGGTTCGA TCACAGAGGT CACAATGAGC GCTCCGATTT TGATCTCCGC 
    AGAAGGGAAT TCTTTGGTGG GCCGATGGAG CCAGTGTTTG GAATGCCGCC TTTAATGGGG 
    CCAAAAGGAC CAAGAGGACC AGTTGGTCCT GATGGATTTG GACCACGCGG AGCCAGAGGA 
    CCTGGTCCTC TCATGTTCCA TTTACGTGGC ATGGGTCCGA GAGGTATGAG GCCCGGGATG 
    AGGCCACCGT TCGCACCTCG AGGTCCACCA TTCGATCCCA GAGAATCGGA TTCTTTCTTC 
    CGACCGCCGT TCGATGAAAT GCGCGGTCGT CCAGGACCGC ATATCCGACC ACCGTTTGGC 
    CCAATGGGTC CGCCGGCAAT GCATGGACCA GATGGACCAT GGAGAAATCA GGAAGGCGGT 
    GGGCCCGCAT CATGGTCTGG ACAGGAACCT GATGGACACG GACAACGCGA GAATCATCTT 
    CCACGAGACA AGCAAAAATT AGCAAAGCAT CAAGATTATA AAAACATGTC CGAGCGGGAG 
    AACCGTAACC GAAATCGAAA ATCTAGATGG GGCAATATTA GCCCACAAAT GACGGATGAC 
    GTAGATGAGA TGCCATCGGA AGAAGCCGAA AATAAAATGG AGATATCGGA TGGCAGCAAA 
    TTAGAGACGA AGGATAGCTT TGATGCTTCA GCTTTGGCTA TCAATCAACA GAACCTTCTA 
    ATGCAAAAGA ATCAAGATGA GTCGATAATT CACGAGCAGA ATATGATGCA TGATGACAGA 
    GAAAATGAAT TTGCAAGTGT ATCGAACGAT AACAATGTTG ATGAGATGAG TTATAAAAAT 
    GATGAGACCA ACGCCTTCGA AATTGGTGTG GATTTCTCCA GCAACGATTT AGCGCTAACG 
    CAGCAGGGTG AAGAGGAACA GTGTGAATAT GAAGCACCCA TTCCAGCTGA AGATTCAGCG 
    CAGCAAAATG TGGTACAATC GATCGAACAA ATAGGGCACG TCAGTGAGAA TTATAGTGAG 
    CAATCAGTGG AACAGCAAGC AGATTTGTTA TAA

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

    LOC108684848 ( XM_018189378.1 ) cDNA ORF clone, Atta colombica -> XP_018044867.1 Atta colombica splicing factor, arginine/serine-rich 15 (LOC108684848), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OAt82493
    Clone ID Related Accession (Same CDS sequence) XM_018189378.1
    Accession Version XM_018189378.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4749bp)
    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 2016-09-18
    Organism Atta colombica
    Product splicing factor, arginine/serine-rich 15 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017259229.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Atta colombica Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 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
    4621
    4681
    4741
    ATGGAGGCGG TGAAGGCGTT TAACGCGGAG CTCTCTGCTC TTTATGATGT CAAACCCCCA 
    ATCTCGAAAG CCAAAATGAA TTCGCTTACA CGGGGAGCCA TCAAAGCAAT AAAATTCTAC 
    AAGCATGTTG TACAAAGCGT AGAAAAATTT ATTCAAAAAT GCAAGCCGGA GTACAAAGTA 
    CCAGGATTGT ATGTAATAGA TTCAATTGTT CGACAGTCCC GACATCAGTT TGGGATGGAG 
    AAAGATGTGT TCGCTCCACG ATTTGCAAAA AATATGCAGA CTACCTTTCT TAATCTTTTA 
    AAGTGCCCGC AAGAAGACAA GAGCAAAGTT ATACGTGTAT TAAATCTTTG GCAAAAGAAT 
    GCAGTTTTTC CACCAGAAGT TATTCAACCA CTTTTTGATC TAGCAGATCC GAATCATCCT 
    ATACATAAAG AACAGCCAGT AAATAGCAAT GGTACATTAA ATGCATCATC TGGAAGTAAT 
    CTGAGTAATG TAAGTGCAGT CACAAAAACT CCGCCATCTA CAATTAAAAA CGCTGCAAAG 
    GATCCCAAAC TATTTCCATC TGGAAAAACG ATTGATCCAG TATGGCTTGC ACAAACAAAA 
    ATGGAAGCAG CAGTCAACGC AAACAAACTT TTGAATCAGT CCAATTCCGG TCAAGTGGAT 
    TCCTCTTTTT TCGATCAATT ACAACATTTA CAGCAATTAC TTATGAAAAA GGACGTTACA 
    AATGAACCAA AGAGTTCTGT CAAGTTTGAT AAAAAGTTGT TAGACTTTGA TTACGGAGAA 
    GAAGAAGATG ACGACGTCGT TGTTACTAAT TCTCCAAGCA CAGCTGCCTC AGCAAATACA 
    CAGCACAATA CAGTTTCAGC AAACAGCAGT TTAGAAAGTC TTGGACTATT GCTTGCAAAT 
    CCAGAGGTTA TGAGACAATT ACAAACTTTA CAACAAACCA TGCAAAGTAA TGCAACCTCT 
    TCACTCGAAA TGGAAGAAAA AATGCGCAAG TTGCAACAAA TGAAACAACA AGAAGAAGAA 
    TTTGATAAGC ATTTAGCACA AACTGTTCCT AATCTTCCAT TTGCAGCTGA ATGCGATTTA 
    AAACCTTCTG ATATTTTGAA ACCAAGCACA CAAAATTATG CATCAAATAT GAACAGTAAT 
    GTGATGCAAG ATATGAGTCA GCCACCACCT GGTTATCCAC CAGCTATGTC GTATTCTTCC 
    CAGTCTTTAT CGAACATTCG ACAAATAAAT CAGTCTACGC ATCAAAATCA AAAGAGTCCA 
    TTGCTTGATG AACGTCAAGA AACGCAAGAT TATTCTGGAA ACAGTGTCAG ACGTGATAGC 
    AGCAGTGTAG AAATTGTAAA CTGCGAAAAT GCAAGTTCCC AAAGTAGATC GCCAGACCGA 
    TATCGACATC ACAGTCGATC CCGATCTCCA CGACTCAGAG ATAGAGATCG AGATAGAGAT 
    AGAAAATCTC GATCTAGAAG CAGATCGAGA CGAAGAAGAT CTCGTTCAAG AGTTCGAAAA 
    CGTGATGATA GCCGAGAAAA GATGACGGAA GAAGAGCGGG AAAAGGATAG GGAACGACGT 
    AAACGCGGTT TGCCGCCAAT AATTAGAGAT AAATTAAGTG TTTGCAGTAC AACACTTTGG 
    GTAGGACATT TGTCAAAACT TGTTCATCAA GAAGAATTAT CTGATACATT TGGAGAGCTT 
    GGTGATATTG TTAGCATTGA TTTAATCTCG CCGAGAGGTT GTGCATTTAT ATGTATGAAT 
    AGAAGACAGG ACGCATATCG AGCGCTAACA AAATTAAAAA ATCAAAAGAT GCAAGGCAAA 
    GCTATTACGT TGGCATGGGC ACCTGGTAAA GGAGTAAAAG GCAAAGAGTG GAAAGATTAC 
    TGGGAAGTAG AGCTAGGCGT CAGTTATATC CCCTGGAATA AATTAACCAA CATTACCGAT 
    CAAGAATTGG AGCTACTAGA AGAAGGAGGG ATGATAGACG AAGATACACT ACCTCCTCAT 
    TTGAAAGGGA AGTTGAAACA CACTGGCACA AGTGCAGATG TTTTGCAACA ACAGTTGCAT 
    TTGCAACAGC AAGCAATAGT TGCCACTGGT GCTCCTATTC CCACTTTGAC GGATGGTATC 
    GTTAATGTCA TACAGCCGCC GGCTAGTTCA CAGCAACAAC AGCAGCAGCC GCCACAGCAA 
    CAACAATTAG TCGATACTAG TCAACCGCCA CCAATCAGAC CACCAACATC GGCTGCGCTA 
    CTGCCTCCAC CGAACACTCA GTTGCAAATG ATGCCGCCAG CATTTACAAT GCCACCTGGA 
    GTGCCACGAA TGATTAGCCA CATGGGCCTA CAAATGCCGC ATGGACTAAT GCCGAATGTT 
    CCAATCGGAG TACCACCACC TAACATGCAG AGTCTGCTGG GACCACCCGG CATGATGCAA 
    ACCATGTTGA CACCACAAGT AAACCCGCCA TTTGGAGCAG GTGTTGGTGT AAGTTTATTG 
    ACACAAATTC CACTGCCCGC ACCTGCAGCG CCTTCGGATA AGCCAAATTC CACTGGTATG 
    CCGCACAATG TTCCACCGAT TGGAGTACCA CCGCCTACGA CAGAGACGAA TATGCCGAAC 
    TTGCCGATGT TACGACAACC GTACGGAGTT GGTCCGGCGC CACCAATGCA GATGCAACTA 
    CCTCAACAAC AGCATCACTC GGATGATATG GACGTAGAAA TGGAGGACGC GATGCCGCAA 
    AGTTTGAACA GCAACTTGTC CAAGGATAAG CCGAATCTCA GTGATCAGTT GATCGCGGCG 
    ATGAATATAA CCAGCAATGT AAACGATTGT CGTATGGAGA ACGACCAATC TCGCGATTAC 
    AAGGAACGGG AACGTGATCG AGAAAACAGG GAAAGGAGAG ACCGGAGTGA TCGAGATCGC 
    GGAGATCGCA TGGATATCAA CGAATGCAGA ATAGATCGTG GCAGAGATAG AGGAAGAGGA 
    CGAGATCGCG GTCGAGATAA TAGACGGAGA GATAATCGTG ACAGAGAGAG GGATGATAGA 
    CGCGACAGAG ACAGCCGTGA GACCCGGGAT AGTCGGGAGA ACAGCAGCAG ACACTCAGAA 
    GGACCGAGTG GACAAAATCA AAACATTCAA GAAGGCGAGG GCATGAAAAA GGAAAGCAAG 
    CCTAGTCTAG CCGAACGACT ACGGCAGTTG GCGGACGGTA CGTTACCGCT GGATGACCGG 
    ATGGATAGAA ATATGCGTGG CAACCGAGCT GAGCGTAACA ATGAACGGAA TGACAGGAAC 
    TTCGAAGAAA GTCCCGGAGG TGGTGTACGA CGGCCACCCG GTGACATGCC GATCTCATTG 
    ATGGACCTAC CTAAGTTCCC TGGAGTAATG CCTCCGGATC GAGCCGATTT TCCGCGAGGA 
    CCAGATTTCC GGAGCGGACC AGACACACGC GAGTTTCCGC AACGCGGCCT GCCCGACCGG 
    CCTGATCGAC AGAATTTCCC ACCGCGCGGT GGACCGAGAA CTTCACAGAT GGATGACTTC 
    CATGATCCTA GAATGCAGCC AGGCATATTC CCGGAGGAAC ACTACGAGAA TAGGTTAGGC 
    CACAATGGAC CTCGGCCTGA CGACTTTCCA CCGGGTAGGC TAGGTCCGGC TAGAGACGAG 
    TTTGAACGAC CAGAACGTGG TCCTCGCAGA CCGCCCGTGG ACGAGTACGA ACGTGAGCGT 
    TTCGAGTACG AGATGAGACG TGATGGATTT GATCCGCGAA TGCAGGATGG GTTCGATCAC 
    AGAGGTCACA ATGAGCGCTC CGATTTTGAT CTCCGCAGAA GGGAATTCTT TGGTGGGCCG 
    ATGGAGCCAG TGTTTGGAAT GCCGCCTTTA ATGGGGCCAA AAGGACCAAG AGGACCAGTT 
    GGTCCTGATG GATTTGGACC ACGCGGAGCC AGAGGACCTG GTCCTCTCAT GTTCCATTTA 
    CGTGGCATGG GTCCGAGAGG TATGAGGCCC GGGATGAGGC CACCGTTCGC ACCTCGAGGT 
    CCACCATTCG ATCCCAGAGA ATCGGATTCT TTCTTCCGAC CGCCGTTCGA TGAAATGCGC 
    GGTCGTCCAG GACCGCATAT CCGACCACCG TTTGGCCCAA TGGGTCCGCC GGCAATGCAT 
    GGACCAGATG GACCATGGAG AAATCAGGAA GGCGGTGGGC CCGCATCATG GTCTGGACAG 
    GAACCTGATG GACACGGACA ACGCGAGAAT CATCTTCCAC GAGACAAGCA AAAATTAGCA 
    AAGCATCAAG ATTATAAAAA CATGTCCGAG CGGGAGAACC GTAACCGAAA TCGAAAATCT 
    AGATGGGGCA ATATTAGCCC ACAAATGACG GATGACGTAG ATGAGATGCC ATCGGAAGAA 
    GCCGAAAATA AAATGGAGAT ATCGGATGGC AGCAAATTAG AGACGAAGGA TAGCTTTGAT 
    GCTTCAGCTT TGGCTATCAA TCAACAGAAC CTTCTAATGC AAAAGAATCA AGATGAGTCG 
    ATAATTCACG AGCAGAATAT GATGCATGAT GACAGAGAAA ATGAATTTGC AAGTGTATCG 
    AACGATAACA ATGTTGATGA GATGAGTTAT AAAAATGATG AGACCAACGC CTTCGAAATT 
    GGTGTGGATT TCTCCAGCAA CGATTTAGCG CTAACGCAGC AGGGTGAAGA GGAACAGTGT 
    GAATATGAAG CACCCATTCC AGCTGAAGAT TCAGCGCAGC AAAATGTGGT ACAATCGATC 
    GAACAAATAG GGCACGTCAG TGAGAATTAT AGTGAGCAAT CAGTGGAACA GCAAGCAGAT 
    TTGTTATAA

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

    RefSeq XP_018044867.1
    CDS1..4749
    Translation

    Target ORF information:

    RefSeq Version XM_018189378.1
    Organism Atta colombica
    Definition Atta colombica splicing factor, arginine/serine-rich 15 (LOC108684848), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_018189378.1

    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
    4621
    4681
    4741
    ATGGAGGCGG TGAAGGCGTT TAACGCGGAG CTCTCTGCTC TTTATGATGT CAAACCCCCA 
    ATCTCGAAAG CCAAAATGAA TTCGCTTACA CGGGGAGCCA TCAAAGCAAT AAAATTCTAC 
    AAGCATGTTG TACAAAGCGT AGAAAAATTT ATTCAAAAAT GCAAGCCGGA GTACAAAGTA 
    CCAGGATTGT ATGTAATAGA TTCAATTGTT CGACAGTCCC GACATCAGTT TGGGATGGAG 
    AAAGATGTGT TCGCTCCACG ATTTGCAAAA AATATGCAGA CTACCTTTCT TAATCTTTTA 
    AAGTGCCCGC AAGAAGACAA GAGCAAAGTT ATACGTGTAT TAAATCTTTG GCAAAAGAAT 
    GCAGTTTTTC CACCAGAAGT TATTCAACCA CTTTTTGATC TAGCAGATCC GAATCATCCT 
    ATACATAAAG AACAGCCAGT AAATAGCAAT GGTACATTAA ATGCATCATC TGGAAGTAAT 
    CTGAGTAATG TAAGTGCAGT CACAAAAACT CCGCCATCTA CAATTAAAAA CGCTGCAAAG 
    GATCCCAAAC TATTTCCATC TGGAAAAACG ATTGATCCAG TATGGCTTGC ACAAACAAAA 
    ATGGAAGCAG CAGTCAACGC AAACAAACTT TTGAATCAGT CCAATTCCGG TCAAGTGGAT 
    TCCTCTTTTT TCGATCAATT ACAACATTTA CAGCAATTAC TTATGAAAAA GGACGTTACA 
    AATGAACCAA AGAGTTCTGT CAAGTTTGAT AAAAAGTTGT TAGACTTTGA TTACGGAGAA 
    GAAGAAGATG ACGACGTCGT TGTTACTAAT TCTCCAAGCA CAGCTGCCTC AGCAAATACA 
    CAGCACAATA CAGTTTCAGC AAACAGCAGT TTAGAAAGTC TTGGACTATT GCTTGCAAAT 
    CCAGAGGTTA TGAGACAATT ACAAACTTTA CAACAAACCA TGCAAAGTAA TGCAACCTCT 
    TCACTCGAAA TGGAAGAAAA AATGCGCAAG TTGCAACAAA TGAAACAACA AGAAGAAGAA 
    TTTGATAAGC ATTTAGCACA AACTGTTCCT AATCTTCCAT TTGCAGCTGA ATGCGATTTA 
    AAACCTTCTG ATATTTTGAA ACCAAGCACA CAAAATTATG CATCAAATAT GAACAGTAAT 
    GTGATGCAAG ATATGAGTCA GCCACCACCT GGTTATCCAC CAGCTATGTC GTATTCTTCC 
    CAGTCTTTAT CGAACATTCG ACAAATAAAT CAGTCTACGC ATCAAAATCA AAAGAGTCCA 
    TTGCTTGATG AACGTCAAGA AACGCAAGAT TATTCTGGAA ACAGTGTCAG ACGTGATAGC 
    AGCAGTGTAG AAATTGTAAA CTGCGAAAAT GCAAGTTCCC AAAGTAGATC GCCAGACCGA 
    TATCGACATC ACAGTCGATC CCGATCTCCA CGACTCAGAG ATAGAGATCG AGATAGAGAT 
    AGAAAATCTC GATCTAGAAG CAGATCGAGA CGAAGAAGAT CTCGTTCAAG AGTTCGAAAA 
    CGTGATGATA GCCGAGAAAA GATGACGGAA GAAGAGCGGG AAAAGGATAG GGAACGACGT 
    AAACGCGGTT TGCCGCCAAT AATTAGAGAT AAATTAAGTG TTTGCAGTAC AACACTTTGG 
    GTAGGACATT TGTCAAAACT TGTTCATCAA GAAGAATTAT CTGATACATT TGGAGAGCTT 
    GGTGATATTG TTAGCATTGA TTTAATCTCG CCGAGAGGTT GTGCATTTAT ATGTATGAAT 
    AGAAGACAGG ACGCATATCG AGCGCTAACA AAATTAAAAA ATCAAAAGAT GCAAGGCAAA 
    GCTATTACGT TGGCATGGGC ACCTGGTAAA GGAGTAAAAG GCAAAGAGTG GAAAGATTAC 
    TGGGAAGTAG AGCTAGGCGT CAGTTATATC CCCTGGAATA AATTAACCAA CATTACCGAT 
    CAAGAATTGG AGCTACTAGA AGAAGGAGGG ATGATAGACG AAGATACACT ACCTCCTCAT 
    TTGAAAGGGA AGTTGAAACA CACTGGCACA AGTGCAGATG TTTTGCAACA ACAGTTGCAT 
    TTGCAACAGC AAGCAATAGT TGCCACTGGT GCTCCTATTC CCACTTTGAC GGATGGTATC 
    GTTAATGTCA TACAGCCGCC GGCTAGTTCA CAGCAACAAC AGCAGCAGCC GCCACAGCAA 
    CAACAATTAG TCGATACTAG TCAACCGCCA CCAATCAGAC CACCAACATC GGCTGCGCTA 
    CTGCCTCCAC CGAACACTCA GTTGCAAATG ATGCCGCCAG CATTTACAAT GCCACCTGGA 
    GTGCCACGAA TGATTAGCCA CATGGGCCTA CAAATGCCGC ATGGACTAAT GCCGAATGTT 
    CCAATCGGAG TACCACCACC TAACATGCAG AGTCTGCTGG GACCACCCGG CATGATGCAA 
    ACCATGTTGA CACCACAAGT AAACCCGCCA TTTGGAGCAG GTGTTGGTGT AAGTTTATTG 
    ACACAAATTC CACTGCCCGC ACCTGCAGCG CCTTCGGATA AGCCAAATTC CACTGGTATG 
    CCGCACAATG TTCCACCGAT TGGAGTACCA CCGCCTACGA CAGAGACGAA TATGCCGAAC 
    TTGCCGATGT TACGACAACC GTACGGAGTT GGTCCGGCGC CACCAATGCA GATGCAACTA 
    CCTCAACAAC AGCATCACTC GGATGATATG GACGTAGAAA TGGAGGACGC GATGCCGCAA 
    AGTTTGAACA GCAACTTGTC CAAGGATAAG CCGAATCTCA GTGATCAGTT GATCGCGGCG 
    ATGAATATAA CCAGCAATGT AAACGATTGT CGTATGGAGA ACGACCAATC TCGCGATTAC 
    AAGGAACGGG AACGTGATCG AGAAAACAGG GAAAGGAGAG ACCGGAGTGA TCGAGATCGC 
    GGAGATCGCA TGGATATCAA CGAATGCAGA ATAGATCGTG GCAGAGATAG AGGAAGAGGA 
    CGAGATCGCG GTCGAGATAA TAGACGGAGA GATAATCGTG ACAGAGAGAG GGATGATAGA 
    CGCGACAGAG ACAGCCGTGA GACCCGGGAT AGTCGGGAGA ACAGCAGCAG ACACTCAGAA 
    GGACCGAGTG GACAAAATCA AAACATTCAA GAAGGCGAGG GCATGAAAAA GGAAAGCAAG 
    CCTAGTCTAG CCGAACGACT ACGGCAGTTG GCGGACGGTA CGTTACCGCT GGATGACCGG 
    ATGGATAGAA ATATGCGTGG CAACCGAGCT GAGCGTAACA ATGAACGGAA TGACAGGAAC 
    TTCGAAGAAA GTCCCGGAGG TGGTGTACGA CGGCCACCCG GTGACATGCC GATCTCATTG 
    ATGGACCTAC CTAAGTTCCC TGGAGTAATG CCTCCGGATC GAGCCGATTT TCCGCGAGGA 
    CCAGATTTCC GGAGCGGACC AGACACACGC GAGTTTCCGC AACGCGGCCT GCCCGACCGG 
    CCTGATCGAC AGAATTTCCC ACCGCGCGGT GGACCGAGAA CTTCACAGAT GGATGACTTC 
    CATGATCCTA GAATGCAGCC AGGCATATTC CCGGAGGAAC ACTACGAGAA TAGGTTAGGC 
    CACAATGGAC CTCGGCCTGA CGACTTTCCA CCGGGTAGGC TAGGTCCGGC TAGAGACGAG 
    TTTGAACGAC CAGAACGTGG TCCTCGCAGA CCGCCCGTGG ACGAGTACGA ACGTGAGCGT 
    TTCGAGTACG AGATGAGACG TGATGGATTT GATCCGCGAA TGCAGGATGG GTTCGATCAC 
    AGAGGTCACA ATGAGCGCTC CGATTTTGAT CTCCGCAGAA GGGAATTCTT TGGTGGGCCG 
    ATGGAGCCAG TGTTTGGAAT GCCGCCTTTA ATGGGGCCAA AAGGACCAAG AGGACCAGTT 
    GGTCCTGATG GATTTGGACC ACGCGGAGCC AGAGGACCTG GTCCTCTCAT GTTCCATTTA 
    CGTGGCATGG GTCCGAGAGG TATGAGGCCC GGGATGAGGC CACCGTTCGC ACCTCGAGGT 
    CCACCATTCG ATCCCAGAGA ATCGGATTCT TTCTTCCGAC CGCCGTTCGA TGAAATGCGC 
    GGTCGTCCAG GACCGCATAT CCGACCACCG TTTGGCCCAA TGGGTCCGCC GGCAATGCAT 
    GGACCAGATG GACCATGGAG AAATCAGGAA GGCGGTGGGC CCGCATCATG GTCTGGACAG 
    GAACCTGATG GACACGGACA ACGCGAGAAT CATCTTCCAC GAGACAAGCA AAAATTAGCA 
    AAGCATCAAG ATTATAAAAA CATGTCCGAG CGGGAGAACC GTAACCGAAA TCGAAAATCT 
    AGATGGGGCA ATATTAGCCC ACAAATGACG GATGACGTAG ATGAGATGCC ATCGGAAGAA 
    GCCGAAAATA AAATGGAGAT ATCGGATGGC AGCAAATTAG AGACGAAGGA TAGCTTTGAT 
    GCTTCAGCTT TGGCTATCAA TCAACAGAAC CTTCTAATGC AAAAGAATCA AGATGAGTCG 
    ATAATTCACG AGCAGAATAT GATGCATGAT GACAGAGAAA ATGAATTTGC AAGTGTATCG 
    AACGATAACA ATGTTGATGA GATGAGTTAT AAAAATGATG AGACCAACGC CTTCGAAATT 
    GGTGTGGATT TCTCCAGCAA CGATTTAGCG CTAACGCAGC AGGGTGAAGA GGAACAGTGT 
    GAATATGAAG CACCCATTCC AGCTGAAGAT TCAGCGCAGC AAAATGTGGT ACAATCGATC 
    GAACAAATAG GGCACGTCAG TGAGAATTAT AGTGAGCAAT CAGTGGAACA GCAAGCAGAT 
    TTGTTATAA

    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