ORF » Species Summary » Taeniopygia guttata » SLIT2 cDNA ORF clone

SLIT2 cDNA ORF clone, Taeniopygia guttata(zebra finch)

The following SLIT2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SLIT2 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
OTd09724 XM_004176607.1
Latest version!		 Taeniopygia guttata slit homolog 2 (Drosophila) (SLIT2), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OTd44187 XM_030270833.1
Latest version!		 Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X15, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OTd44173 XM_030270818.1
Latest version!		 Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OTd44174 XM_030270819.1
Latest version!		 Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OTd44175 XM_030270820.1
Latest version!		 Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OTd44176 XM_030270821.1
Latest version!		 Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OTd44177 XM_030270822.1
Latest version!		 Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OTd44178 XM_030270823.1
Latest version!		 Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OTd44179 XM_030270824.1
Latest version!		 Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OTd44180 XM_030270826.1
Latest version!		 Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OTd44181 XM_030270827.1
Latest version!		 Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OTd44182 XM_030270828.1
Latest version!		 Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OTd44183 XM_030270829.1
Latest version!		 Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OTd44184 XM_030270830.1
Latest version!		 Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X12, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OTd44185 XM_030270831.1
Latest version!		 Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X13, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OTd44186 XM_030270832.1
Latest version!		 Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X14, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00

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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)
    SLIT2 ( XM_004176607.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_004176655.1 Taeniopygia guttata slit homolog 2 (Drosophila) (SLIT2), mRNA.
    Price & Availability↑
    CloneID OTd09724
    Clone ID Related Accession (Same CDS sequence) XM_004176607.1
    Accession Version XM_004176607.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4332bp)
    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 2015-05-25
    Organism Taeniopygia guttata(zebra finch)
    Product LOW QUALITY PROTEIN: slit homolog 2 protein
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198637.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Taeniopygia guttata Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## frameshifts :: corrected 2 indels ##RefSeq-Attributes-END## 

    1
    61
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    181
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    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
    ATGGAGAACA AGATTAGTAC TATTGAGAGG GGAGCATTCC AAGATTTAAA AGAACTGGAG 
    AGGCTGCGCC TAAACAGAAA TAACCTCCAG TTGCTTTCTG AGCTGCTCTT TCTGGGGACG 
    CCGAAGTTAT ACAGGCTTGA TCTTAGTGAA AATCAGATTC AAGCAATACC AAGGAAGGCA 
    TTCCGAGGAG CAGTAGACAT AAAAAATCTG CAACTGGATT ACAACCAGAT CAGCTGTATT 
    GAAGATGGGG CATTTAGGGC TCTGCGTGAC CTGGAAGTGC TCACTCTCAA CAATAACAAC 
    ATCACTCGAC TATCCGTGGC AAGTTTCAAC CATATGCCCA AACTCAGAAC ATTCCGCCTT 
    CACTCCAACA ACCTGTACTG CGACTGCCAC CTGGCCTGGC TGTCGGACTG GCTGCGGCAG 
    CGGCCACGAG TGGGGCTCTA CACGCAGTGC ATGGGCCCGT CCCACCTCCG AGGGCACAAC 
    GTGGCCGAGG TCCAGAAGCG CGAGTTTGTC TGCAGCGGTC ACCAGTCCTT TATGGCTCCA 
    TCCTGCAGTG TCTTGCACTG CCCTACTGCA TGCACCTGTA GCAACAACAT TGTGGACTGT 
    CGTGGGAAAG GCCTTACAGA GATCCCAACA AACCTGCCAG AAACCATCAC TGAAATACGG 
    TTAGAACAAA ATTCAATCAA GGTCATACCT CCTGGAGCTT TCTCCCCCTA TAAAAAGCTT 
    CGAAGAATTG ACCTGAGCAA TAACCAGATC TCTGAAGCAG CTCCAGATGC TTTCCAGGGC 
    TTACGTTCAC TCAATTCACT AGTCCTCTAT GGCAATAAAA TCACAGAACT TCCAAAGGGC 
    CTATTTGAAG GACTCTTTTC TCTGCAACTG CTATTATTGA ATGCCAACAA GATCAATTGT 
    CTGCGAGTTG ATGCATTTCA AGATCTGCAC AACTTGAATC TTCTTTCTTT GTATGACAAC 
    AAGCTTCAGA CCATTGCAAA AGGCACCTTC TCACCCCTAC GTGCGATTCA GACCTTGCAT 
    TTGGCTCAGA ACCCATTTAT CTGTGACTGC CATCTGAAGT GGCTGGCGGA TTACCTTCAT 
    ACAAACCCCA TTGAGACCAG TGGTGCCCGT TGCACCAGCC CCCGCCGTCT GGCAAACAAA 
    AGGATCGGCC AGATCAAAAG CAAGAAATTC CGCTGCTCAG CTAAAGAACA GTATTTCATT 
    CCAGGCACTG AAGATTACAG ATCCAAATTA AGTGGAGACT GCTTTGCAGA TTTGGCTTGC 
    CCTGAGAAAT GTCGCTGTGA AGGGACCACA GTGGACTGCT CCAATCAGAA ACTCAACAAA 
    ATTCCTGATC ACATTCCCCA GTACACAGCA GAGTTGCGAC TAAATAACAA TGAATTTTCA 
    GTCTTGGAAG CTACTGGAAT CTTTAAGAAA CTTCCTCAGC TGCGTAAAAT AAACCTGAGC 
    AATAACAAGA TTACAGATAT AGAAGAAGGA GCATTTGATG GGGCCTCTGG TGTGAATGAA 
    CTATTGCTCA CAAGCAATCG CTTGGAGAGT GTTCAACACA AAATGTTCAA GGGACTAGAA 
    AGTCTCAAAA CACTGATGCT GAGGAGCAAC AGGGTGAGCT GTGTGGGAAA TGACAGCTTC 
    ACAGGGCTGA GCTCTGTCCG CCTGCTCTCG CTGTATGACA ACCAGATCAC CACCGTGGCA 
    CCCGGCTCCT TCGACACGCT GCATTCGCTC TCTACGCTAA ACCTCTTGGC CAATCCCTTC 
    AACTGCAACT GCCATCTTGC CNGGCTTGGA GACTGGCTAA GGAAGAAACG CATTGTGACA 
    GGGAACCCTC GTTGCCAAAA ACCCTACTTC CTCAAGGAGA TTCCGATCCA GGATGTGGCA 
    ATTCAGGATT TTACATGTGA TGATGGAAAT GATGACAATA GCTGTTCTCC CCTGGCCCGC 
    TGCCCTGCAG AATGTACTTG TCTGGACACA GTAGTTCGCT GCAGCAACAA AGGTCTAAAA 
    GCTTTGCCTA AAGGCATCCC AAAAGATGTG ACTGAACTTT ATTTGGATGG AAATCAGTTT 
    ACCCTTGTTC CAAAAGAGCT TTCCAACTAC AAGCATTTGA CACTCATAGA TTTAAGTAAC 
    AACAGAATCA GCACTCTTTC TAATCAGAGC TTCAGCAACA TGACTCAGCT GCTCACCTTA 
    ATTCTTAGTT ACAACCGCCT AAGATGTATT CCTGCACGGA CTTTTGATGG GTTGAAATCA 
    CTTAGGTTGT TGTCTTTACA TGGCAATGAT ATTTCTGTTG TTCCTGAAGG AGCCTTTAAT 
    GATCTTTCAG CATTATCACA CCTGGCTATT GGCGCAAATC CTCTTTATTG TGATTGTAAT 
    ATGCAGTGGC TATCTGACTG GGTAAAATCA GAATACAAAG AACCTGGTAT TGCACGTTGT 
    GCTGGTCCTG GAGAAATGGC AGATAAACTT CTTCTCACAA CTCCTTCTAA GAAATTTACT 
    TGCCAAGGGC CCGTGGATGT TAATATTCTT GCAAAGTGTA ATCCCTGTTT ATCAAATCCG 
    TGTAAAAATG ATGGAACCTG TAATAATGAT CCAGTTGACT TCTATAGATG TACATGCCCA 
    TATGGTTTCA AGGGCCAAGA CTGTGATATT CCCATTCATG CTTGCATTAG TAACCCGTGC 
    AACCATGGTG GAACTTGTCA TTTGAAAGAA GGAGAAAAAG ATGGTTTCTG GTGCACTTGT 
    GCAGATGGAT TTGAAGGTGA AAACTGTGAA GTAAATGTCG ATGACTGTGA AGACAATGAC 
    TGTGAAAACA ATTCTACTTG TGTGGATGGA ATTAATAACT ATACTTGCCT TTGTCCACCT 
    GAATATACAG GTGAACTCTG TGAGGAGAAA TTAGATTTCT GTGCCCAAAA CCTGAATCCT 
    TGCCAGCATG ATTCAAAGTG TATCTTAACA CCCAAAGGAT ACAAGTGTGA TTGCACACCT 
    GGATATGTAG GTGAGCATTG TGATATTGAC TTTGACGACT GCCAGGACAA CAAATGTAAA 
    AACGGAGCGC AGTGCACTGA CGCAGTTAAT GGATATACGT GCGTTTGCCC AGAAGGGTAC 
    AGTGGCTTGT TCTGTGAGTT ATCGCCGCCA ATGGTTCTAC CTCGCACCAG CCCTTGTGAT 
    AATTATGAAT GTCAAAATGG GGCCCAGTGT ATCATAAAAG AAAGTGAACC AATCTGTCAG 
    TGTTTATCAG GCTACCAGGG TGAGAAATGT GAAAAGCTGA TTAGTATAAA CTTCGTCAAC 
    AAAGAATCCT ATCTGCAAAT CCCTTCAGCT AAGATACGCC CCCAAACCAA TATCACTCTA 
    CAGATTGCCA CAGATGAAGA CAGTGGGATC CTGCTGTACA AAGGCGATAA AGATCACATA 
    GCAGTGGAAC TGTACCGGGG TAGAGTGAGG GTCAGCTATG ACACGGGATC ATATCCAGCC 
    TCTGCTATTT ACAGTGTGGA AACAATTAAT GATGGCAATT TCCACATTGT GGAACTGCTA 
    GCTATGGATC AGATTCTATC TTTATCTATT GATGGAGGAA GCCCCAAGAC AATTACCAAT 
    TTGTCCAAGC AATCCACTCT GAATTTTGAT TCTCCGCTGT ATGTAGGAGG CATGCCTGTG 
    AAAAATAATA TAGCAGCTTT GCGCCAGTCG CCAGGGCAGA ACGGCACCAG CTTCCATGGT 
    TGCATCCGTA ATCTGTATAT CAACAGCGAA CTCCAGGACT TCAGAAATGT GCCCCTGCAA 
    GTGGGAATTC TGCCAGGGTG TGAGCCTTGC CATAAGAAGG TTTGTGTGCA TGGCACATGC 
    CATGCTACCA GCCAGTCAGG CTTCTCCTGT GAGTGCGAAG GAGGATGGAC CGGACCACTC 
    TGTGATCAGC AAACTAACGA CCCGTGTCTT GGAAATAAAT GTGTGCATGG TACCTGCTTG 
    CCGATCAATG CATTTTCATA CAGTTGTAAA TGCCTGCAGG GACATGGGGG AGTCCTCTGT 
    GATGAAGAGG AAATGCTGCT TAACCCCTGC CAATCCATCA AGTGTAAACA TGGCAAATGT 
    AGGCTTTCAG GACTTGGGAA ACCATATTGC GAATGCAGCA GCGGATACAC GGGGGACAGT 
    TGTGATAAAG AAATCTCTTG TCGAGGGGAA CGAGTCCGAG ATTACTACCA AAAGCAGCAA 
    GGCTATGCTG CGTGCCAGAC GACCAAGAAG GTATCGAGAC TAGAATGTAA AGGCGGGTGC 
    TCGGCCGGGC AGTGCTGCGG GCCGCTGCGC AGCAAGAGGC GGAAATACTC CTTCGAGTGC 
    ACTGACGGGT CGTCGTTTGT GGACGAGGTG GAAAAAGTGG TGAAGTGTGG CTGTACAAAT 
    TGTCCCTCCT AA

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

    RefSeq XP_004176655.1
    CDS74..4405
    Translation

    Target ORF information:

    RefSeq Version XM_004176607.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata slit homolog 2 (Drosophila) (SLIT2), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_004176607.1

    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
    ATGGAGAACA AGATTAGTAC TATTGAGAGG GGAGCATTCC AAGATTTAAA AGAACTGGAG 
    AGGCTGCGCC TAAACAGAAA TAACCTCCAG TTGCTTTCTG AGCTGCTCTT TCTGGGGACG 
    CCGAAGTTAT ACAGGCTTGA TCTTAGTGAA AATCAGATTC AAGCAATACC AAGGAAGGCA 
    TTCCGAGGAG CAGTAGACAT AAAAAATCTG CAACTGGATT ACAACCAGAT CAGCTGTATT 
    GAAGATGGGG CATTTAGGGC TCTGCGTGAC CTGGAAGTGC TCACTCTCAA CAATAACAAC 
    ATCACTCGAC TATCCGTGGC AAGTTTCAAC CATATGCCCA AACTCAGAAC ATTCCGCCTT 
    CACTCCAACA ACCTGTACTG CGACTGCCAC CTGGCCTGGC TGTCGGACTG GCTGCGGCAG 
    CGGCCACGAG TGGGGCTCTA CACGCAGTGC ATGGGCCCGT CCCACCTCCG AGGGCACAAC 
    GTGGCCGAGG TCCAGAAGCG CGAGTTTGTC TGCAGCGGTC ACCAGTCCTT TATGGCTCCA 
    TCCTGCAGTG TCTTGCACTG CCCTACTGCA TGCACCTGTA GCAACAACAT TGTGGACTGT 
    CGTGGGAAAG GCCTTACAGA GATCCCAACA AACCTGCCAG AAACCATCAC TGAAATACGG 
    TTAGAACAAA ATTCAATCAA GGTCATACCT CCTGGAGCTT TCTCCCCCTA TAAAAAGCTT 
    CGAAGAATTG ACCTGAGCAA TAACCAGATC TCTGAAGCAG CTCCAGATGC TTTCCAGGGC 
    TTACGTTCAC TCAATTCACT AGTCCTCTAT GGCAATAAAA TCACAGAACT TCCAAAGGGC 
    CTATTTGAAG GACTCTTTTC TCTGCAACTG CTATTATTGA ATGCCAACAA GATCAATTGT 
    CTGCGAGTTG ATGCATTTCA AGATCTGCAC AACTTGAATC TTCTTTCTTT GTATGACAAC 
    AAGCTTCAGA CCATTGCAAA AGGCACCTTC TCACCCCTAC GTGCGATTCA GACCTTGCAT 
    TTGGCTCAGA ACCCATTTAT CTGTGACTGC CATCTGAAGT GGCTGGCGGA TTACCTTCAT 
    ACAAACCCCA TTGAGACCAG TGGTGCCCGT TGCACCAGCC CCCGCCGTCT GGCAAACAAA 
    AGGATCGGCC AGATCAAAAG CAAGAAATTC CGCTGCTCAG CTAAAGAACA GTATTTCATT 
    CCAGGCACTG AAGATTACAG ATCCAAATTA AGTGGAGACT GCTTTGCAGA TTTGGCTTGC 
    CCTGAGAAAT GTCGCTGTGA AGGGACCACA GTGGACTGCT CCAATCAGAA ACTCAACAAA 
    ATTCCTGATC ACATTCCCCA GTACACAGCA GAGTTGCGAC TAAATAACAA TGAATTTTCA 
    GTCTTGGAAG CTACTGGAAT CTTTAAGAAA CTTCCTCAGC TGCGTAAAAT AAACCTGAGC 
    AATAACAAGA TTACAGATAT AGAAGAAGGA GCATTTGATG GGGCCTCTGG TGTGAATGAA 
    CTATTGCTCA CAAGCAATCG CTTGGAGAGT GTTCAACACA AAATGTTCAA GGGACTAGAA 
    AGTCTCAAAA CACTGATGCT GAGGAGCAAC AGGGTGAGCT GTGTGGGAAA TGACAGCTTC 
    ACAGGGCTGA GCTCTGTCCG CCTGCTCTCG CTGTATGACA ACCAGATCAC CACCGTGGCA 
    CCCGGCTCCT TCGACACGCT GCATTCGCTC TCTACGCTAA ACCTCTTGGC CAATCCCTTC 
    AACTGCAACT GCCATCTTGC CNGGCTTGGA GACTGGCTAA GGAAGAAACG CATTGTGACA 
    GGGAACCCTC GTTGCCAAAA ACCCTACTTC CTCAAGGAGA TTCCGATCCA GGATGTGGCA 
    ATTCAGGATT TTACATGTGA TGATGGAAAT GATGACAATA GCTGTTCTCC CCTGGCCCGC 
    TGCCCTGCAG AATGTACTTG TCTGGACACA GTAGTTCGCT GCAGCAACAA AGGTCTAAAA 
    GCTTTGCCTA AAGGCATCCC AAAAGATGTG ACTGAACTTT ATTTGGATGG AAATCAGTTT 
    ACCCTTGTTC CAAAAGAGCT TTCCAACTAC AAGCATTTGA CACTCATAGA TTTAAGTAAC 
    AACAGAATCA GCACTCTTTC TAATCAGAGC TTCAGCAACA TGACTCAGCT GCTCACCTTA 
    ATTCTTAGTT ACAACCGCCT AAGATGTATT CCTGCACGGA CTTTTGATGG GTTGAAATCA 
    CTTAGGTTGT TGTCTTTACA TGGCAATGAT ATTTCTGTTG TTCCTGAAGG AGCCTTTAAT 
    GATCTTTCAG CATTATCACA CCTGGCTATT GGCGCAAATC CTCTTTATTG TGATTGTAAT 
    ATGCAGTGGC TATCTGACTG GGTAAAATCA GAATACAAAG AACCTGGTAT TGCACGTTGT 
    GCTGGTCCTG GAGAAATGGC AGATAAACTT CTTCTCACAA CTCCTTCTAA GAAATTTACT 
    TGCCAAGGGC CCGTGGATGT TAATATTCTT GCAAAGTGTA ATCCCTGTTT ATCAAATCCG 
    TGTAAAAATG ATGGAACCTG TAATAATGAT CCAGTTGACT TCTATAGATG TACATGCCCA 
    TATGGTTTCA AGGGCCAAGA CTGTGATATT CCCATTCATG CTTGCATTAG TAACCCGTGC 
    AACCATGGTG GAACTTGTCA TTTGAAAGAA GGAGAAAAAG ATGGTTTCTG GTGCACTTGT 
    GCAGATGGAT TTGAAGGTGA AAACTGTGAA GTAAATGTCG ATGACTGTGA AGACAATGAC 
    TGTGAAAACA ATTCTACTTG TGTGGATGGA ATTAATAACT ATACTTGCCT TTGTCCACCT 
    GAATATACAG GTGAACTCTG TGAGGAGAAA TTAGATTTCT GTGCCCAAAA CCTGAATCCT 
    TGCCAGCATG ATTCAAAGTG TATCTTAACA CCCAAAGGAT ACAAGTGTGA TTGCACACCT 
    GGATATGTAG GTGAGCATTG TGATATTGAC TTTGACGACT GCCAGGACAA CAAATGTAAA 
    AACGGAGCGC AGTGCACTGA CGCAGTTAAT GGATATACGT GCGTTTGCCC AGAAGGGTAC 
    AGTGGCTTGT TCTGTGAGTT ATCGCCGCCA ATGGTTCTAC CTCGCACCAG CCCTTGTGAT 
    AATTATGAAT GTCAAAATGG GGCCCAGTGT ATCATAAAAG AAAGTGAACC AATCTGTCAG 
    TGTTTATCAG GCTACCAGGG TGAGAAATGT GAAAAGCTGA TTAGTATAAA CTTCGTCAAC 
    AAAGAATCCT ATCTGCAAAT CCCTTCAGCT AAGATACGCC CCCAAACCAA TATCACTCTA 
    CAGATTGCCA CAGATGAAGA CAGTGGGATC CTGCTGTACA AAGGCGATAA AGATCACATA 
    GCAGTGGAAC TGTACCGGGG TAGAGTGAGG GTCAGCTATG ACACGGGATC ATATCCAGCC 
    TCTGCTATTT ACAGTGTGGA AACAATTAAT GATGGCAATT TCCACATTGT GGAACTGCTA 
    GCTATGGATC AGATTCTATC TTTATCTATT GATGGAGGAA GCCCCAAGAC AATTACCAAT 
    TTGTCCAAGC AATCCACTCT GAATTTTGAT TCTCCGCTGT ATGTAGGAGG CATGCCTGTG 
    AAAAATAATA TAGCAGCTTT GCGCCAGTCG CCAGGGCAGA ACGGCACCAG CTTCCATGGT 
    TGCATCCGTA ATCTGTATAT CAACAGCGAA CTCCAGGACT TCAGAAATGT GCCCCTGCAA 
    GTGGGAATTC TGCCAGGGTG TGAGCCTTGC CATAAGAAGG TTTGTGTGCA TGGCACATGC 
    CATGCTACCA GCCAGTCAGG CTTCTCCTGT GAGTGCGAAG GAGGATGGAC CGGACCACTC 
    TGTGATCAGC AAACTAACGA CCCGTGTCTT GGAAATAAAT GTGTGCATGG TACCTGCTTG 
    CCGATCAATG CATTTTCATA CAGTTGTAAA TGCCTGCAGG GACATGGGGG AGTCCTCTGT 
    GATGAAGAGG AAATGCTGCT TAACCCCTGC CAATCCATCA AGTGTAAACA TGGCAAATGT 
    AGGCTTTCAG GACTTGGGAA ACCATATTGC GAATGCAGCA GCGGATACAC GGGGGACAGT 
    TGTGATAAAG AAATCTCTTG TCGAGGGGAA CGAGTCCGAG ATTACTACCA AAAGCAGCAA 
    GGCTATGCTG CGTGCCAGAC GACCAAGAAG GTATCGAGAC TAGAATGTAA AGGCGGGTGC 
    TCGGCCGGGC AGTGCTGCGG GCCGCTGCGC AGCAAGAGGC GGAAATACTC CTTCGAGTGC 
    ACTGACGGGT CGTCGTTTGT GGACGAGGTG GAAAAAGTGG TGAAGTGTGG CTGTACAAAT 
    TGTCCCTCCT AA

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

    SLIT2 ( XM_030270833.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030126693.1 Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X15, mRNA.
    Price & Availability↑
    CloneID OTd44187
    Clone ID Related Accession (Same CDS sequence) XM_030270833.1
    Accession Version XM_030270833.1 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 2019-08-08
    Organism Taeniopygia guttata(zebra finch)
    Product slit homolog 2 protein isoform X15
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044215.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGATGTGCG GCTGGGGGAA GTTCACCTTG CCCCTGGGGC TGCTGCTGGC GATGGCGGGC 
    GCGGTGGCGC CGCAGCCGTG CCCGGCGCAG TGCTCCTGCT CGGGGAGCAC CGTGGACTGT 
    CACGGGCTGG CGCTGCGCGG CGTCCCGAGG AACATCCCCC GCAACACCGA GAGGCTGGAT 
    CTTAATGGGA ATAACATCAC AAGAATCACG AAGACTGACT TTGCTGGTCT AAGGCACCTT 
    CGAGTTCTTC AGCTCATGGA GAACAAGATT AGTACTATTG AGAGGGGAGC ATTCCAAGAT 
    TTAAAAGAAC TGGAGAGGCT GCGCCTAAAC AGAAATAACC TCCAGTTGCT TTCTGAGCTG 
    CTCTTTCTGG GGACGCCGAA GTTATACAGG CTTGATCTTA GTGAAAATCA GATTCAAGCA 
    ATACCAAGGA AGGCATTCCG AGGAGCAGTA GACATAAAAA ATCTGCAACT GGATTACAAC 
    CAGATCAGCT GTATTGAAGA TGGGGCATTT AGGGCTCTGC GTGACCTGGA AGTGCTCACT 
    CTCAACAATA ACAACATCAC TCGACTATCC GTGGCAAGTT TCAACCATAT GCCCAAACTC 
    AGAACATTCC GCCTTCACTC CAACAACCTG TACTGCGACT GCCACCTGGC CTGGCTGTCG 
    GACTGGCTGC GGCAGCGGCC ACGAGTGGGG CTCTACACGC AGTGCATGGG CCCGTCCCAC 
    CTCCGAGGGC ACAACGTGGC CGAGGTCCAG AAGCGCGAGT TTGTCTGCAG CGATGAGGAA 
    GAAGGTCACC AGTCCTTTAT GGCTCCATCC TGCAGTGTCT TGCACTGCCC TACTGCATGC 
    ACCTGTAGCA ACAACATTGT GGACTGTCGT GGGAAAGGCC TTACAGAGAT CCCAACAAAC 
    CTGCCAGAAA CCATCACTGA AATACGGTTA GAACAAAATT CAATCAAGGT CATACCTCCT 
    GGAGCTTTCT CCCCCTATAA AAAGCTTCGA AGAATTGACC TGAGCAATAA CCAGATCTCT 
    GAAGCAGCTC CAGATGCTTT CCAGGGCTTA CGTTCACTCA ATTCACTAGT CCTCTATGGC 
    AATAAAATCA CAGAACTTCC AAAGGGCCTA TTTGAAGGAC TCTTTTCTCT GCAACTGCTA 
    TTATTGAATG CCAACAAGAT CAATTGTCTG CGAGTTGATG CATTTCAAGA TCTGCACAAC 
    TTGAATCTTC TTTCTTTGTA TGACAACAAG CTTCAGACCA TTGCAAAAGG CACCTTCTCA 
    CCCCTACGTG CGATTCAGAC CTTGCATTTG GCTCAGAACC CATTTATCTG TGACTGCCAT 
    CTGAAGTGGC TGGCGGATTA CCTTCATACA AACCCCATTG AGACCAGTGG TGCCCGTTGC 
    ACCAGCCCCC GCCGTCTGGC AAACAAAAGG ATCGGCCAGA TCAAAAGCAA GAAATTCCGC 
    TGCTCAGCTA AAGAACAGTA TTTCATTCCA GGAGTTCACC ATTTTGGCTG CACTGAAGAT 
    TACAGATCCA AATTAAGTGG AGACTGCTTT GCAGATCTGG CTTGCCCTGA GAAATGTCGC 
    TGTGAAGGGA CCACAGTGGA CTGCTCCAAT CAGAAACTCA ACAAAATTCC TGATCACATT 
    CCCCAGTACA CAGCAGAGTT GCGACTAAAT AACAATGAAT TTTCAGTCTT GGAAGCTACT 
    GGAATCTTTA AGAAACTTCC TCAGCTGCGT AAAATAAACC TGAGCAATAA CAAGATTACA 
    GATATAGAAG AAGGAGCATT TGATGGGGCC TCTGGTGTGA ATGAACTATT GCTCACAAGC 
    AATCGCTTGG AGAGTGTTCA ACACAAAATG TTCAAGGGAC TAGAAAGTCT CAAAACACTG 
    ATGCTGAGGA GCAACAGGGT GAGCTGTGTG GGAAATGACA GCTTCACAGG GCTGAGCTCT 
    GTCCGCCTGC TCTCGCTGTA TGACAACCAG ATCACCACCG TGGCACCCGG CTCCTTCGAC 
    ACGCTGCATT CGCTCTCTAC GCTAAACCTC TTGGCCAATC CCTTCAACTG CAACTGCCAT 
    CTTGCATGGC TTGGAGACTG GCTAAGGAAG AAACGCATTG TGACAGGGAA CCCTCGTTGC 
    CAAAAACCCT ACTTCCTCAA GGAGATTCCG ATCCAGGATG TGGCAATTCA GGATTTTACA 
    TGTGATGATG GAAATGATGA CAATAGCTGT TCTCCCCTGG CCCGCTGCCC TGCAGAATGT 
    ACTTGTCTGG ACACAGTAGT TCGCTGCAGC AACAAAGGTC TAAAAGCTTT GCCTAAAGGC 
    ATCCCAAAAG ATGTGACTGA ACTTTATTTG GATGGAAATC AGTTTACCCT TGTTCCAAAA 
    GAGCTTTCCA ACTACAAGCA TTTGACACTC ATAGATTTAA GTAACAACAG AATCAGCACT 
    CTTTCTAATC AGAGCTTCAG CAACATGACT CAGCTGCTCA CCTTAATTCT TAGTTACAAC 
    CGCCTAAGAT GTATTCCTGC ACGGACTTTT GATGGGTTGA AATCACTTAG GTTGTTGTCT 
    TTACATGGCA ATGATATTTC TGTTGTTCCT GAAGGAGCCT TTAATGATCT TTCAGCATTA 
    TCACACCTGG CTATTGGCGC AAATCCTCTT TATTGTGATT GTAATATGCA GTGGCTATCT 
    GACTGGGTAA AATCAGAATA CAAAGAACCT GGTATTGCAC GTTGTGCTGG TCCTGGAGAA 
    ATGGCAGATA AACTTCTTCT CACAACTCCT TCTAAGAAAT TTACTTGCCA AGGGCCCGTG 
    GATGTTAATA TTCTTGCAAA GTGTAATCCC TGTTTATCAA ATCCGTGTAA AAATGATGGA 
    ACCTGTAATA ATGATCCAGT TGACTTCTAT AGATGTACAT GCCCATATGG TTTCAAGGGC 
    CAAGACTGTG ATATTCCCAT TCATGCTTGC ATTAGTAACC CGTGCAACCA TGGTGGAACT 
    TGTCATTTGA AAGAAGGAGA AAAAGATGGT TTCTGGTGCA CTTGTGCAGA TGGATTTGAA 
    GGTGAAAACT GTGAAGTAAA TGTCGATGAC TGTGAAGACA ATGACTGTGA AAACAATTCT 
    ACTTGTGTGG ATGGAATTAA TAACTATACT TGCCTTTGTC CACCTGAATA TACAGCTGCT 
    AATCTGAATG AAGTGGAGAA AGGTGAACTC TGTGAGGAGA AATTAGATTT CTGTGCCCAA 
    AACCTGAATC CTTGCCAGCA TGATTCAAAG TGTATCTTAA CACCCAAAGG ATACAAGTGT 
    GATTGCACAC CTGGATATGT AGGTGAGCAT TGTGATATTG ACTTTGACGA CTGCCAGGAC 
    AACAAATGTA AAAACGGAGC GCAGTGCACT GACGCAGTTA ATGGATATAC GTGCGTTTGC 
    CCAGAAGGGT ACAGTGGCTT GTTCTGTGAG TTATCGCCGC CAATGGTTCT ACCTCGCACC 
    AGCCCTTGTG ATAATTATGA ATGTCAAAAT GGGGCCCAGT GTATCATAAA AGAAAGTGAA 
    CCAATCTGTC AGTGTTTATC AGGCTACCAG GGTGAGAAAT GTGAAAAGCT GATTAGTATA 
    AACTTCGTCA ACAAAGAATC CTATCTGCAA ATCCCTTCAG CTAAGATACG CCCCCAAACC 
    AATATCACTC TACAGATTGC CACAGATGAA GACAGTGGGA TCCTGCTGTA CAAAGGCGAT 
    AAAGATCACA TAGCAGTGGA ACTGTACCGG GGTAGAGTGA GGGTCAGCTA TGACACGGGA 
    TCATATCCAG CCTCTGCTAT TTACAGTGTG GAAACAATTA ATGATGGCAA TTTCCACATT 
    GTGGAACTGC TAGCTATGGA TCAGATTCTA TCTTTATCTA TTGATGGAGG AAGCCCCAAG 
    ACAATTACCA ATTTGTCCAA GCAATCCACT CTGAATTTTG ATTCTCCGCT GTATGTAGGA 
    GGCATGCCTG TGAAAAATAA TATAGCAGCT TTGCGCCAGT CGCCAGGGCA GAACGGCACC 
    AGCTTCCATG GTTGCATCCG TAATCTGTAT ATCAACAGCG AACTCCAGGA CTTCAGAAAT 
    GTGCCCCTGC AAGTGGGAAT TCTGCCAGGG TGTGAGCCTT GCCATAAGAA GGTTTGTGTG 
    CATGGCACAT GCCATGCTAC CAGCCAGTCA GGCTTCTCCT GTGAGTGCGA AGGAGGATGG 
    ACCGGACCAC TCTGTGATCA GCAAACTAAC GACCCGTGTC TTGGAAATAA GGACATGGGG 
    GAGTCCTCTG TGATGAAGAG GAAATGCTGC TTAACCCCTG CCAATCCATC AAGTGTAAAC 
    ATGGCAAATG TAGGCTTTCA GGACTTGGGA AACCATATTG CGAATGCAGC AGCGGATACA 
    CGGGGGACAG TTGTGATAAA GAAATCTCTT GTCGAGGGGA ACGAGTCCGA GATTACTACC 
    AAAAGCAGCA AGGCTATGCT GCGTGCCAGA CGACCAAGAA GGTATCGAGA CTAG

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

    RefSeq XP_030126693.1
    CDS23..4456
    Translation

    Target ORF information:

    RefSeq Version XM_030270833.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X15, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030270833.1

    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
    ATGATGTGCG GCTGGGGGAA GTTCACCTTG CCCCTGGGGC TGCTGCTGGC GATGGCGGGC 
    GCGGTGGCGC CGCAGCCGTG CCCGGCGCAG TGCTCCTGCT CGGGGAGCAC CGTGGACTGT 
    CACGGGCTGG CGCTGCGCGG CGTCCCGAGG AACATCCCCC GCAACACCGA GAGGCTGGAT 
    CTTAATGGGA ATAACATCAC AAGAATCACG AAGACTGACT TTGCTGGTCT AAGGCACCTT 
    CGAGTTCTTC AGCTCATGGA GAACAAGATT AGTACTATTG AGAGGGGAGC ATTCCAAGAT 
    TTAAAAGAAC TGGAGAGGCT GCGCCTAAAC AGAAATAACC TCCAGTTGCT TTCTGAGCTG 
    CTCTTTCTGG GGACGCCGAA GTTATACAGG CTTGATCTTA GTGAAAATCA GATTCAAGCA 
    ATACCAAGGA AGGCATTCCG AGGAGCAGTA GACATAAAAA ATCTGCAACT GGATTACAAC 
    CAGATCAGCT GTATTGAAGA TGGGGCATTT AGGGCTCTGC GTGACCTGGA AGTGCTCACT 
    CTCAACAATA ACAACATCAC TCGACTATCC GTGGCAAGTT TCAACCATAT GCCCAAACTC 
    AGAACATTCC GCCTTCACTC CAACAACCTG TACTGCGACT GCCACCTGGC CTGGCTGTCG 
    GACTGGCTGC GGCAGCGGCC ACGAGTGGGG CTCTACACGC AGTGCATGGG CCCGTCCCAC 
    CTCCGAGGGC ACAACGTGGC CGAGGTCCAG AAGCGCGAGT TTGTCTGCAG CGATGAGGAA 
    GAAGGTCACC AGTCCTTTAT GGCTCCATCC TGCAGTGTCT TGCACTGCCC TACTGCATGC 
    ACCTGTAGCA ACAACATTGT GGACTGTCGT GGGAAAGGCC TTACAGAGAT CCCAACAAAC 
    CTGCCAGAAA CCATCACTGA AATACGGTTA GAACAAAATT CAATCAAGGT CATACCTCCT 
    GGAGCTTTCT CCCCCTATAA AAAGCTTCGA AGAATTGACC TGAGCAATAA CCAGATCTCT 
    GAAGCAGCTC CAGATGCTTT CCAGGGCTTA CGTTCACTCA ATTCACTAGT CCTCTATGGC 
    AATAAAATCA CAGAACTTCC AAAGGGCCTA TTTGAAGGAC TCTTTTCTCT GCAACTGCTA 
    TTATTGAATG CCAACAAGAT CAATTGTCTG CGAGTTGATG CATTTCAAGA TCTGCACAAC 
    TTGAATCTTC TTTCTTTGTA TGACAACAAG CTTCAGACCA TTGCAAAAGG CACCTTCTCA 
    CCCCTACGTG CGATTCAGAC CTTGCATTTG GCTCAGAACC CATTTATCTG TGACTGCCAT 
    CTGAAGTGGC TGGCGGATTA CCTTCATACA AACCCCATTG AGACCAGTGG TGCCCGTTGC 
    ACCAGCCCCC GCCGTCTGGC AAACAAAAGG ATCGGCCAGA TCAAAAGCAA GAAATTCCGC 
    TGCTCAGCTA AAGAACAGTA TTTCATTCCA GGAGTTCACC ATTTTGGCTG CACTGAAGAT 
    TACAGATCCA AATTAAGTGG AGACTGCTTT GCAGATCTGG CTTGCCCTGA GAAATGTCGC 
    TGTGAAGGGA CCACAGTGGA CTGCTCCAAT CAGAAACTCA ACAAAATTCC TGATCACATT 
    CCCCAGTACA CAGCAGAGTT GCGACTAAAT AACAATGAAT TTTCAGTCTT GGAAGCTACT 
    GGAATCTTTA AGAAACTTCC TCAGCTGCGT AAAATAAACC TGAGCAATAA CAAGATTACA 
    GATATAGAAG AAGGAGCATT TGATGGGGCC TCTGGTGTGA ATGAACTATT GCTCACAAGC 
    AATCGCTTGG AGAGTGTTCA ACACAAAATG TTCAAGGGAC TAGAAAGTCT CAAAACACTG 
    ATGCTGAGGA GCAACAGGGT GAGCTGTGTG GGAAATGACA GCTTCACAGG GCTGAGCTCT 
    GTCCGCCTGC TCTCGCTGTA TGACAACCAG ATCACCACCG TGGCACCCGG CTCCTTCGAC 
    ACGCTGCATT CGCTCTCTAC GCTAAACCTC TTGGCCAATC CCTTCAACTG CAACTGCCAT 
    CTTGCATGGC TTGGAGACTG GCTAAGGAAG AAACGCATTG TGACAGGGAA CCCTCGTTGC 
    CAAAAACCCT ACTTCCTCAA GGAGATTCCG ATCCAGGATG TGGCAATTCA GGATTTTACA 
    TGTGATGATG GAAATGATGA CAATAGCTGT TCTCCCCTGG CCCGCTGCCC TGCAGAATGT 
    ACTTGTCTGG ACACAGTAGT TCGCTGCAGC AACAAAGGTC TAAAAGCTTT GCCTAAAGGC 
    ATCCCAAAAG ATGTGACTGA ACTTTATTTG GATGGAAATC AGTTTACCCT TGTTCCAAAA 
    GAGCTTTCCA ACTACAAGCA TTTGACACTC ATAGATTTAA GTAACAACAG AATCAGCACT 
    CTTTCTAATC AGAGCTTCAG CAACATGACT CAGCTGCTCA CCTTAATTCT TAGTTACAAC 
    CGCCTAAGAT GTATTCCTGC ACGGACTTTT GATGGGTTGA AATCACTTAG GTTGTTGTCT 
    TTACATGGCA ATGATATTTC TGTTGTTCCT GAAGGAGCCT TTAATGATCT TTCAGCATTA 
    TCACACCTGG CTATTGGCGC AAATCCTCTT TATTGTGATT GTAATATGCA GTGGCTATCT 
    GACTGGGTAA AATCAGAATA CAAAGAACCT GGTATTGCAC GTTGTGCTGG TCCTGGAGAA 
    ATGGCAGATA AACTTCTTCT CACAACTCCT TCTAAGAAAT TTACTTGCCA AGGGCCCGTG 
    GATGTTAATA TTCTTGCAAA GTGTAATCCC TGTTTATCAA ATCCGTGTAA AAATGATGGA 
    ACCTGTAATA ATGATCCAGT TGACTTCTAT AGATGTACAT GCCCATATGG TTTCAAGGGC 
    CAAGACTGTG ATATTCCCAT TCATGCTTGC ATTAGTAACC CGTGCAACCA TGGTGGAACT 
    TGTCATTTGA AAGAAGGAGA AAAAGATGGT TTCTGGTGCA CTTGTGCAGA TGGATTTGAA 
    GGTGAAAACT GTGAAGTAAA TGTCGATGAC TGTGAAGACA ATGACTGTGA AAACAATTCT 
    ACTTGTGTGG ATGGAATTAA TAACTATACT TGCCTTTGTC CACCTGAATA TACAGCTGCT 
    AATCTGAATG AAGTGGAGAA AGGTGAACTC TGTGAGGAGA AATTAGATTT CTGTGCCCAA 
    AACCTGAATC CTTGCCAGCA TGATTCAAAG TGTATCTTAA CACCCAAAGG ATACAAGTGT 
    GATTGCACAC CTGGATATGT AGGTGAGCAT TGTGATATTG ACTTTGACGA CTGCCAGGAC 
    AACAAATGTA AAAACGGAGC GCAGTGCACT GACGCAGTTA ATGGATATAC GTGCGTTTGC 
    CCAGAAGGGT ACAGTGGCTT GTTCTGTGAG TTATCGCCGC CAATGGTTCT ACCTCGCACC 
    AGCCCTTGTG ATAATTATGA ATGTCAAAAT GGGGCCCAGT GTATCATAAA AGAAAGTGAA 
    CCAATCTGTC AGTGTTTATC AGGCTACCAG GGTGAGAAAT GTGAAAAGCT GATTAGTATA 
    AACTTCGTCA ACAAAGAATC CTATCTGCAA ATCCCTTCAG CTAAGATACG CCCCCAAACC 
    AATATCACTC TACAGATTGC CACAGATGAA GACAGTGGGA TCCTGCTGTA CAAAGGCGAT 
    AAAGATCACA TAGCAGTGGA ACTGTACCGG GGTAGAGTGA GGGTCAGCTA TGACACGGGA 
    TCATATCCAG CCTCTGCTAT TTACAGTGTG GAAACAATTA ATGATGGCAA TTTCCACATT 
    GTGGAACTGC TAGCTATGGA TCAGATTCTA TCTTTATCTA TTGATGGAGG AAGCCCCAAG 
    ACAATTACCA ATTTGTCCAA GCAATCCACT CTGAATTTTG ATTCTCCGCT GTATGTAGGA 
    GGCATGCCTG TGAAAAATAA TATAGCAGCT TTGCGCCAGT CGCCAGGGCA GAACGGCACC 
    AGCTTCCATG GTTGCATCCG TAATCTGTAT ATCAACAGCG AACTCCAGGA CTTCAGAAAT 
    GTGCCCCTGC AAGTGGGAAT TCTGCCAGGG TGTGAGCCTT GCCATAAGAA GGTTTGTGTG 
    CATGGCACAT GCCATGCTAC CAGCCAGTCA GGCTTCTCCT GTGAGTGCGA AGGAGGATGG 
    ACCGGACCAC TCTGTGATCA GCAAACTAAC GACCCGTGTC TTGGAAATAA GGACATGGGG 
    GAGTCCTCTG TGATGAAGAG GAAATGCTGC TTAACCCCTG CCAATCCATC AAGTGTAAAC 
    ATGGCAAATG TAGGCTTTCA GGACTTGGGA AACCATATTG CGAATGCAGC AGCGGATACA 
    CGGGGGACAG TTGTGATAAA GAAATCTCTT GTCGAGGGGA ACGAGTCCGA GATTACTACC 
    AAAAGCAGCA AGGCTATGCT GCGTGCCAGA CGACCAAGAA GGTATCGAGA CTAG

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

    SLIT2 ( XM_030270818.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030126678.1 Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OTd44173
    Clone ID Related Accession (Same CDS sequence) XM_030270818.1
    Accession Version XM_030270818.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4644bp)
    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 2019-08-08
    Organism Taeniopygia guttata(zebra finch)
    Product slit homolog 2 protein isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044215.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGATGTGCG GCTGGGGGAA GTTCACCTTG CCCCTGGGGC TGCTGCTGGC GATGGCGGGC 
    GCGGTGGCGC CGCAGCCGTG CCCGGCGCAG TGCTCCTGCT CGGGGAGCAC CGTGGACTGT 
    CACGGGCTGG CGCTGCGCGG CGTCCCGAGG AACATCCCCC GCAACACCGA GAGGCTGGAT 
    CTTAATGGGA ATAACATCAC AAGAATCACG AAGACTGACT TTGCTGGTCT AAGGCACCTT 
    CGAGTTCTTC AGCTCATGGA GAACAAGATT AGTACTATTG AGAGGGGAGC ATTCCAAGAT 
    TTAAAAGAAC TGGAGAGGCT GCGCCTAAAC AGAAATAACC TCCAGTTGCT TTCTGAGCTG 
    CTCTTTCTGG GGACGCCGAA GTTATACAGG CTTGATCTTA GTGAAAATCA GATTCAAGCA 
    ATACCAAGGA AGGCATTCCG AGGAGCAGTA GACATAAAAA ATCTGCAACT GGATTACAAC 
    CAGATCAGCT GTATTGAAGA TGGGGCATTT AGGGCTCTGC GTGACCTGGA AGTGCTCACT 
    CTCAACAATA ACAACATCAC TCGACTATCC GTGGCAAGTT TCAACCATAT GCCCAAACTC 
    AGAACATTCC GCCTTCACTC CAACAACCTG TACTGCGACT GCCACCTGGC CTGGCTGTCG 
    GACTGGCTGC GGCAGCGGCC ACGAGTGGGG CTCTACACGC AGTGCATGGG CCCGTCCCAC 
    CTCCGAGGGC ACAACGTGGC CGAGGTCCAG AAGCGCGAGT TTGTCTGCAG CGATGAGGAA 
    GAAGGTCACC AGTCCTTTAT GGCTCCATCC TGCAGTGTCT TGCACTGCCC TACTGCATGC 
    ACCTGTAGCA ACAACATTGT GGACTGTCGT GGGAAAGGCC TTACAGAGAT CCCAACAAAC 
    CTGCCAGAAA CCATCACTGA AATACGGTTA GAACAAAATT CAATCAAGGT CATACCTCCT 
    GGAGCTTTCT CCCCCTATAA AAAGCTTCGA AGAATTGACC TGAGCAATAA CCAGATCTCT 
    GAAGCAGCTC CAGATGCTTT CCAGGGCTTA CGTTCACTCA ATTCACTAGT CCTCTATGGC 
    AATAAAATCA CAGAACTTCC AAAGGGCCTA TTTGAAGGAC TCTTTTCTCT GCAACTGCTA 
    TTATTGAATG CCAACAAGAT CAATTGTCTG CGAGTTGATG CATTTCAAGA TCTGCACAAC 
    TTGAATCTTC TTTCTTTGTA TGACAACAAG CTTCAGACCA TTGCAAAAGG CACCTTCTCA 
    CCCCTACGTG CGATTCAGAC CTTGCATTTG GCTCAGAACC CATTTATCTG TGACTGCCAT 
    CTGAAGTGGC TGGCGGATTA CCTTCATACA AACCCCATTG AGACCAGTGG TGCCCGTTGC 
    ACCAGCCCCC GCCGTCTGGC AAACAAAAGG ATCGGCCAGA TCAAAAGCAA GAAATTCCGC 
    TGCTCAGCTA AAGAACAGTA TTTCATTCCA GGAGTTCACC ATTTTGGCTG CACTGAAGAT 
    TACAGATCCA AATTAAGTGG AGACTGCTTT GCAGATCTGG CTTGCCCTGA GAAATGTCGC 
    TGTGAAGGGA CCACAGTGGA CTGCTCCAAT CAGAAACTCA ACAAAATTCC TGATCACATT 
    CCCCAGTACA CAGCAGAGTT GCGACTAAAT AACAATGAAT TTTCAGTCTT GGAAGCTACT 
    GGAATCTTTA AGAAACTTCC TCAGCTGCGT AAAATAAACC TGAGCAATAA CAAGATTACA 
    GATATAGAAG AAGGAGCATT TGATGGGGCC TCTGGTGTGA ATGAACTATT GCTCACAAGC 
    AATCGCTTGG AGAGTGTTCA ACACAAAATG TTCAAGGGAC TAGAAAGTCT CAAAACACTG 
    ATGCTGAGGA GCAACAGGGT GAGCTGTGTG GGAAATGACA GCTTCACAGG GCTGAGCTCT 
    GTCCGCCTGC TCTCGCTGTA TGACAACCAG ATCACCACCG TGGCACCCGG CTCCTTCGAC 
    ACGCTGCATT CGCTCTCTAC GCTAAACCTC TTGGCCAATC CCTTCAACTG CAACTGCCAT 
    CTTGCATGGC TTGGAGACTG GCTAAGGAAG AAACGCATTG TGACAGGGAA CCCTCGTTGC 
    CAAAAACCCT ACTTCCTCAA GGAGATTCCG ATCCAGGATG TGGCAATTCA GGATTTTACA 
    TGTGATGATG GAAATGATGA CAATAGCTGT TCTCCCCTGG CCCGCTGCCC TGCAGAATGT 
    ACTTGTCTGG ACACAGTAGT TCGCTGCAGC AACAAAGGTC TAAAAGCTTT GCCTAAAGGC 
    ATCCCAAAAG ATGTGACTGA ACTTTATTTG GATGGAAATC AGTTTACCCT TGTTCCAAAA 
    GAGCTTTCCA ACTACAAGCA TTTGACACTC ATAGATTTAA GTAACAACAG AATCAGCACT 
    CTTTCTAATC AGAGCTTCAG CAACATGACT CAGCTGCTCA CCTTAATTCT TAGTTACAAC 
    CGCCTAAGAT GTATTCCTGC ACGGACTTTT GATGGGTTGA AATCACTTAG GTTGTTGTCT 
    TTACATGGCA ATGATATTTC TGTTGTTCCT GAAGGAGCCT TTAATGATCT TTCAGCATTA 
    TCACACCTGG CTATTGGCGC AAATCCTCTT TATTGTGATT GTAATATGCA GTGGCTATCT 
    GACTGGGTAA AATCAGAATA CAAAGAACCT GGTATTGCAC GTTGTGCTGG TCCTGGAGAA 
    ATGGCAGATA AACTTCTTCT CACAACTCCT TCTAAGAAAT TTACTTGCCA AGGGCCCGTG 
    GATGTTAATA TTCTTGCAAA GTGTAATCCC TGTTTATCAA ATCCGTGTAA AAATGATGGA 
    ACCTGTAATA ATGATCCAGT TGACTTCTAT AGATGTACAT GCCCATATGG TTTCAAGGGC 
    CAAGACTGTG ATATTCCCAT TCATGCTTGC ATTAGTAACC CGTGCAACCA TGGTGGAACT 
    TGTCATTTGA AAGAAGGAGA AAAAGATGGT TTCTGGTGCA CTTGTGCAGA TGGATTTGAA 
    GGTGAAAACT GTGAAGTAAA TGTCGATGAC TGTGAAGACA ATGACTGTGA AAACAATTCT 
    ACTTGTGTGG ATGGAATTAA TAACTATACT TGCCTTTGTC CACCTGAATA TACAGCTGCT 
    AATCTGAATG AAGTGGAGAA AGGTGAACTC TGTGAGGAGA AATTAGATTT CTGTGCCCAA 
    AACCTGAATC CTTGCCAGCA TGATTCAAAG TGTATCTTAA CACCCAAAGG ATACAAGTGT 
    GATTGCACAC CTGGATATGT AGGTGAGCAT TGTGATATTG ACTTTGACGA CTGCCAGGAC 
    AACAAATGTA AAAACGGAGC GCAGTGCACT GACGCAGTTA ATGGATATAC GTGCGTTTGC 
    CCAGAAGGGT ACAGTGGCTT GTTCTGTGAG TTATCGCCGC CAATGGTTCT ACCTCGCACC 
    AGCCCTTGTG ATAATTATGA ATGTCAAAAT GGGGCCCAGT GTATCATAAA AGAAAGTGAA 
    CCAATCTGTC AGTGTTTATC AGGCTACCAG GGTGAGAAAT GTGAAAAGCT GATTAGTATA 
    AACTTCGTCA ACAAAGAATC CTATCTGCAA ATCCCTTCAG CTAAGATACG CCCCCAAACC 
    AATATCACTC TACAGATTGC CACAGATGAA GACAGTGGGA TCCTGCTGTA CAAAGGCGAT 
    AAAGATCACA TAGCAGTGGA ACTGTACCGG GGTAGAGTGA GGGTCAGCTA TGACACGGGA 
    TCATATCCAG CCTCTGCTAT TTACAGTGTG GAAACAATTA ATGATGGCAA TTTCCACATT 
    GTGGAACTGC TAGCTATGGA TCAGATTCTA TCTTTATCTA TTGATGGAGG AAGCCCCAAG 
    ACAATTACCA ATTTGTCCAA GCAATCCACT CTGAATTTTG ATTCTCCGCT GTATGTAGGA 
    GGCATGCCTG TGAAAAATAA TATAGCAGCT TTGCGCCAGT CGCCAGGGCA GAACGGCACC 
    AGCTTCCATG GTTGCATCCG TAATCTGTAT ATCAACAGCG AACTCCAGGA CTTCAGAAAT 
    GTGCCCCTGC AAGTGGGAAT TCTGCCAGGG TGTGAGCCTT GCCATAAGAA GGTTTGTGTG 
    CATGGCACAT GCCATGCTAC CAGCCAGTCA GGCTTCTCCT GTGAGTGCGA AGGAGGATGG 
    ACCGGACCAC TCTGTGATCA GCAAACTAAC GACCCGTGTC TTGGAAATAA ATGTGTGCAT 
    GGTACCTGCT TGCCGATCAA TGCATTTTCA TACAGTTGTA AATGCCTGCA GGGACATGGG 
    GGAGTCCTCT GTGATGAAGA GGAAATGCTG CTTAACCCCT GCCAATCCAT CAAGTGTAAA 
    CATGGCAAAT GTAGGCTTTC AGGACTTGGG AAACCATATT GCGAATGCAG CAGCGGATAC 
    ACGGGGGACA GTTGTGATAA AGAAATCTCT TGTCGAGGGG AACGAGTCCG AGATTACTAC 
    CAAAAGCAGC AAGGCTATGC TGCGTGCCAG ACGACCAAGA AGGTATCGAG ACTAGAATGT 
    AAAGGCGGGT GCTCGGCCGG GCAGTGCTGC GGGCCGCTGC GCAGCAAGAG GCGGAAATAC 
    TCCTTCGAGT GCACTGACGG GTCGTCGTTT GTGGACGAGG TGGAAAAAGT GGTGAAGTGT 
    GGCTGTACAA ATTGTCCCTC CTAA

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

    RefSeq XP_030126678.1
    CDS23..4666
    Translation

    Target ORF information:

    RefSeq Version XM_030270818.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030270818.1

    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
    ATGATGTGCG GCTGGGGGAA GTTCACCTTG CCCCTGGGGC TGCTGCTGGC GATGGCGGGC 
    GCGGTGGCGC CGCAGCCGTG CCCGGCGCAG TGCTCCTGCT CGGGGAGCAC CGTGGACTGT 
    CACGGGCTGG CGCTGCGCGG CGTCCCGAGG AACATCCCCC GCAACACCGA GAGGCTGGAT 
    CTTAATGGGA ATAACATCAC AAGAATCACG AAGACTGACT TTGCTGGTCT AAGGCACCTT 
    CGAGTTCTTC AGCTCATGGA GAACAAGATT AGTACTATTG AGAGGGGAGC ATTCCAAGAT 
    TTAAAAGAAC TGGAGAGGCT GCGCCTAAAC AGAAATAACC TCCAGTTGCT TTCTGAGCTG 
    CTCTTTCTGG GGACGCCGAA GTTATACAGG CTTGATCTTA GTGAAAATCA GATTCAAGCA 
    ATACCAAGGA AGGCATTCCG AGGAGCAGTA GACATAAAAA ATCTGCAACT GGATTACAAC 
    CAGATCAGCT GTATTGAAGA TGGGGCATTT AGGGCTCTGC GTGACCTGGA AGTGCTCACT 
    CTCAACAATA ACAACATCAC TCGACTATCC GTGGCAAGTT TCAACCATAT GCCCAAACTC 
    AGAACATTCC GCCTTCACTC CAACAACCTG TACTGCGACT GCCACCTGGC CTGGCTGTCG 
    GACTGGCTGC GGCAGCGGCC ACGAGTGGGG CTCTACACGC AGTGCATGGG CCCGTCCCAC 
    CTCCGAGGGC ACAACGTGGC CGAGGTCCAG AAGCGCGAGT TTGTCTGCAG CGATGAGGAA 
    GAAGGTCACC AGTCCTTTAT GGCTCCATCC TGCAGTGTCT TGCACTGCCC TACTGCATGC 
    ACCTGTAGCA ACAACATTGT GGACTGTCGT GGGAAAGGCC TTACAGAGAT CCCAACAAAC 
    CTGCCAGAAA CCATCACTGA AATACGGTTA GAACAAAATT CAATCAAGGT CATACCTCCT 
    GGAGCTTTCT CCCCCTATAA AAAGCTTCGA AGAATTGACC TGAGCAATAA CCAGATCTCT 
    GAAGCAGCTC CAGATGCTTT CCAGGGCTTA CGTTCACTCA ATTCACTAGT CCTCTATGGC 
    AATAAAATCA CAGAACTTCC AAAGGGCCTA TTTGAAGGAC TCTTTTCTCT GCAACTGCTA 
    TTATTGAATG CCAACAAGAT CAATTGTCTG CGAGTTGATG CATTTCAAGA TCTGCACAAC 
    TTGAATCTTC TTTCTTTGTA TGACAACAAG CTTCAGACCA TTGCAAAAGG CACCTTCTCA 
    CCCCTACGTG CGATTCAGAC CTTGCATTTG GCTCAGAACC CATTTATCTG TGACTGCCAT 
    CTGAAGTGGC TGGCGGATTA CCTTCATACA AACCCCATTG AGACCAGTGG TGCCCGTTGC 
    ACCAGCCCCC GCCGTCTGGC AAACAAAAGG ATCGGCCAGA TCAAAAGCAA GAAATTCCGC 
    TGCTCAGCTA AAGAACAGTA TTTCATTCCA GGAGTTCACC ATTTTGGCTG CACTGAAGAT 
    TACAGATCCA AATTAAGTGG AGACTGCTTT GCAGATCTGG CTTGCCCTGA GAAATGTCGC 
    TGTGAAGGGA CCACAGTGGA CTGCTCCAAT CAGAAACTCA ACAAAATTCC TGATCACATT 
    CCCCAGTACA CAGCAGAGTT GCGACTAAAT AACAATGAAT TTTCAGTCTT GGAAGCTACT 
    GGAATCTTTA AGAAACTTCC TCAGCTGCGT AAAATAAACC TGAGCAATAA CAAGATTACA 
    GATATAGAAG AAGGAGCATT TGATGGGGCC TCTGGTGTGA ATGAACTATT GCTCACAAGC 
    AATCGCTTGG AGAGTGTTCA ACACAAAATG TTCAAGGGAC TAGAAAGTCT CAAAACACTG 
    ATGCTGAGGA GCAACAGGGT GAGCTGTGTG GGAAATGACA GCTTCACAGG GCTGAGCTCT 
    GTCCGCCTGC TCTCGCTGTA TGACAACCAG ATCACCACCG TGGCACCCGG CTCCTTCGAC 
    ACGCTGCATT CGCTCTCTAC GCTAAACCTC TTGGCCAATC CCTTCAACTG CAACTGCCAT 
    CTTGCATGGC TTGGAGACTG GCTAAGGAAG AAACGCATTG TGACAGGGAA CCCTCGTTGC 
    CAAAAACCCT ACTTCCTCAA GGAGATTCCG ATCCAGGATG TGGCAATTCA GGATTTTACA 
    TGTGATGATG GAAATGATGA CAATAGCTGT TCTCCCCTGG CCCGCTGCCC TGCAGAATGT 
    ACTTGTCTGG ACACAGTAGT TCGCTGCAGC AACAAAGGTC TAAAAGCTTT GCCTAAAGGC 
    ATCCCAAAAG ATGTGACTGA ACTTTATTTG GATGGAAATC AGTTTACCCT TGTTCCAAAA 
    GAGCTTTCCA ACTACAAGCA TTTGACACTC ATAGATTTAA GTAACAACAG AATCAGCACT 
    CTTTCTAATC AGAGCTTCAG CAACATGACT CAGCTGCTCA CCTTAATTCT TAGTTACAAC 
    CGCCTAAGAT GTATTCCTGC ACGGACTTTT GATGGGTTGA AATCACTTAG GTTGTTGTCT 
    TTACATGGCA ATGATATTTC TGTTGTTCCT GAAGGAGCCT TTAATGATCT TTCAGCATTA 
    TCACACCTGG CTATTGGCGC AAATCCTCTT TATTGTGATT GTAATATGCA GTGGCTATCT 
    GACTGGGTAA AATCAGAATA CAAAGAACCT GGTATTGCAC GTTGTGCTGG TCCTGGAGAA 
    ATGGCAGATA AACTTCTTCT CACAACTCCT TCTAAGAAAT TTACTTGCCA AGGGCCCGTG 
    GATGTTAATA TTCTTGCAAA GTGTAATCCC TGTTTATCAA ATCCGTGTAA AAATGATGGA 
    ACCTGTAATA ATGATCCAGT TGACTTCTAT AGATGTACAT GCCCATATGG TTTCAAGGGC 
    CAAGACTGTG ATATTCCCAT TCATGCTTGC ATTAGTAACC CGTGCAACCA TGGTGGAACT 
    TGTCATTTGA AAGAAGGAGA AAAAGATGGT TTCTGGTGCA CTTGTGCAGA TGGATTTGAA 
    GGTGAAAACT GTGAAGTAAA TGTCGATGAC TGTGAAGACA ATGACTGTGA AAACAATTCT 
    ACTTGTGTGG ATGGAATTAA TAACTATACT TGCCTTTGTC CACCTGAATA TACAGCTGCT 
    AATCTGAATG AAGTGGAGAA AGGTGAACTC TGTGAGGAGA AATTAGATTT CTGTGCCCAA 
    AACCTGAATC CTTGCCAGCA TGATTCAAAG TGTATCTTAA CACCCAAAGG ATACAAGTGT 
    GATTGCACAC CTGGATATGT AGGTGAGCAT TGTGATATTG ACTTTGACGA CTGCCAGGAC 
    AACAAATGTA AAAACGGAGC GCAGTGCACT GACGCAGTTA ATGGATATAC GTGCGTTTGC 
    CCAGAAGGGT ACAGTGGCTT GTTCTGTGAG TTATCGCCGC CAATGGTTCT ACCTCGCACC 
    AGCCCTTGTG ATAATTATGA ATGTCAAAAT GGGGCCCAGT GTATCATAAA AGAAAGTGAA 
    CCAATCTGTC AGTGTTTATC AGGCTACCAG GGTGAGAAAT GTGAAAAGCT GATTAGTATA 
    AACTTCGTCA ACAAAGAATC CTATCTGCAA ATCCCTTCAG CTAAGATACG CCCCCAAACC 
    AATATCACTC TACAGATTGC CACAGATGAA GACAGTGGGA TCCTGCTGTA CAAAGGCGAT 
    AAAGATCACA TAGCAGTGGA ACTGTACCGG GGTAGAGTGA GGGTCAGCTA TGACACGGGA 
    TCATATCCAG CCTCTGCTAT TTACAGTGTG GAAACAATTA ATGATGGCAA TTTCCACATT 
    GTGGAACTGC TAGCTATGGA TCAGATTCTA TCTTTATCTA TTGATGGAGG AAGCCCCAAG 
    ACAATTACCA ATTTGTCCAA GCAATCCACT CTGAATTTTG ATTCTCCGCT GTATGTAGGA 
    GGCATGCCTG TGAAAAATAA TATAGCAGCT TTGCGCCAGT CGCCAGGGCA GAACGGCACC 
    AGCTTCCATG GTTGCATCCG TAATCTGTAT ATCAACAGCG AACTCCAGGA CTTCAGAAAT 
    GTGCCCCTGC AAGTGGGAAT TCTGCCAGGG TGTGAGCCTT GCCATAAGAA GGTTTGTGTG 
    CATGGCACAT GCCATGCTAC CAGCCAGTCA GGCTTCTCCT GTGAGTGCGA AGGAGGATGG 
    ACCGGACCAC TCTGTGATCA GCAAACTAAC GACCCGTGTC TTGGAAATAA ATGTGTGCAT 
    GGTACCTGCT TGCCGATCAA TGCATTTTCA TACAGTTGTA AATGCCTGCA GGGACATGGG 
    GGAGTCCTCT GTGATGAAGA GGAAATGCTG CTTAACCCCT GCCAATCCAT CAAGTGTAAA 
    CATGGCAAAT GTAGGCTTTC AGGACTTGGG AAACCATATT GCGAATGCAG CAGCGGATAC 
    ACGGGGGACA GTTGTGATAA AGAAATCTCT TGTCGAGGGG AACGAGTCCG AGATTACTAC 
    CAAAAGCAGC AAGGCTATGC TGCGTGCCAG ACGACCAAGA AGGTATCGAG ACTAGAATGT 
    AAAGGCGGGT GCTCGGCCGG GCAGTGCTGC GGGCCGCTGC GCAGCAAGAG GCGGAAATAC 
    TCCTTCGAGT GCACTGACGG GTCGTCGTTT GTGGACGAGG TGGAAAAAGT GGTGAAGTGT 
    GGCTGTACAA ATTGTCCCTC CTAA

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

    SLIT2 ( XM_030270819.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030126679.1 Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OTd44174
    Clone ID Related Accession (Same CDS sequence) XM_030270819.1
    Accession Version XM_030270819.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4632bp)
    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 2019-08-08
    Organism Taeniopygia guttata(zebra finch)
    Product slit homolog 2 protein isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044215.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGATGTGCG GCTGGGGGAA GTTCACCTTG CCCCTGGGGC TGCTGCTGGC GATGGCGGGC 
    GCGGTGGCGC CGCAGCCGTG CCCGGCGCAG TGCTCCTGCT CGGGGAGCAC CGTGGACTGT 
    CACGGGCTGG CGCTGCGCGG CGTCCCGAGG AACATCCCCC GCAACACCGA GAGGCTGGAT 
    CTTAATGGGA ATAACATCAC AAGAATCACG AAGACTGACT TTGCTGGTCT AAGGCACCTT 
    CGAGTTCTTC AGCTCATGGA GAACAAGATT AGTACTATTG AGAGGGGAGC ATTCCAAGAT 
    TTAAAAGAAC TGGAGAGGCT GCGCCTAAAC AGAAATAACC TCCAGTTGCT TTCTGAGCTG 
    CTCTTTCTGG GGACGCCGAA GTTATACAGG CTTGATCTTA GTGAAAATCA GATTCAAGCA 
    ATACCAAGGA AGGCATTCCG AGGAGCAGTA GACATAAAAA ATCTGCAACT GGATTACAAC 
    CAGATCAGCT GTATTGAAGA TGGGGCATTT AGGGCTCTGC GTGACCTGGA AGTGCTCACT 
    CTCAACAATA ACAACATCAC TCGACTATCC GTGGCAAGTT TCAACCATAT GCCCAAACTC 
    AGAACATTCC GCCTTCACTC CAACAACCTG TACTGCGACT GCCACCTGGC CTGGCTGTCG 
    GACTGGCTGC GGCAGCGGCC ACGAGTGGGG CTCTACACGC AGTGCATGGG CCCGTCCCAC 
    CTCCGAGGGC ACAACGTGGC CGAGGTCCAG AAGCGCGAGT TTGTCTGCAG CGGTCACCAG 
    TCCTTTATGG CTCCATCCTG CAGTGTCTTG CACTGCCCTA CTGCATGCAC CTGTAGCAAC 
    AACATTGTGG ACTGTCGTGG GAAAGGCCTT ACAGAGATCC CAACAAACCT GCCAGAAACC 
    ATCACTGAAA TACGGTTAGA ACAAAATTCA ATCAAGGTCA TACCTCCTGG AGCTTTCTCC 
    CCCTATAAAA AGCTTCGAAG AATTGACCTG AGCAATAACC AGATCTCTGA AGCAGCTCCA 
    GATGCTTTCC AGGGCTTACG TTCACTCAAT TCACTAGTCC TCTATGGCAA TAAAATCACA 
    GAACTTCCAA AGGGCCTATT TGAAGGACTC TTTTCTCTGC AACTGCTATT ATTGAATGCC 
    AACAAGATCA ATTGTCTGCG AGTTGATGCA TTTCAAGATC TGCACAACTT GAATCTTCTT 
    TCTTTGTATG ACAACAAGCT TCAGACCATT GCAAAAGGCA CCTTCTCACC CCTACGTGCG 
    ATTCAGACCT TGCATTTGGC TCAGAACCCA TTTATCTGTG ACTGCCATCT GAAGTGGCTG 
    GCGGATTACC TTCATACAAA CCCCATTGAG ACCAGTGGTG CCCGTTGCAC CAGCCCCCGC 
    CGTCTGGCAA ACAAAAGGAT CGGCCAGATC AAAAGCAAGA AATTCCGCTG CTCAGCTAAA 
    GAACAGTATT TCATTCCAGG AGTTCACCAT TTTGGCTGCA CTGAAGATTA CAGATCCAAA 
    TTAAGTGGAG ACTGCTTTGC AGATCTGGCT TGCCCTGAGA AATGTCGCTG TGAAGGGACC 
    ACAGTGGACT GCTCCAATCA GAAACTCAAC AAAATTCCTG ATCACATTCC CCAGTACACA 
    GCAGAGTTGC GACTAAATAA CAATGAATTT TCAGTCTTGG AAGCTACTGG AATCTTTAAG 
    AAACTTCCTC AGCTGCGTAA AATAAACCTG AGCAATAACA AGATTACAGA TATAGAAGAA 
    GGAGCATTTG ATGGGGCCTC TGGTGTGAAT GAACTATTGC TCACAAGCAA TCGCTTGGAG 
    AGTGTTCAAC ACAAAATGTT CAAGGGACTA GAAAGTCTCA AAACACTGAT GCTGAGGAGC 
    AACAGGGTGA GCTGTGTGGG AAATGACAGC TTCACAGGGC TGAGCTCTGT CCGCCTGCTC 
    TCGCTGTATG ACAACCAGAT CACCACCGTG GCACCCGGCT CCTTCGACAC GCTGCATTCG 
    CTCTCTACGC TAAACCTCTT GGCCAATCCC TTCAACTGCA ACTGCCATCT TGCATGGCTT 
    GGAGACTGGC TAAGGAAGAA ACGCATTGTG ACAGGGAACC CTCGTTGCCA AAAACCCTAC 
    TTCCTCAAGG AGATTCCGAT CCAGGATGTG GCAATTCAGG ATTTTACATG TGATGATGGA 
    AATGATGACA ATAGCTGTTC TCCCCTGGCC CGCTGCCCTG CAGAATGTAC TTGTCTGGAC 
    ACAGTAGTTC GCTGCAGCAA CAAAGGTCTA AAAGCTTTGC CTAAAGGCAT CCCAAAAGAT 
    GTGACTGAAC TTTATTTGGA TGGAAATCAG TTTACCCTTG TTCCAAAAGA GCTTTCCAAC 
    TACAAGCATT TGACACTCAT AGATTTAAGT AACAACAGAA TCAGCACTCT TTCTAATCAG 
    AGCTTCAGCA ACATGACTCA GCTGCTCACC TTAATTCTTA GTTACAACCG CCTAAGATGT 
    ATTCCTGCAC GGACTTTTGA TGGGTTGAAA TCACTTAGGT TGTTGTCTTT ACATGGCAAT 
    GATATTTCTG TTGTTCCTGA AGGAGCCTTT AATGATCTTT CAGCATTATC ACACCTGGCT 
    ATTGGCGCAA ATCCTCTTTA TTGTGATTGT AATATGCAGT GGCTATCTGA CTGGGTAAAA 
    TCAGAATACA AAGAACCTGG TATTGCACGT TGTGCTGGTC CTGGAGAAAT GGCAGATAAA 
    CTTCTTCTCA CAACTCCTTC TAAGAAATTT ACTTGCCAAG GGCCCGTGGA TGTTAATATT 
    CTTGCAAAGT GTAATCCCTG TTTATCAAAT CCGTGTAAAA ATGATGGAAC CTGTAATAAT 
    GATCCAGTTG ACTTCTATAG ATGTACATGC CCATATGGTT TCAAGGGCCA AGACTGTGAT 
    ATTCCCATTC ATGCTTGCAT TAGTAACCCG TGCAACCATG GTGGAACTTG TCATTTGAAA 
    GAAGGAGAAA AAGATGGTTT CTGGTGCACT TGTGCAGATG GATTTGAAGG TGAAAACTGT 
    GAAGTAAATG TCGATGACTG TGAAGACAAT GACTGTGAAA ACAATTCTAC TTGTGTGGAT 
    GGAATTAATA ACTATACTTG CCTTTGTCCA CCTGAATATA CAGCTGCTAA TCTGAATGAA 
    GTGGAGAAAG GTGAACTCTG TGAGGAGAAA TTAGATTTCT GTGCCCAAAA CCTGAATCCT 
    TGCCAGCATG ATTCAAAGTG TATCTTAACA CCCAAAGGAT ACAAGTGTGA TTGCACACCT 
    GGATATGTAG GTGAGCATTG TGATATTGAC TTTGACGACT GCCAGGACAA CAAATGTAAA 
    AACGGAGCGC AGTGCACTGA CGCAGTTAAT GGATATACGT GCGTTTGCCC AGAAGGGTAC 
    AGTGGCTTGT TCTGTGAGTT ATCGCCGCCA ATGGTTCTAC CTCGCACCAG CCCTTGTGAT 
    AATTATGAAT GTCAAAATGG GGCCCAGTGT ATCATAAAAG AAAGTGAACC AATCTGTCAG 
    TGTTTATCAG GCTACCAGGG TGAGAAATGT GAAAAGCTGA TTAGTATAAA CTTCGTCAAC 
    AAAGAATCCT ATCTGCAAAT CCCTTCAGCT AAGATACGCC CCCAAACCAA TATCACTCTA 
    CAGATTGCCA CAGATGAAGA CAGTGGGATC CTGCTGTACA AAGGCGATAA AGATCACATA 
    GCAGTGGAAC TGTACCGGGG TAGAGTGAGG GTCAGCTATG ACACGGGATC ATATCCAGCC 
    TCTGCTATTT ACAGTGTGGA AACAATTAAT GATGGCAATT TCCACATTGT GGAACTGCTA 
    GCTATGGATC AGATTCTATC TTTATCTATT GATGGAGGAA GCCCCAAGAC AATTACCAAT 
    TTGTCCAAGC AATCCACTCT GAATTTTGAT TCTCCGCTGT ATGTAGGAGG CATGCCTGTG 
    AAAAATAATA TAGCAGCTTT GCGCCAGTCG CCAGGGCAGA ACGGCACCAG CTTCCATGGT 
    TGCATCCGTA ATCTGTATAT CAACAGCGAA CTCCAGGACT TCAGAAATGT GCCCCTGCAA 
    GTGGGAATTC TGCCAGGGTG TGAGCCTTGC CATAAGAAGG TTTGTGTGCA TGGCACATGC 
    CATGCTACCA GCCAGTCAGG CTTCTCCTGT GAGTGCGAAG GAGGATGGAC CGGACCACTC 
    TGTGATCAGC AAACTAACGA CCCGTGTCTT GGAAATAAAT GTGTGCATGG TACCTGCTTG 
    CCGATCAATG CATTTTCATA CAGTTGTAAA TGCCTGCAGG GACATGGGGG AGTCCTCTGT 
    GATGAAGAGG AAATGCTGCT TAACCCCTGC CAATCCATCA AGTGTAAACA TGGCAAATGT 
    AGGCTTTCAG GACTTGGGAA ACCATATTGC GAATGCAGCA GCGGATACAC GGGGGACAGT 
    TGTGATAAAG AAATCTCTTG TCGAGGGGAA CGAGTCCGAG ATTACTACCA AAAGCAGCAA 
    GGCTATGCTG CGTGCCAGAC GACCAAGAAG GTATCGAGAC TAGAATGTAA AGGCGGGTGC 
    TCGGCCGGGC AGTGCTGCGG GCCGCTGCGC AGCAAGAGGC GGAAATACTC CTTCGAGTGC 
    ACTGACGGGT CGTCGTTTGT GGACGAGGTG GAAAAAGTGG TGAAGTGTGG CTGTACAAAT 
    TGTCCCTCCT AA

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

    RefSeq XP_030126679.1
    CDS23..4654
    Translation

    Target ORF information:

    RefSeq Version XM_030270819.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030270819.1

    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
    ATGATGTGCG GCTGGGGGAA GTTCACCTTG CCCCTGGGGC TGCTGCTGGC GATGGCGGGC 
    GCGGTGGCGC CGCAGCCGTG CCCGGCGCAG TGCTCCTGCT CGGGGAGCAC CGTGGACTGT 
    CACGGGCTGG CGCTGCGCGG CGTCCCGAGG AACATCCCCC GCAACACCGA GAGGCTGGAT 
    CTTAATGGGA ATAACATCAC AAGAATCACG AAGACTGACT TTGCTGGTCT AAGGCACCTT 
    CGAGTTCTTC AGCTCATGGA GAACAAGATT AGTACTATTG AGAGGGGAGC ATTCCAAGAT 
    TTAAAAGAAC TGGAGAGGCT GCGCCTAAAC AGAAATAACC TCCAGTTGCT TTCTGAGCTG 
    CTCTTTCTGG GGACGCCGAA GTTATACAGG CTTGATCTTA GTGAAAATCA GATTCAAGCA 
    ATACCAAGGA AGGCATTCCG AGGAGCAGTA GACATAAAAA ATCTGCAACT GGATTACAAC 
    CAGATCAGCT GTATTGAAGA TGGGGCATTT AGGGCTCTGC GTGACCTGGA AGTGCTCACT 
    CTCAACAATA ACAACATCAC TCGACTATCC GTGGCAAGTT TCAACCATAT GCCCAAACTC 
    AGAACATTCC GCCTTCACTC CAACAACCTG TACTGCGACT GCCACCTGGC CTGGCTGTCG 
    GACTGGCTGC GGCAGCGGCC ACGAGTGGGG CTCTACACGC AGTGCATGGG CCCGTCCCAC 
    CTCCGAGGGC ACAACGTGGC CGAGGTCCAG AAGCGCGAGT TTGTCTGCAG CGGTCACCAG 
    TCCTTTATGG CTCCATCCTG CAGTGTCTTG CACTGCCCTA CTGCATGCAC CTGTAGCAAC 
    AACATTGTGG ACTGTCGTGG GAAAGGCCTT ACAGAGATCC CAACAAACCT GCCAGAAACC 
    ATCACTGAAA TACGGTTAGA ACAAAATTCA ATCAAGGTCA TACCTCCTGG AGCTTTCTCC 
    CCCTATAAAA AGCTTCGAAG AATTGACCTG AGCAATAACC AGATCTCTGA AGCAGCTCCA 
    GATGCTTTCC AGGGCTTACG TTCACTCAAT TCACTAGTCC TCTATGGCAA TAAAATCACA 
    GAACTTCCAA AGGGCCTATT TGAAGGACTC TTTTCTCTGC AACTGCTATT ATTGAATGCC 
    AACAAGATCA ATTGTCTGCG AGTTGATGCA TTTCAAGATC TGCACAACTT GAATCTTCTT 
    TCTTTGTATG ACAACAAGCT TCAGACCATT GCAAAAGGCA CCTTCTCACC CCTACGTGCG 
    ATTCAGACCT TGCATTTGGC TCAGAACCCA TTTATCTGTG ACTGCCATCT GAAGTGGCTG 
    GCGGATTACC TTCATACAAA CCCCATTGAG ACCAGTGGTG CCCGTTGCAC CAGCCCCCGC 
    CGTCTGGCAA ACAAAAGGAT CGGCCAGATC AAAAGCAAGA AATTCCGCTG CTCAGCTAAA 
    GAACAGTATT TCATTCCAGG AGTTCACCAT TTTGGCTGCA CTGAAGATTA CAGATCCAAA 
    TTAAGTGGAG ACTGCTTTGC AGATCTGGCT TGCCCTGAGA AATGTCGCTG TGAAGGGACC 
    ACAGTGGACT GCTCCAATCA GAAACTCAAC AAAATTCCTG ATCACATTCC CCAGTACACA 
    GCAGAGTTGC GACTAAATAA CAATGAATTT TCAGTCTTGG AAGCTACTGG AATCTTTAAG 
    AAACTTCCTC AGCTGCGTAA AATAAACCTG AGCAATAACA AGATTACAGA TATAGAAGAA 
    GGAGCATTTG ATGGGGCCTC TGGTGTGAAT GAACTATTGC TCACAAGCAA TCGCTTGGAG 
    AGTGTTCAAC ACAAAATGTT CAAGGGACTA GAAAGTCTCA AAACACTGAT GCTGAGGAGC 
    AACAGGGTGA GCTGTGTGGG AAATGACAGC TTCACAGGGC TGAGCTCTGT CCGCCTGCTC 
    TCGCTGTATG ACAACCAGAT CACCACCGTG GCACCCGGCT CCTTCGACAC GCTGCATTCG 
    CTCTCTACGC TAAACCTCTT GGCCAATCCC TTCAACTGCA ACTGCCATCT TGCATGGCTT 
    GGAGACTGGC TAAGGAAGAA ACGCATTGTG ACAGGGAACC CTCGTTGCCA AAAACCCTAC 
    TTCCTCAAGG AGATTCCGAT CCAGGATGTG GCAATTCAGG ATTTTACATG TGATGATGGA 
    AATGATGACA ATAGCTGTTC TCCCCTGGCC CGCTGCCCTG CAGAATGTAC TTGTCTGGAC 
    ACAGTAGTTC GCTGCAGCAA CAAAGGTCTA AAAGCTTTGC CTAAAGGCAT CCCAAAAGAT 
    GTGACTGAAC TTTATTTGGA TGGAAATCAG TTTACCCTTG TTCCAAAAGA GCTTTCCAAC 
    TACAAGCATT TGACACTCAT AGATTTAAGT AACAACAGAA TCAGCACTCT TTCTAATCAG 
    AGCTTCAGCA ACATGACTCA GCTGCTCACC TTAATTCTTA GTTACAACCG CCTAAGATGT 
    ATTCCTGCAC GGACTTTTGA TGGGTTGAAA TCACTTAGGT TGTTGTCTTT ACATGGCAAT 
    GATATTTCTG TTGTTCCTGA AGGAGCCTTT AATGATCTTT CAGCATTATC ACACCTGGCT 
    ATTGGCGCAA ATCCTCTTTA TTGTGATTGT AATATGCAGT GGCTATCTGA CTGGGTAAAA 
    TCAGAATACA AAGAACCTGG TATTGCACGT TGTGCTGGTC CTGGAGAAAT GGCAGATAAA 
    CTTCTTCTCA CAACTCCTTC TAAGAAATTT ACTTGCCAAG GGCCCGTGGA TGTTAATATT 
    CTTGCAAAGT GTAATCCCTG TTTATCAAAT CCGTGTAAAA ATGATGGAAC CTGTAATAAT 
    GATCCAGTTG ACTTCTATAG ATGTACATGC CCATATGGTT TCAAGGGCCA AGACTGTGAT 
    ATTCCCATTC ATGCTTGCAT TAGTAACCCG TGCAACCATG GTGGAACTTG TCATTTGAAA 
    GAAGGAGAAA AAGATGGTTT CTGGTGCACT TGTGCAGATG GATTTGAAGG TGAAAACTGT 
    GAAGTAAATG TCGATGACTG TGAAGACAAT GACTGTGAAA ACAATTCTAC TTGTGTGGAT 
    GGAATTAATA ACTATACTTG CCTTTGTCCA CCTGAATATA CAGCTGCTAA TCTGAATGAA 
    GTGGAGAAAG GTGAACTCTG TGAGGAGAAA TTAGATTTCT GTGCCCAAAA CCTGAATCCT 
    TGCCAGCATG ATTCAAAGTG TATCTTAACA CCCAAAGGAT ACAAGTGTGA TTGCACACCT 
    GGATATGTAG GTGAGCATTG TGATATTGAC TTTGACGACT GCCAGGACAA CAAATGTAAA 
    AACGGAGCGC AGTGCACTGA CGCAGTTAAT GGATATACGT GCGTTTGCCC AGAAGGGTAC 
    AGTGGCTTGT TCTGTGAGTT ATCGCCGCCA ATGGTTCTAC CTCGCACCAG CCCTTGTGAT 
    AATTATGAAT GTCAAAATGG GGCCCAGTGT ATCATAAAAG AAAGTGAACC AATCTGTCAG 
    TGTTTATCAG GCTACCAGGG TGAGAAATGT GAAAAGCTGA TTAGTATAAA CTTCGTCAAC 
    AAAGAATCCT ATCTGCAAAT CCCTTCAGCT AAGATACGCC CCCAAACCAA TATCACTCTA 
    CAGATTGCCA CAGATGAAGA CAGTGGGATC CTGCTGTACA AAGGCGATAA AGATCACATA 
    GCAGTGGAAC TGTACCGGGG TAGAGTGAGG GTCAGCTATG ACACGGGATC ATATCCAGCC 
    TCTGCTATTT ACAGTGTGGA AACAATTAAT GATGGCAATT TCCACATTGT GGAACTGCTA 
    GCTATGGATC AGATTCTATC TTTATCTATT GATGGAGGAA GCCCCAAGAC AATTACCAAT 
    TTGTCCAAGC AATCCACTCT GAATTTTGAT TCTCCGCTGT ATGTAGGAGG CATGCCTGTG 
    AAAAATAATA TAGCAGCTTT GCGCCAGTCG CCAGGGCAGA ACGGCACCAG CTTCCATGGT 
    TGCATCCGTA ATCTGTATAT CAACAGCGAA CTCCAGGACT TCAGAAATGT GCCCCTGCAA 
    GTGGGAATTC TGCCAGGGTG TGAGCCTTGC CATAAGAAGG TTTGTGTGCA TGGCACATGC 
    CATGCTACCA GCCAGTCAGG CTTCTCCTGT GAGTGCGAAG GAGGATGGAC CGGACCACTC 
    TGTGATCAGC AAACTAACGA CCCGTGTCTT GGAAATAAAT GTGTGCATGG TACCTGCTTG 
    CCGATCAATG CATTTTCATA CAGTTGTAAA TGCCTGCAGG GACATGGGGG AGTCCTCTGT 
    GATGAAGAGG AAATGCTGCT TAACCCCTGC CAATCCATCA AGTGTAAACA TGGCAAATGT 
    AGGCTTTCAG GACTTGGGAA ACCATATTGC GAATGCAGCA GCGGATACAC GGGGGACAGT 
    TGTGATAAAG AAATCTCTTG TCGAGGGGAA CGAGTCCGAG ATTACTACCA AAAGCAGCAA 
    GGCTATGCTG CGTGCCAGAC GACCAAGAAG GTATCGAGAC TAGAATGTAA AGGCGGGTGC 
    TCGGCCGGGC AGTGCTGCGG GCCGCTGCGC AGCAAGAGGC GGAAATACTC CTTCGAGTGC 
    ACTGACGGGT CGTCGTTTGT GGACGAGGTG GAAAAAGTGG TGAAGTGTGG CTGTACAAAT 
    TGTCCCTCCT AA

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

    SLIT2 ( XM_030270820.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030126680.1 Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OTd44175
    Clone ID Related Accession (Same CDS sequence) XM_030270820.1
    Accession Version XM_030270820.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4626bp)
    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 2019-08-08
    Organism Taeniopygia guttata(zebra finch)
    Product slit homolog 2 protein isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044215.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGATGTGCG GCTGGGGGAA GTTCACCTTG CCCCTGGGGC TGCTGCTGGC GATGGCGGGC 
    GCGGTGGCGC CGCAGCCGTG CCCGGCGCAG TGCTCCTGCT CGGGGAGCAC CGTGGACTGT 
    CACGGGCTGG CGCTGCGCGG CGTCCCGAGG AACATCCCCC GCAACACCGA GAGGCTGGAT 
    CTTAATGGGA ATAACATCAC AAGAATCACG AAGACTGACT TTGCTGGTCT AAGGCACCTT 
    CGAGTTCTTC AGCTCATGGA GAACAAGATT AGTACTATTG AGAGGGGAGC ATTCCAAGAT 
    TTAAAAGAAC TGGAGAGGCT GCGCCTAAAC AGAAATAACC TCCAGTTGCT TTCTGAGCTG 
    CTCTTTCTGG GGACGCCGAA GTTATACAGG CTTGATCTTA GTGAAAATCA GATTCAAGCA 
    ATACCAAGGA AGGCATTCCG AGGAGCAGTA GACATAAAAA ATCTGCAACT GGATTACAAC 
    CAGATCAGCT GTATTGAAGA TGGGGCATTT AGGGCTCTGC GTGACCTGGA AGTGCTCACT 
    CTCAACAATA ACAACATCAC TCGACTATCC GTGGCAAGTT TCAACCATAT GCCCAAACTC 
    AGAACATTCC GCCTTCACTC CAACAACCTG TACTGCGACT GCCACCTGGC CTGGCTGTCG 
    GACTGGCTGC GGCAGCGGCC ACGAGTGGGG CTCTACACGC AGTGCATGGG CCCGTCCCAC 
    CTCCGAGGGC ACAACGTGGC CGAGGTCCAG AAGCGCGAGT TTGTCTGCAG CGATGAGGAA 
    GAAGGTCACC AGTCCTTTAT GGCTCCATCC TGCAGTGTCT TGCACTGCCC TACTGCATGC 
    ACCTGTAGCA ACAACATTGT GGACTGTCGT GGGAAAGGCC TTACAGAGAT CCCAACAAAC 
    CTGCCAGAAA CCATCACTGA AATACGGTTA GAACAAAATT CAATCAAGGT CATACCTCCT 
    GGAGCTTTCT CCCCCTATAA AAAGCTTCGA AGAATTGACC TGAGCAATAA CCAGATCTCT 
    GAAGCAGCTC CAGATGCTTT CCAGGGCTTA CGTTCACTCA ATTCACTAGT CCTCTATGGC 
    AATAAAATCA CAGAACTTCC AAAGGGCCTA TTTGAAGGAC TCTTTTCTCT GCAACTGCTA 
    TTATTGAATG CCAACAAGAT CAATTGTCTG CGAGTTGATG CATTTCAAGA TCTGCACAAC 
    TTGAATCTTC TTTCTTTGTA TGACAACAAG CTTCAGACCA TTGCAAAAGG CACCTTCTCA 
    CCCCTACGTG CGATTCAGAC CTTGCATTTG GCTCAGAACC CATTTATCTG TGACTGCCAT 
    CTGAAGTGGC TGGCGGATTA CCTTCATACA AACCCCATTG AGACCAGTGG TGCCCGTTGC 
    ACCAGCCCCC GCCGTCTGGC AAACAAAAGG ATCGGCCAGA TCAAAAGCAA GAAATTCCGC 
    TGCTCAGCTA AAGAACAGTA TTTCATTCCA GGCACTGAAG ATTACAGATC CAAATTAAGT 
    GGAGACTGCT TTGCAGATCT GGCTTGCCCT GAGAAATGTC GCTGTGAAGG GACCACAGTG 
    GACTGCTCCA ATCAGAAACT CAACAAAATT CCTGATCACA TTCCCCAGTA CACAGCAGAG 
    TTGCGACTAA ATAACAATGA ATTTTCAGTC TTGGAAGCTA CTGGAATCTT TAAGAAACTT 
    CCTCAGCTGC GTAAAATAAA CCTGAGCAAT AACAAGATTA CAGATATAGA AGAAGGAGCA 
    TTTGATGGGG CCTCTGGTGT GAATGAACTA TTGCTCACAA GCAATCGCTT GGAGAGTGTT 
    CAACACAAAA TGTTCAAGGG ACTAGAAAGT CTCAAAACAC TGATGCTGAG GAGCAACAGG 
    GTGAGCTGTG TGGGAAATGA CAGCTTCACA GGGCTGAGCT CTGTCCGCCT GCTCTCGCTG 
    TATGACAACC AGATCACCAC CGTGGCACCC GGCTCCTTCG ACACGCTGCA TTCGCTCTCT 
    ACGCTAAACC TCTTGGCCAA TCCCTTCAAC TGCAACTGCC ATCTTGCATG GCTTGGAGAC 
    TGGCTAAGGA AGAAACGCAT TGTGACAGGG AACCCTCGTT GCCAAAAACC CTACTTCCTC 
    AAGGAGATTC CGATCCAGGA TGTGGCAATT CAGGATTTTA CATGTGATGA TGGAAATGAT 
    GACAATAGCT GTTCTCCCCT GGCCCGCTGC CCTGCAGAAT GTACTTGTCT GGACACAGTA 
    GTTCGCTGCA GCAACAAAGG TCTAAAAGCT TTGCCTAAAG GCATCCCAAA AGATGTGACT 
    GAACTTTATT TGGATGGAAA TCAGTTTACC CTTGTTCCAA AAGAGCTTTC CAACTACAAG 
    CATTTGACAC TCATAGATTT AAGTAACAAC AGAATCAGCA CTCTTTCTAA TCAGAGCTTC 
    AGCAACATGA CTCAGCTGCT CACCTTAATT CTTAGTTACA ACCGCCTAAG ATGTATTCCT 
    GCACGGACTT TTGATGGGTT GAAATCACTT AGGTTGTTGT CTTTACATGG CAATGATATT 
    TCTGTTGTTC CTGAAGGAGC CTTTAATGAT CTTTCAGCAT TATCACACCT GGCTATTGGC 
    GCAAATCCTC TTTATTGTGA TTGTAATATG CAGTGGCTAT CTGACTGGGT AAAATCAGAA 
    TACAAAGAAC CTGGTATTGC ACGTTGTGCT GGTCCTGGAG AAATGGCAGA TAAACTTCTT 
    CTCACAACTC CTTCTAAGAA ATTTACTTGC CAAGGGCCCG TGGATGTTAA TATTCTTGCA 
    AAGTGTAATC CCTGTTTATC AAATCCGTGT AAAAATGATG GAACCTGTAA TAATGATCCA 
    GTTGACTTCT ATAGATGTAC ATGCCCATAT GGTTTCAAGG GCCAAGACTG TGATATTCCC 
    ATTCATGCTT GCATTAGTAA CCCGTGCAAC CATGGTGGAA CTTGTCATTT GAAAGAAGGA 
    GAAAAAGATG GTTTCTGGTG CACTTGTGCA GATGGATTTG AAGGTGAAAA CTGTGAAGTA 
    AATGTCGATG ACTGTGAAGA CAATGACTGT GAAAACAATT CTACTTGTGT GGATGGAATT 
    AATAACTATA CTTGCCTTTG TCCACCTGAA TATACAGCTG CTAATCTGAA TGAAGTGGAG 
    AAAGGTGAAC TCTGTGAGGA GAAATTAGAT TTCTGTGCCC AAAACCTGAA TCCTTGCCAG 
    CATGATTCAA AGTGTATCTT AACACCCAAA GGATACAAGT GTGATTGCAC ACCTGGATAT 
    GTAGGTGAGC ATTGTGATAT TGACTTTGAC GACTGCCAGG ACAACAAATG TAAAAACGGA 
    GCGCAGTGCA CTGACGCAGT TAATGGATAT ACGTGCGTTT GCCCAGAAGG GTACAGTGGC 
    TTGTTCTGTG AGTTATCGCC GCCAATGGTT CTACCTCGCA CCAGCCCTTG TGATAATTAT 
    GAATGTCAAA ATGGGGCCCA GTGTATCATA AAAGAAAGTG AACCAATCTG TCAGTGTTTA 
    TCAGGCTACC AGGGTGAGAA ATGTGAAAAG CTGATTAGTA TAAACTTCGT CAACAAAGAA 
    TCCTATCTGC AAATCCCTTC AGCTAAGATA CGCCCCCAAA CCAATATCAC TCTACAGATT 
    GCCACAGATG AAGACAGTGG GATCCTGCTG TACAAAGGCG ATAAAGATCA CATAGCAGTG 
    GAACTGTACC GGGGTAGAGT GAGGGTCAGC TATGACACGG GATCATATCC AGCCTCTGCT 
    ATTTACAGTG TGGAAACAAT TAATGATGGC AATTTCCACA TTGTGGAACT GCTAGCTATG 
    GATCAGATTC TATCTTTATC TATTGATGGA GGAAGCCCCA AGACAATTAC CAATTTGTCC 
    AAGCAATCCA CTCTGAATTT TGATTCTCCG CTGTATGTAG GAGGCATGCC TGTGAAAAAT 
    AATATAGCAG CTTTGCGCCA GTCGCCAGGG CAGAACGGCA CCAGCTTCCA TGGTTGCATC 
    CGTAATCTGT ATATCAACAG CGAACTCCAG GACTTCAGAA ATGTGCCCCT GCAAGTGGGA 
    ATTCTGCCAG GGTGTGAGCC TTGCCATAAG AAGGTTTGTG TGCATGGCAC ATGCCATGCT 
    ACCAGCCAGT CAGGCTTCTC CTGTGAGTGC GAAGGAGGAT GGACCGGACC ACTCTGTGAT 
    CAGCAAACTA ACGACCCGTG TCTTGGAAAT AAATGTGTGC ATGGTACCTG CTTGCCGATC 
    AATGCATTTT CATACAGTTG TAAATGCCTG CAGGGACATG GGGGAGTCCT CTGTGATGAA 
    GAGGAAATGC TGCTTAACCC CTGCCAATCC ATCAAGTGTA AACATGGCAA ATGTAGGCTT 
    TCAGGACTTG GGAAACCATA TTGCGAATGC AGCAGCGGAT ACACGGGGGA CAGTTGTGAT 
    AAAGAAATCT CTTGTCGAGG GGAACGAGTC CGAGATTACT ACCAAAAGCA GCAAGGCTAT 
    GCTGCGTGCC AGACGACCAA GAAGGTATCG AGACTAGAAT GTAAAGGCGG GTGCTCGGCC 
    GGGCAGTGCT GCGGGCCGCT GCGCAGCAAG AGGCGGAAAT ACTCCTTCGA GTGCACTGAC 
    GGGTCGTCGT TTGTGGACGA GGTGGAAAAA GTGGTGAAGT GTGGCTGTAC AAATTGTCCC 
    TCCTAA

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

    RefSeq XP_030126680.1
    CDS23..4648
    Translation

    Target ORF information:

    RefSeq Version XM_030270820.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030270820.1

    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
    ATGATGTGCG GCTGGGGGAA GTTCACCTTG CCCCTGGGGC TGCTGCTGGC GATGGCGGGC 
    GCGGTGGCGC CGCAGCCGTG CCCGGCGCAG TGCTCCTGCT CGGGGAGCAC CGTGGACTGT 
    CACGGGCTGG CGCTGCGCGG CGTCCCGAGG AACATCCCCC GCAACACCGA GAGGCTGGAT 
    CTTAATGGGA ATAACATCAC AAGAATCACG AAGACTGACT TTGCTGGTCT AAGGCACCTT 
    CGAGTTCTTC AGCTCATGGA GAACAAGATT AGTACTATTG AGAGGGGAGC ATTCCAAGAT 
    TTAAAAGAAC TGGAGAGGCT GCGCCTAAAC AGAAATAACC TCCAGTTGCT TTCTGAGCTG 
    CTCTTTCTGG GGACGCCGAA GTTATACAGG CTTGATCTTA GTGAAAATCA GATTCAAGCA 
    ATACCAAGGA AGGCATTCCG AGGAGCAGTA GACATAAAAA ATCTGCAACT GGATTACAAC 
    CAGATCAGCT GTATTGAAGA TGGGGCATTT AGGGCTCTGC GTGACCTGGA AGTGCTCACT 
    CTCAACAATA ACAACATCAC TCGACTATCC GTGGCAAGTT TCAACCATAT GCCCAAACTC 
    AGAACATTCC GCCTTCACTC CAACAACCTG TACTGCGACT GCCACCTGGC CTGGCTGTCG 
    GACTGGCTGC GGCAGCGGCC ACGAGTGGGG CTCTACACGC AGTGCATGGG CCCGTCCCAC 
    CTCCGAGGGC ACAACGTGGC CGAGGTCCAG AAGCGCGAGT TTGTCTGCAG CGATGAGGAA 
    GAAGGTCACC AGTCCTTTAT GGCTCCATCC TGCAGTGTCT TGCACTGCCC TACTGCATGC 
    ACCTGTAGCA ACAACATTGT GGACTGTCGT GGGAAAGGCC TTACAGAGAT CCCAACAAAC 
    CTGCCAGAAA CCATCACTGA AATACGGTTA GAACAAAATT CAATCAAGGT CATACCTCCT 
    GGAGCTTTCT CCCCCTATAA AAAGCTTCGA AGAATTGACC TGAGCAATAA CCAGATCTCT 
    GAAGCAGCTC CAGATGCTTT CCAGGGCTTA CGTTCACTCA ATTCACTAGT CCTCTATGGC 
    AATAAAATCA CAGAACTTCC AAAGGGCCTA TTTGAAGGAC TCTTTTCTCT GCAACTGCTA 
    TTATTGAATG CCAACAAGAT CAATTGTCTG CGAGTTGATG CATTTCAAGA TCTGCACAAC 
    TTGAATCTTC TTTCTTTGTA TGACAACAAG CTTCAGACCA TTGCAAAAGG CACCTTCTCA 
    CCCCTACGTG CGATTCAGAC CTTGCATTTG GCTCAGAACC CATTTATCTG TGACTGCCAT 
    CTGAAGTGGC TGGCGGATTA CCTTCATACA AACCCCATTG AGACCAGTGG TGCCCGTTGC 
    ACCAGCCCCC GCCGTCTGGC AAACAAAAGG ATCGGCCAGA TCAAAAGCAA GAAATTCCGC 
    TGCTCAGCTA AAGAACAGTA TTTCATTCCA GGCACTGAAG ATTACAGATC CAAATTAAGT 
    GGAGACTGCT TTGCAGATCT GGCTTGCCCT GAGAAATGTC GCTGTGAAGG GACCACAGTG 
    GACTGCTCCA ATCAGAAACT CAACAAAATT CCTGATCACA TTCCCCAGTA CACAGCAGAG 
    TTGCGACTAA ATAACAATGA ATTTTCAGTC TTGGAAGCTA CTGGAATCTT TAAGAAACTT 
    CCTCAGCTGC GTAAAATAAA CCTGAGCAAT AACAAGATTA CAGATATAGA AGAAGGAGCA 
    TTTGATGGGG CCTCTGGTGT GAATGAACTA TTGCTCACAA GCAATCGCTT GGAGAGTGTT 
    CAACACAAAA TGTTCAAGGG ACTAGAAAGT CTCAAAACAC TGATGCTGAG GAGCAACAGG 
    GTGAGCTGTG TGGGAAATGA CAGCTTCACA GGGCTGAGCT CTGTCCGCCT GCTCTCGCTG 
    TATGACAACC AGATCACCAC CGTGGCACCC GGCTCCTTCG ACACGCTGCA TTCGCTCTCT 
    ACGCTAAACC TCTTGGCCAA TCCCTTCAAC TGCAACTGCC ATCTTGCATG GCTTGGAGAC 
    TGGCTAAGGA AGAAACGCAT TGTGACAGGG AACCCTCGTT GCCAAAAACC CTACTTCCTC 
    AAGGAGATTC CGATCCAGGA TGTGGCAATT CAGGATTTTA CATGTGATGA TGGAAATGAT 
    GACAATAGCT GTTCTCCCCT GGCCCGCTGC CCTGCAGAAT GTACTTGTCT GGACACAGTA 
    GTTCGCTGCA GCAACAAAGG TCTAAAAGCT TTGCCTAAAG GCATCCCAAA AGATGTGACT 
    GAACTTTATT TGGATGGAAA TCAGTTTACC CTTGTTCCAA AAGAGCTTTC CAACTACAAG 
    CATTTGACAC TCATAGATTT AAGTAACAAC AGAATCAGCA CTCTTTCTAA TCAGAGCTTC 
    AGCAACATGA CTCAGCTGCT CACCTTAATT CTTAGTTACA ACCGCCTAAG ATGTATTCCT 
    GCACGGACTT TTGATGGGTT GAAATCACTT AGGTTGTTGT CTTTACATGG CAATGATATT 
    TCTGTTGTTC CTGAAGGAGC CTTTAATGAT CTTTCAGCAT TATCACACCT GGCTATTGGC 
    GCAAATCCTC TTTATTGTGA TTGTAATATG CAGTGGCTAT CTGACTGGGT AAAATCAGAA 
    TACAAAGAAC CTGGTATTGC ACGTTGTGCT GGTCCTGGAG AAATGGCAGA TAAACTTCTT 
    CTCACAACTC CTTCTAAGAA ATTTACTTGC CAAGGGCCCG TGGATGTTAA TATTCTTGCA 
    AAGTGTAATC CCTGTTTATC AAATCCGTGT AAAAATGATG GAACCTGTAA TAATGATCCA 
    GTTGACTTCT ATAGATGTAC ATGCCCATAT GGTTTCAAGG GCCAAGACTG TGATATTCCC 
    ATTCATGCTT GCATTAGTAA CCCGTGCAAC CATGGTGGAA CTTGTCATTT GAAAGAAGGA 
    GAAAAAGATG GTTTCTGGTG CACTTGTGCA GATGGATTTG AAGGTGAAAA CTGTGAAGTA 
    AATGTCGATG ACTGTGAAGA CAATGACTGT GAAAACAATT CTACTTGTGT GGATGGAATT 
    AATAACTATA CTTGCCTTTG TCCACCTGAA TATACAGCTG CTAATCTGAA TGAAGTGGAG 
    AAAGGTGAAC TCTGTGAGGA GAAATTAGAT TTCTGTGCCC AAAACCTGAA TCCTTGCCAG 
    CATGATTCAA AGTGTATCTT AACACCCAAA GGATACAAGT GTGATTGCAC ACCTGGATAT 
    GTAGGTGAGC ATTGTGATAT TGACTTTGAC GACTGCCAGG ACAACAAATG TAAAAACGGA 
    GCGCAGTGCA CTGACGCAGT TAATGGATAT ACGTGCGTTT GCCCAGAAGG GTACAGTGGC 
    TTGTTCTGTG AGTTATCGCC GCCAATGGTT CTACCTCGCA CCAGCCCTTG TGATAATTAT 
    GAATGTCAAA ATGGGGCCCA GTGTATCATA AAAGAAAGTG AACCAATCTG TCAGTGTTTA 
    TCAGGCTACC AGGGTGAGAA ATGTGAAAAG CTGATTAGTA TAAACTTCGT CAACAAAGAA 
    TCCTATCTGC AAATCCCTTC AGCTAAGATA CGCCCCCAAA CCAATATCAC TCTACAGATT 
    GCCACAGATG AAGACAGTGG GATCCTGCTG TACAAAGGCG ATAAAGATCA CATAGCAGTG 
    GAACTGTACC GGGGTAGAGT GAGGGTCAGC TATGACACGG GATCATATCC AGCCTCTGCT 
    ATTTACAGTG TGGAAACAAT TAATGATGGC AATTTCCACA TTGTGGAACT GCTAGCTATG 
    GATCAGATTC TATCTTTATC TATTGATGGA GGAAGCCCCA AGACAATTAC CAATTTGTCC 
    AAGCAATCCA CTCTGAATTT TGATTCTCCG CTGTATGTAG GAGGCATGCC TGTGAAAAAT 
    AATATAGCAG CTTTGCGCCA GTCGCCAGGG CAGAACGGCA CCAGCTTCCA TGGTTGCATC 
    CGTAATCTGT ATATCAACAG CGAACTCCAG GACTTCAGAA ATGTGCCCCT GCAAGTGGGA 
    ATTCTGCCAG GGTGTGAGCC TTGCCATAAG AAGGTTTGTG TGCATGGCAC ATGCCATGCT 
    ACCAGCCAGT CAGGCTTCTC CTGTGAGTGC GAAGGAGGAT GGACCGGACC ACTCTGTGAT 
    CAGCAAACTA ACGACCCGTG TCTTGGAAAT AAATGTGTGC ATGGTACCTG CTTGCCGATC 
    AATGCATTTT CATACAGTTG TAAATGCCTG CAGGGACATG GGGGAGTCCT CTGTGATGAA 
    GAGGAAATGC TGCTTAACCC CTGCCAATCC ATCAAGTGTA AACATGGCAA ATGTAGGCTT 
    TCAGGACTTG GGAAACCATA TTGCGAATGC AGCAGCGGAT ACACGGGGGA CAGTTGTGAT 
    AAAGAAATCT CTTGTCGAGG GGAACGAGTC CGAGATTACT ACCAAAAGCA GCAAGGCTAT 
    GCTGCGTGCC AGACGACCAA GAAGGTATCG AGACTAGAAT GTAAAGGCGG GTGCTCGGCC 
    GGGCAGTGCT GCGGGCCGCT GCGCAGCAAG AGGCGGAAAT ACTCCTTCGA GTGCACTGAC 
    GGGTCGTCGT TTGTGGACGA GGTGGAAAAA GTGGTGAAGT GTGGCTGTAC AAATTGTCCC 
    TCCTAA

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

    SLIT2 ( XM_030270821.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030126681.1 Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OTd44176
    Clone ID Related Accession (Same CDS sequence) XM_030270821.1
    Accession Version XM_030270821.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4617bp)
    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 2019-08-08
    Organism Taeniopygia guttata(zebra finch)
    Product slit homolog 2 protein isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044215.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGATGTGCG GCTGGGGGAA GTTCACCTTG CCCCTGGGGC TGCTGCTGGC GATGGCGGGC 
    GCGGTGGCGC CGCAGCCGTG CCCGGCGCAG TGCTCCTGCT CGGGGAGCAC CGTGGACTGT 
    CACGGGCTGG CGCTGCGCGG CGTCCCGAGG AACATCCCCC GCAACACCGA GAGGCTGGAT 
    CTTAATGGGA ATAACATCAC AAGAATCACG AAGACTGACT TTGCTGGTCT AAGGCACCTT 
    CGAGTTCTTC AGCTCATGGA GAACAAGATT AGTACTATTG AGAGGGGAGC ATTCCAAGAT 
    TTAAAAGAAC TGGAGAGGCT GCGCCTAAAC AGAAATAACC TCCAGTTGCT TTCTGAGCTG 
    CTCTTTCTGG GGACGCCGAA GTTATACAGG CTTGATCTTA GTGAAAATCA GATTCAAGCA 
    ATACCAAGGA AGGCATTCCG AGGAGCAGTA GACATAAAAA ATCTGCAACT GGATTACAAC 
    CAGATCAGCT GTATTGAAGA TGGGGCATTT AGGGCTCTGC GTGACCTGGA AGTGCTCACT 
    CTCAACAATA ACAACATCAC TCGACTATCC GTGGCAAGTT TCAACCATAT GCCCAAACTC 
    AGAACATTCC GCCTTCACTC CAACAACCTG TACTGCGACT GCCACCTGGC CTGGCTGTCG 
    GACTGGCTGC GGCAGCGGCC ACGAGTGGGG CTCTACACGC AGTGCATGGG CCCGTCCCAC 
    CTCCGAGGGC ACAACGTGGC CGAGGTCCAG AAGCGCGAGT TTGTCTGCAG CGATGAGGAA 
    GAAGGTCACC AGTCCTTTAT GGCTCCATCC TGCAGTGTCT TGCACTGCCC TACTGCATGC 
    ACCTGTAGCA ACAACATTGT GGACTGTCGT GGGAAAGGCC TTACAGAGAT CCCAACAAAC 
    CTGCCAGAAA CCATCACTGA AATACGGTTA GAACAAAATT CAATCAAGGT CATACCTCCT 
    GGAGCTTTCT CCCCCTATAA AAAGCTTCGA AGAATTGACC TGAGCAATAA CCAGATCTCT 
    GAAGCAGCTC CAGATGCTTT CCAGGGCTTA CGTTCACTCA ATTCACTAGT CCTCTATGGC 
    AATAAAATCA CAGAACTTCC AAAGGGCCTA TTTGAAGGAC TCTTTTCTCT GCAACTGCTA 
    TTATTGAATG CCAACAAGAT CAATTGTCTG CGAGTTGATG CATTTCAAGA TCTGCACAAC 
    TTGAATCTTC TTTCTTTGTA TGACAACAAG CTTCAGACCA TTGCAAAAGG CACCTTCTCA 
    CCCCTACGTG CGATTCAGAC CTTGCATTTG GCTCAGAACC CATTTATCTG TGACTGCCAT 
    CTGAAGTGGC TGGCGGATTA CCTTCATACA AACCCCATTG AGACCAGTGG TGCCCGTTGC 
    ACCAGCCCCC GCCGTCTGGC AAACAAAAGG ATCGGCCAGA TCAAAAGCAA GAAATTCCGC 
    TGCTCAGCTA AAGAACAGTA TTTCATTCCA GGAGTTCACC ATTTTGGCTG CACTGAAGAT 
    TACAGATCCA AATTAAGTGG AGACTGCTTT GCAGATCTGG CTTGCCCTGA GAAATGTCGC 
    TGTGAAGGGA CCACAGTGGA CTGCTCCAAT CAGAAACTCA ACAAAATTCC TGATCACATT 
    CCCCAGTACA CAGCAGAGTT GCGACTAAAT AACAATGAAT TTTCAGTCTT GGAAGCTACT 
    GGAATCTTTA AGAAACTTCC TCAGCTGCGT AAAATAAACC TGAGCAATAA CAAGATTACA 
    GATATAGAAG AAGGAGCATT TGATGGGGCC TCTGGTGTGA ATGAACTATT GCTCACAAGC 
    AATCGCTTGG AGAGTGTTCA ACACAAAATG TTCAAGGGAC TAGAAAGTCT CAAAACACTG 
    ATGCTGAGGA GCAACAGGGT GAGCTGTGTG GGAAATGACA GCTTCACAGG GCTGAGCTCT 
    GTCCGCCTGC TCTCGCTGTA TGACAACCAG ATCACCACCG TGGCACCCGG CTCCTTCGAC 
    ACGCTGCATT CGCTCTCTAC GCTAAACCTC TTGGCCAATC CCTTCAACTG CAACTGCCAT 
    CTTGCATGGC TTGGAGACTG GCTAAGGAAG AAACGCATTG TGACAGGGAA CCCTCGTTGC 
    CAAAAACCCT ACTTCCTCAA GGAGATTCCG ATCCAGGATG TGGCAATTCA GGATTTTACA 
    TGTGATGATG GAAATGATGA CAATAGCTGT TCTCCCCTGG CCCGCTGCCC TGCAGAATGT 
    ACTTGTCTGG ACACAGTAGT TCGCTGCAGC AACAAAGGTC TAAAAGCTTT GCCTAAAGGC 
    ATCCCAAAAG ATGTGACTGA ACTTTATTTG GATGGAAATC AGTTTACCCT TGTTCCAAAA 
    GAGCTTTCCA ACTACAAGCA TTTGACACTC ATAGATTTAA GTAACAACAG AATCAGCACT 
    CTTTCTAATC AGAGCTTCAG CAACATGACT CAGCTGCTCA CCTTAATTCT TAGTTACAAC 
    CGCCTAAGAT GTATTCCTGC ACGGACTTTT GATGGGTTGA AATCACTTAG GTTGTTGTCT 
    TTACATGGCA ATGATATTTC TGTTGTTCCT GAAGGAGCCT TTAATGATCT TTCAGCATTA 
    TCACACCTGG CTATTGGCGC AAATCCTCTT TATTGTGATT GTAATATGCA GTGGCTATCT 
    GACTGGGTAA AATCAGAATA CAAAGAACCT GGTATTGCAC GTTGTGCTGG TCCTGGAGAA 
    ATGGCAGATA AACTTCTTCT CACAACTCCT TCTAAGAAAT TTACTTGCCA AGGGCCCGTG 
    GATGTTAATA TTCTTGCAAA GTGTAATCCC TGTTTATCAA ATCCGTGTAA AAATGATGGA 
    ACCTGTAATA ATGATCCAGT TGACTTCTAT AGATGTACAT GCCCATATGG TTTCAAGGGC 
    CAAGACTGTG ATATTCCCAT TCATGCTTGC ATTAGTAACC CGTGCAACCA TGGTGGAACT 
    TGTCATTTGA AAGAAGGAGA AAAAGATGGT TTCTGGTGCA CTTGTGCAGA TGGATTTGAA 
    GGTGAAAACT GTGAAGTAAA TGTCGATGAC TGTGAAGACA ATGACTGTGA AAACAATTCT 
    ACTTGTGTGG ATGGAATTAA TAACTATACT TGCCTTTGTC CACCTGAATA TACAGGTGAA 
    CTCTGTGAGG AGAAATTAGA TTTCTGTGCC CAAAACCTGA ATCCTTGCCA GCATGATTCA 
    AAGTGTATCT TAACACCCAA AGGATACAAG TGTGATTGCA CACCTGGATA TGTAGGTGAG 
    CATTGTGATA TTGACTTTGA CGACTGCCAG GACAACAAAT GTAAAAACGG AGCGCAGTGC 
    ACTGACGCAG TTAATGGATA TACGTGCGTT TGCCCAGAAG GGTACAGTGG CTTGTTCTGT 
    GAGTTATCGC CGCCAATGGT TCTACCTCGC ACCAGCCCTT GTGATAATTA TGAATGTCAA 
    AATGGGGCCC AGTGTATCAT AAAAGAAAGT GAACCAATCT GTCAGTGTTT ATCAGGCTAC 
    CAGGGTGAGA AATGTGAAAA GCTGATTAGT ATAAACTTCG TCAACAAAGA ATCCTATCTG 
    CAAATCCCTT CAGCTAAGAT ACGCCCCCAA ACCAATATCA CTCTACAGAT TGCCACAGAT 
    GAAGACAGTG GGATCCTGCT GTACAAAGGC GATAAAGATC ACATAGCAGT GGAACTGTAC 
    CGGGGTAGAG TGAGGGTCAG CTATGACACG GGATCATATC CAGCCTCTGC TATTTACAGT 
    GTGGAAACAA TTAATGATGG CAATTTCCAC ATTGTGGAAC TGCTAGCTAT GGATCAGATT 
    CTATCTTTAT CTATTGATGG AGGAAGCCCC AAGACAATTA CCAATTTGTC CAAGCAATCC 
    ACTCTGAATT TTGATTCTCC GCTGTATGTA GGAGGCATGC CTGTGAAAAA TAATATAGCA 
    GCTTTGCGCC AGTCGCCAGG GCAGAACGGC ACCAGCTTCC ATGGTTGCAT CCGTAATCTG 
    TATATCAACA GCGAACTCCA GGACTTCAGA AATGTGCCCC TGCAAGTGGG AATTCTGCCA 
    GGGTGTGAGC CTTGCCATAA GAAGGTTTGT GTGCATGGCA CATGCCATGC TACCAGCCAG 
    TCAGGCTTCT CCTGTGAGTG CGAAGGAGGA TGGACCGGAC CACTCTGTGA TCAGCAAACT 
    AACGACCCGT GTCTTGGAAA TAAATGTGTG CATGGTACCT GCTTGCCGAT CAATGCATTT 
    TCATACAGTT GTAAATGCCT GCAGGGACAT GGGGGAGTCC TCTGTGATGA AGAGGAAATG 
    CTGCTTAACC CCTGCCAATC CATCAAGTGT AAACATGGCA AATGTAGGCT TTCAGGACTT 
    GGGAAACCAT ATTGCGAATG CAGCAGCGGA TACACGGGGG ACAGTTGTGA TAAAGAAATC 
    TCTTGTCGAG GGGAACGAGT CCGAGATTAC TACCAAAAGC AGCAAGGCTA TGCTGCGTGC 
    CAGACGACCA AGAAGGTATC GAGACTAGAA TGTAAAGGCG GGTGCTCGGC CGGGCAGTGC 
    TGCGGGCCGC TGCGCAGCAA GAGGCGGAAA TACTCCTTCG AGTGCACTGA CGGGTCGTCG 
    TTTGTGGACG AGGTGGAAAA AGTGGTGAAG TGTGGCTGTA CAAATTGTCC CTCCTAA

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

    RefSeq XP_030126681.1
    CDS23..4639
    Translation

    Target ORF information:

    RefSeq Version XM_030270821.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030270821.1

    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
    ATGATGTGCG GCTGGGGGAA GTTCACCTTG CCCCTGGGGC TGCTGCTGGC GATGGCGGGC 
    GCGGTGGCGC CGCAGCCGTG CCCGGCGCAG TGCTCCTGCT CGGGGAGCAC CGTGGACTGT 
    CACGGGCTGG CGCTGCGCGG CGTCCCGAGG AACATCCCCC GCAACACCGA GAGGCTGGAT 
    CTTAATGGGA ATAACATCAC AAGAATCACG AAGACTGACT TTGCTGGTCT AAGGCACCTT 
    CGAGTTCTTC AGCTCATGGA GAACAAGATT AGTACTATTG AGAGGGGAGC ATTCCAAGAT 
    TTAAAAGAAC TGGAGAGGCT GCGCCTAAAC AGAAATAACC TCCAGTTGCT TTCTGAGCTG 
    CTCTTTCTGG GGACGCCGAA GTTATACAGG CTTGATCTTA GTGAAAATCA GATTCAAGCA 
    ATACCAAGGA AGGCATTCCG AGGAGCAGTA GACATAAAAA ATCTGCAACT GGATTACAAC 
    CAGATCAGCT GTATTGAAGA TGGGGCATTT AGGGCTCTGC GTGACCTGGA AGTGCTCACT 
    CTCAACAATA ACAACATCAC TCGACTATCC GTGGCAAGTT TCAACCATAT GCCCAAACTC 
    AGAACATTCC GCCTTCACTC CAACAACCTG TACTGCGACT GCCACCTGGC CTGGCTGTCG 
    GACTGGCTGC GGCAGCGGCC ACGAGTGGGG CTCTACACGC AGTGCATGGG CCCGTCCCAC 
    CTCCGAGGGC ACAACGTGGC CGAGGTCCAG AAGCGCGAGT TTGTCTGCAG CGATGAGGAA 
    GAAGGTCACC AGTCCTTTAT GGCTCCATCC TGCAGTGTCT TGCACTGCCC TACTGCATGC 
    ACCTGTAGCA ACAACATTGT GGACTGTCGT GGGAAAGGCC TTACAGAGAT CCCAACAAAC 
    CTGCCAGAAA CCATCACTGA AATACGGTTA GAACAAAATT CAATCAAGGT CATACCTCCT 
    GGAGCTTTCT CCCCCTATAA AAAGCTTCGA AGAATTGACC TGAGCAATAA CCAGATCTCT 
    GAAGCAGCTC CAGATGCTTT CCAGGGCTTA CGTTCACTCA ATTCACTAGT CCTCTATGGC 
    AATAAAATCA CAGAACTTCC AAAGGGCCTA TTTGAAGGAC TCTTTTCTCT GCAACTGCTA 
    TTATTGAATG CCAACAAGAT CAATTGTCTG CGAGTTGATG CATTTCAAGA TCTGCACAAC 
    TTGAATCTTC TTTCTTTGTA TGACAACAAG CTTCAGACCA TTGCAAAAGG CACCTTCTCA 
    CCCCTACGTG CGATTCAGAC CTTGCATTTG GCTCAGAACC CATTTATCTG TGACTGCCAT 
    CTGAAGTGGC TGGCGGATTA CCTTCATACA AACCCCATTG AGACCAGTGG TGCCCGTTGC 
    ACCAGCCCCC GCCGTCTGGC AAACAAAAGG ATCGGCCAGA TCAAAAGCAA GAAATTCCGC 
    TGCTCAGCTA AAGAACAGTA TTTCATTCCA GGAGTTCACC ATTTTGGCTG CACTGAAGAT 
    TACAGATCCA AATTAAGTGG AGACTGCTTT GCAGATCTGG CTTGCCCTGA GAAATGTCGC 
    TGTGAAGGGA CCACAGTGGA CTGCTCCAAT CAGAAACTCA ACAAAATTCC TGATCACATT 
    CCCCAGTACA CAGCAGAGTT GCGACTAAAT AACAATGAAT TTTCAGTCTT GGAAGCTACT 
    GGAATCTTTA AGAAACTTCC TCAGCTGCGT AAAATAAACC TGAGCAATAA CAAGATTACA 
    GATATAGAAG AAGGAGCATT TGATGGGGCC TCTGGTGTGA ATGAACTATT GCTCACAAGC 
    AATCGCTTGG AGAGTGTTCA ACACAAAATG TTCAAGGGAC TAGAAAGTCT CAAAACACTG 
    ATGCTGAGGA GCAACAGGGT GAGCTGTGTG GGAAATGACA GCTTCACAGG GCTGAGCTCT 
    GTCCGCCTGC TCTCGCTGTA TGACAACCAG ATCACCACCG TGGCACCCGG CTCCTTCGAC 
    ACGCTGCATT CGCTCTCTAC GCTAAACCTC TTGGCCAATC CCTTCAACTG CAACTGCCAT 
    CTTGCATGGC TTGGAGACTG GCTAAGGAAG AAACGCATTG TGACAGGGAA CCCTCGTTGC 
    CAAAAACCCT ACTTCCTCAA GGAGATTCCG ATCCAGGATG TGGCAATTCA GGATTTTACA 
    TGTGATGATG GAAATGATGA CAATAGCTGT TCTCCCCTGG CCCGCTGCCC TGCAGAATGT 
    ACTTGTCTGG ACACAGTAGT TCGCTGCAGC AACAAAGGTC TAAAAGCTTT GCCTAAAGGC 
    ATCCCAAAAG ATGTGACTGA ACTTTATTTG GATGGAAATC AGTTTACCCT TGTTCCAAAA 
    GAGCTTTCCA ACTACAAGCA TTTGACACTC ATAGATTTAA GTAACAACAG AATCAGCACT 
    CTTTCTAATC AGAGCTTCAG CAACATGACT CAGCTGCTCA CCTTAATTCT TAGTTACAAC 
    CGCCTAAGAT GTATTCCTGC ACGGACTTTT GATGGGTTGA AATCACTTAG GTTGTTGTCT 
    TTACATGGCA ATGATATTTC TGTTGTTCCT GAAGGAGCCT TTAATGATCT TTCAGCATTA 
    TCACACCTGG CTATTGGCGC AAATCCTCTT TATTGTGATT GTAATATGCA GTGGCTATCT 
    GACTGGGTAA AATCAGAATA CAAAGAACCT GGTATTGCAC GTTGTGCTGG TCCTGGAGAA 
    ATGGCAGATA AACTTCTTCT CACAACTCCT TCTAAGAAAT TTACTTGCCA AGGGCCCGTG 
    GATGTTAATA TTCTTGCAAA GTGTAATCCC TGTTTATCAA ATCCGTGTAA AAATGATGGA 
    ACCTGTAATA ATGATCCAGT TGACTTCTAT AGATGTACAT GCCCATATGG TTTCAAGGGC 
    CAAGACTGTG ATATTCCCAT TCATGCTTGC ATTAGTAACC CGTGCAACCA TGGTGGAACT 
    TGTCATTTGA AAGAAGGAGA AAAAGATGGT TTCTGGTGCA CTTGTGCAGA TGGATTTGAA 
    GGTGAAAACT GTGAAGTAAA TGTCGATGAC TGTGAAGACA ATGACTGTGA AAACAATTCT 
    ACTTGTGTGG ATGGAATTAA TAACTATACT TGCCTTTGTC CACCTGAATA TACAGGTGAA 
    CTCTGTGAGG AGAAATTAGA TTTCTGTGCC CAAAACCTGA ATCCTTGCCA GCATGATTCA 
    AAGTGTATCT TAACACCCAA AGGATACAAG TGTGATTGCA CACCTGGATA TGTAGGTGAG 
    CATTGTGATA TTGACTTTGA CGACTGCCAG GACAACAAAT GTAAAAACGG AGCGCAGTGC 
    ACTGACGCAG TTAATGGATA TACGTGCGTT TGCCCAGAAG GGTACAGTGG CTTGTTCTGT 
    GAGTTATCGC CGCCAATGGT TCTACCTCGC ACCAGCCCTT GTGATAATTA TGAATGTCAA 
    AATGGGGCCC AGTGTATCAT AAAAGAAAGT GAACCAATCT GTCAGTGTTT ATCAGGCTAC 
    CAGGGTGAGA AATGTGAAAA GCTGATTAGT ATAAACTTCG TCAACAAAGA ATCCTATCTG 
    CAAATCCCTT CAGCTAAGAT ACGCCCCCAA ACCAATATCA CTCTACAGAT TGCCACAGAT 
    GAAGACAGTG GGATCCTGCT GTACAAAGGC GATAAAGATC ACATAGCAGT GGAACTGTAC 
    CGGGGTAGAG TGAGGGTCAG CTATGACACG GGATCATATC CAGCCTCTGC TATTTACAGT 
    GTGGAAACAA TTAATGATGG CAATTTCCAC ATTGTGGAAC TGCTAGCTAT GGATCAGATT 
    CTATCTTTAT CTATTGATGG AGGAAGCCCC AAGACAATTA CCAATTTGTC CAAGCAATCC 
    ACTCTGAATT TTGATTCTCC GCTGTATGTA GGAGGCATGC CTGTGAAAAA TAATATAGCA 
    GCTTTGCGCC AGTCGCCAGG GCAGAACGGC ACCAGCTTCC ATGGTTGCAT CCGTAATCTG 
    TATATCAACA GCGAACTCCA GGACTTCAGA AATGTGCCCC TGCAAGTGGG AATTCTGCCA 
    GGGTGTGAGC CTTGCCATAA GAAGGTTTGT GTGCATGGCA CATGCCATGC TACCAGCCAG 
    TCAGGCTTCT CCTGTGAGTG CGAAGGAGGA TGGACCGGAC CACTCTGTGA TCAGCAAACT 
    AACGACCCGT GTCTTGGAAA TAAATGTGTG CATGGTACCT GCTTGCCGAT CAATGCATTT 
    TCATACAGTT GTAAATGCCT GCAGGGACAT GGGGGAGTCC TCTGTGATGA AGAGGAAATG 
    CTGCTTAACC CCTGCCAATC CATCAAGTGT AAACATGGCA AATGTAGGCT TTCAGGACTT 
    GGGAAACCAT ATTGCGAATG CAGCAGCGGA TACACGGGGG ACAGTTGTGA TAAAGAAATC 
    TCTTGTCGAG GGGAACGAGT CCGAGATTAC TACCAAAAGC AGCAAGGCTA TGCTGCGTGC 
    CAGACGACCA AGAAGGTATC GAGACTAGAA TGTAAAGGCG GGTGCTCGGC CGGGCAGTGC 
    TGCGGGCCGC TGCGCAGCAA GAGGCGGAAA TACTCCTTCG AGTGCACTGA CGGGTCGTCG 
    TTTGTGGACG AGGTGGAAAA AGTGGTGAAG TGTGGCTGTA CAAATTGTCC CTCCTAA

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

    SLIT2 ( XM_030270822.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030126682.1 Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OTd44177
    Clone ID Related Accession (Same CDS sequence) XM_030270822.1
    Accession Version XM_030270822.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4614bp)
    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 2019-08-08
    Organism Taeniopygia guttata(zebra finch)
    Product slit homolog 2 protein isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044215.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGATGTGCG GCTGGGGGAA GTTCACCTTG CCCCTGGGGC TGCTGCTGGC GATGGCGGGC 
    GCGGTGGCGC CGCAGCCGTG CCCGGCGCAG TGCTCCTGCT CGGGGAGCAC CGTGGACTGT 
    CACGGGCTGG CGCTGCGCGG CGTCCCGAGG AACATCCCCC GCAACACCGA GAGGCTGGAT 
    CTTAATGGGA ATAACATCAC AAGAATCACG AAGACTGACT TTGCTGGTCT AAGGCACCTT 
    CGAGTTCTTC AGCTCATGGA GAACAAGATT AGTACTATTG AGAGGGGAGC ATTCCAAGAT 
    TTAAAAGAAC TGGAGAGGCT GCGCCTAAAC AGAAATAACC TCCAGTTGCT TTCTGAGCTG 
    CTCTTTCTGG GGACGCCGAA GTTATACAGG CTTGATCTTA GTGAAAATCA GATTCAAGCA 
    ATACCAAGGA AGGCATTCCG AGGAGCAGTA GACATAAAAA ATCTGCAACT GGATTACAAC 
    CAGATCAGCT GTATTGAAGA TGGGGCATTT AGGGCTCTGC GTGACCTGGA AGTGCTCACT 
    CTCAACAATA ACAACATCAC TCGACTATCC GTGGCAAGTT TCAACCATAT GCCCAAACTC 
    AGAACATTCC GCCTTCACTC CAACAACCTG TACTGCGACT GCCACCTGGC CTGGCTGTCG 
    GACTGGCTGC GGCAGCGGCC ACGAGTGGGG CTCTACACGC AGTGCATGGG CCCGTCCCAC 
    CTCCGAGGGC ACAACGTGGC CGAGGTCCAG AAGCGCGAGT TTGTCTGCAG CGGTCACCAG 
    TCCTTTATGG CTCCATCCTG CAGTGTCTTG CACTGCCCTA CTGCATGCAC CTGTAGCAAC 
    AACATTGTGG ACTGTCGTGG GAAAGGCCTT ACAGAGATCC CAACAAACCT GCCAGAAACC 
    ATCACTGAAA TACGGTTAGA ACAAAATTCA ATCAAGGTCA TACCTCCTGG AGCTTTCTCC 
    CCCTATAAAA AGCTTCGAAG AATTGACCTG AGCAATAACC AGATCTCTGA AGCAGCTCCA 
    GATGCTTTCC AGGGCTTACG TTCACTCAAT TCACTAGTCC TCTATGGCAA TAAAATCACA 
    GAACTTCCAA AGGGCCTATT TGAAGGACTC TTTTCTCTGC AACTGCTATT ATTGAATGCC 
    AACAAGATCA ATTGTCTGCG AGTTGATGCA TTTCAAGATC TGCACAACTT GAATCTTCTT 
    TCTTTGTATG ACAACAAGCT TCAGACCATT GCAAAAGGCA CCTTCTCACC CCTACGTGCG 
    ATTCAGACCT TGCATTTGGC TCAGAACCCA TTTATCTGTG ACTGCCATCT GAAGTGGCTG 
    GCGGATTACC TTCATACAAA CCCCATTGAG ACCAGTGGTG CCCGTTGCAC CAGCCCCCGC 
    CGTCTGGCAA ACAAAAGGAT CGGCCAGATC AAAAGCAAGA AATTCCGCTG CTCAGCTAAA 
    GAACAGTATT TCATTCCAGG CACTGAAGAT TACAGATCCA AATTAAGTGG AGACTGCTTT 
    GCAGATCTGG CTTGCCCTGA GAAATGTCGC TGTGAAGGGA CCACAGTGGA CTGCTCCAAT 
    CAGAAACTCA ACAAAATTCC TGATCACATT CCCCAGTACA CAGCAGAGTT GCGACTAAAT 
    AACAATGAAT TTTCAGTCTT GGAAGCTACT GGAATCTTTA AGAAACTTCC TCAGCTGCGT 
    AAAATAAACC TGAGCAATAA CAAGATTACA GATATAGAAG AAGGAGCATT TGATGGGGCC 
    TCTGGTGTGA ATGAACTATT GCTCACAAGC AATCGCTTGG AGAGTGTTCA ACACAAAATG 
    TTCAAGGGAC TAGAAAGTCT CAAAACACTG ATGCTGAGGA GCAACAGGGT GAGCTGTGTG 
    GGAAATGACA GCTTCACAGG GCTGAGCTCT GTCCGCCTGC TCTCGCTGTA TGACAACCAG 
    ATCACCACCG TGGCACCCGG CTCCTTCGAC ACGCTGCATT CGCTCTCTAC GCTAAACCTC 
    TTGGCCAATC CCTTCAACTG CAACTGCCAT CTTGCATGGC TTGGAGACTG GCTAAGGAAG 
    AAACGCATTG TGACAGGGAA CCCTCGTTGC CAAAAACCCT ACTTCCTCAA GGAGATTCCG 
    ATCCAGGATG TGGCAATTCA GGATTTTACA TGTGATGATG GAAATGATGA CAATAGCTGT 
    TCTCCCCTGG CCCGCTGCCC TGCAGAATGT ACTTGTCTGG ACACAGTAGT TCGCTGCAGC 
    AACAAAGGTC TAAAAGCTTT GCCTAAAGGC ATCCCAAAAG ATGTGACTGA ACTTTATTTG 
    GATGGAAATC AGTTTACCCT TGTTCCAAAA GAGCTTTCCA ACTACAAGCA TTTGACACTC 
    ATAGATTTAA GTAACAACAG AATCAGCACT CTTTCTAATC AGAGCTTCAG CAACATGACT 
    CAGCTGCTCA CCTTAATTCT TAGTTACAAC CGCCTAAGAT GTATTCCTGC ACGGACTTTT 
    GATGGGTTGA AATCACTTAG GTTGTTGTCT TTACATGGCA ATGATATTTC TGTTGTTCCT 
    GAAGGAGCCT TTAATGATCT TTCAGCATTA TCACACCTGG CTATTGGCGC AAATCCTCTT 
    TATTGTGATT GTAATATGCA GTGGCTATCT GACTGGGTAA AATCAGAATA CAAAGAACCT 
    GGTATTGCAC GTTGTGCTGG TCCTGGAGAA ATGGCAGATA AACTTCTTCT CACAACTCCT 
    TCTAAGAAAT TTACTTGCCA AGGGCCCGTG GATGTTAATA TTCTTGCAAA GTGTAATCCC 
    TGTTTATCAA ATCCGTGTAA AAATGATGGA ACCTGTAATA ATGATCCAGT TGACTTCTAT 
    AGATGTACAT GCCCATATGG TTTCAAGGGC CAAGACTGTG ATATTCCCAT TCATGCTTGC 
    ATTAGTAACC CGTGCAACCA TGGTGGAACT TGTCATTTGA AAGAAGGAGA AAAAGATGGT 
    TTCTGGTGCA CTTGTGCAGA TGGATTTGAA GGTGAAAACT GTGAAGTAAA TGTCGATGAC 
    TGTGAAGACA ATGACTGTGA AAACAATTCT ACTTGTGTGG ATGGAATTAA TAACTATACT 
    TGCCTTTGTC CACCTGAATA TACAGCTGCT AATCTGAATG AAGTGGAGAA AGGTGAACTC 
    TGTGAGGAGA AATTAGATTT CTGTGCCCAA AACCTGAATC CTTGCCAGCA TGATTCAAAG 
    TGTATCTTAA CACCCAAAGG ATACAAGTGT GATTGCACAC CTGGATATGT AGGTGAGCAT 
    TGTGATATTG ACTTTGACGA CTGCCAGGAC AACAAATGTA AAAACGGAGC GCAGTGCACT 
    GACGCAGTTA ATGGATATAC GTGCGTTTGC CCAGAAGGGT ACAGTGGCTT GTTCTGTGAG 
    TTATCGCCGC CAATGGTTCT ACCTCGCACC AGCCCTTGTG ATAATTATGA ATGTCAAAAT 
    GGGGCCCAGT GTATCATAAA AGAAAGTGAA CCAATCTGTC AGTGTTTATC AGGCTACCAG 
    GGTGAGAAAT GTGAAAAGCT GATTAGTATA AACTTCGTCA ACAAAGAATC CTATCTGCAA 
    ATCCCTTCAG CTAAGATACG CCCCCAAACC AATATCACTC TACAGATTGC CACAGATGAA 
    GACAGTGGGA TCCTGCTGTA CAAAGGCGAT AAAGATCACA TAGCAGTGGA ACTGTACCGG 
    GGTAGAGTGA GGGTCAGCTA TGACACGGGA TCATATCCAG CCTCTGCTAT TTACAGTGTG 
    GAAACAATTA ATGATGGCAA TTTCCACATT GTGGAACTGC TAGCTATGGA TCAGATTCTA 
    TCTTTATCTA TTGATGGAGG AAGCCCCAAG ACAATTACCA ATTTGTCCAA GCAATCCACT 
    CTGAATTTTG ATTCTCCGCT GTATGTAGGA GGCATGCCTG TGAAAAATAA TATAGCAGCT 
    TTGCGCCAGT CGCCAGGGCA GAACGGCACC AGCTTCCATG GTTGCATCCG TAATCTGTAT 
    ATCAACAGCG AACTCCAGGA CTTCAGAAAT GTGCCCCTGC AAGTGGGAAT TCTGCCAGGG 
    TGTGAGCCTT GCCATAAGAA GGTTTGTGTG CATGGCACAT GCCATGCTAC CAGCCAGTCA 
    GGCTTCTCCT GTGAGTGCGA AGGAGGATGG ACCGGACCAC TCTGTGATCA GCAAACTAAC 
    GACCCGTGTC TTGGAAATAA ATGTGTGCAT GGTACCTGCT TGCCGATCAA TGCATTTTCA 
    TACAGTTGTA AATGCCTGCA GGGACATGGG GGAGTCCTCT GTGATGAAGA GGAAATGCTG 
    CTTAACCCCT GCCAATCCAT CAAGTGTAAA CATGGCAAAT GTAGGCTTTC AGGACTTGGG 
    AAACCATATT GCGAATGCAG CAGCGGATAC ACGGGGGACA GTTGTGATAA AGAAATCTCT 
    TGTCGAGGGG AACGAGTCCG AGATTACTAC CAAAAGCAGC AAGGCTATGC TGCGTGCCAG 
    ACGACCAAGA AGGTATCGAG ACTAGAATGT AAAGGCGGGT GCTCGGCCGG GCAGTGCTGC 
    GGGCCGCTGC GCAGCAAGAG GCGGAAATAC TCCTTCGAGT GCACTGACGG GTCGTCGTTT 
    GTGGACGAGG TGGAAAAAGT GGTGAAGTGT GGCTGTACAA ATTGTCCCTC CTAA

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

    RefSeq XP_030126682.1
    CDS23..4636
    Translation

    Target ORF information:

    RefSeq Version XM_030270822.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030270822.1

    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
    ATGATGTGCG GCTGGGGGAA GTTCACCTTG CCCCTGGGGC TGCTGCTGGC GATGGCGGGC 
    GCGGTGGCGC CGCAGCCGTG CCCGGCGCAG TGCTCCTGCT CGGGGAGCAC CGTGGACTGT 
    CACGGGCTGG CGCTGCGCGG CGTCCCGAGG AACATCCCCC GCAACACCGA GAGGCTGGAT 
    CTTAATGGGA ATAACATCAC AAGAATCACG AAGACTGACT TTGCTGGTCT AAGGCACCTT 
    CGAGTTCTTC AGCTCATGGA GAACAAGATT AGTACTATTG AGAGGGGAGC ATTCCAAGAT 
    TTAAAAGAAC TGGAGAGGCT GCGCCTAAAC AGAAATAACC TCCAGTTGCT TTCTGAGCTG 
    CTCTTTCTGG GGACGCCGAA GTTATACAGG CTTGATCTTA GTGAAAATCA GATTCAAGCA 
    ATACCAAGGA AGGCATTCCG AGGAGCAGTA GACATAAAAA ATCTGCAACT GGATTACAAC 
    CAGATCAGCT GTATTGAAGA TGGGGCATTT AGGGCTCTGC GTGACCTGGA AGTGCTCACT 
    CTCAACAATA ACAACATCAC TCGACTATCC GTGGCAAGTT TCAACCATAT GCCCAAACTC 
    AGAACATTCC GCCTTCACTC CAACAACCTG TACTGCGACT GCCACCTGGC CTGGCTGTCG 
    GACTGGCTGC GGCAGCGGCC ACGAGTGGGG CTCTACACGC AGTGCATGGG CCCGTCCCAC 
    CTCCGAGGGC ACAACGTGGC CGAGGTCCAG AAGCGCGAGT TTGTCTGCAG CGGTCACCAG 
    TCCTTTATGG CTCCATCCTG CAGTGTCTTG CACTGCCCTA CTGCATGCAC CTGTAGCAAC 
    AACATTGTGG ACTGTCGTGG GAAAGGCCTT ACAGAGATCC CAACAAACCT GCCAGAAACC 
    ATCACTGAAA TACGGTTAGA ACAAAATTCA ATCAAGGTCA TACCTCCTGG AGCTTTCTCC 
    CCCTATAAAA AGCTTCGAAG AATTGACCTG AGCAATAACC AGATCTCTGA AGCAGCTCCA 
    GATGCTTTCC AGGGCTTACG TTCACTCAAT TCACTAGTCC TCTATGGCAA TAAAATCACA 
    GAACTTCCAA AGGGCCTATT TGAAGGACTC TTTTCTCTGC AACTGCTATT ATTGAATGCC 
    AACAAGATCA ATTGTCTGCG AGTTGATGCA TTTCAAGATC TGCACAACTT GAATCTTCTT 
    TCTTTGTATG ACAACAAGCT TCAGACCATT GCAAAAGGCA CCTTCTCACC CCTACGTGCG 
    ATTCAGACCT TGCATTTGGC TCAGAACCCA TTTATCTGTG ACTGCCATCT GAAGTGGCTG 
    GCGGATTACC TTCATACAAA CCCCATTGAG ACCAGTGGTG CCCGTTGCAC CAGCCCCCGC 
    CGTCTGGCAA ACAAAAGGAT CGGCCAGATC AAAAGCAAGA AATTCCGCTG CTCAGCTAAA 
    GAACAGTATT TCATTCCAGG CACTGAAGAT TACAGATCCA AATTAAGTGG AGACTGCTTT 
    GCAGATCTGG CTTGCCCTGA GAAATGTCGC TGTGAAGGGA CCACAGTGGA CTGCTCCAAT 
    CAGAAACTCA ACAAAATTCC TGATCACATT CCCCAGTACA CAGCAGAGTT GCGACTAAAT 
    AACAATGAAT TTTCAGTCTT GGAAGCTACT GGAATCTTTA AGAAACTTCC TCAGCTGCGT 
    AAAATAAACC TGAGCAATAA CAAGATTACA GATATAGAAG AAGGAGCATT TGATGGGGCC 
    TCTGGTGTGA ATGAACTATT GCTCACAAGC AATCGCTTGG AGAGTGTTCA ACACAAAATG 
    TTCAAGGGAC TAGAAAGTCT CAAAACACTG ATGCTGAGGA GCAACAGGGT GAGCTGTGTG 
    GGAAATGACA GCTTCACAGG GCTGAGCTCT GTCCGCCTGC TCTCGCTGTA TGACAACCAG 
    ATCACCACCG TGGCACCCGG CTCCTTCGAC ACGCTGCATT CGCTCTCTAC GCTAAACCTC 
    TTGGCCAATC CCTTCAACTG CAACTGCCAT CTTGCATGGC TTGGAGACTG GCTAAGGAAG 
    AAACGCATTG TGACAGGGAA CCCTCGTTGC CAAAAACCCT ACTTCCTCAA GGAGATTCCG 
    ATCCAGGATG TGGCAATTCA GGATTTTACA TGTGATGATG GAAATGATGA CAATAGCTGT 
    TCTCCCCTGG CCCGCTGCCC TGCAGAATGT ACTTGTCTGG ACACAGTAGT TCGCTGCAGC 
    AACAAAGGTC TAAAAGCTTT GCCTAAAGGC ATCCCAAAAG ATGTGACTGA ACTTTATTTG 
    GATGGAAATC AGTTTACCCT TGTTCCAAAA GAGCTTTCCA ACTACAAGCA TTTGACACTC 
    ATAGATTTAA GTAACAACAG AATCAGCACT CTTTCTAATC AGAGCTTCAG CAACATGACT 
    CAGCTGCTCA CCTTAATTCT TAGTTACAAC CGCCTAAGAT GTATTCCTGC ACGGACTTTT 
    GATGGGTTGA AATCACTTAG GTTGTTGTCT TTACATGGCA ATGATATTTC TGTTGTTCCT 
    GAAGGAGCCT TTAATGATCT TTCAGCATTA TCACACCTGG CTATTGGCGC AAATCCTCTT 
    TATTGTGATT GTAATATGCA GTGGCTATCT GACTGGGTAA AATCAGAATA CAAAGAACCT 
    GGTATTGCAC GTTGTGCTGG TCCTGGAGAA ATGGCAGATA AACTTCTTCT CACAACTCCT 
    TCTAAGAAAT TTACTTGCCA AGGGCCCGTG GATGTTAATA TTCTTGCAAA GTGTAATCCC 
    TGTTTATCAA ATCCGTGTAA AAATGATGGA ACCTGTAATA ATGATCCAGT TGACTTCTAT 
    AGATGTACAT GCCCATATGG TTTCAAGGGC CAAGACTGTG ATATTCCCAT TCATGCTTGC 
    ATTAGTAACC CGTGCAACCA TGGTGGAACT TGTCATTTGA AAGAAGGAGA AAAAGATGGT 
    TTCTGGTGCA CTTGTGCAGA TGGATTTGAA GGTGAAAACT GTGAAGTAAA TGTCGATGAC 
    TGTGAAGACA ATGACTGTGA AAACAATTCT ACTTGTGTGG ATGGAATTAA TAACTATACT 
    TGCCTTTGTC CACCTGAATA TACAGCTGCT AATCTGAATG AAGTGGAGAA AGGTGAACTC 
    TGTGAGGAGA AATTAGATTT CTGTGCCCAA AACCTGAATC CTTGCCAGCA TGATTCAAAG 
    TGTATCTTAA CACCCAAAGG ATACAAGTGT GATTGCACAC CTGGATATGT AGGTGAGCAT 
    TGTGATATTG ACTTTGACGA CTGCCAGGAC AACAAATGTA AAAACGGAGC GCAGTGCACT 
    GACGCAGTTA ATGGATATAC GTGCGTTTGC CCAGAAGGGT ACAGTGGCTT GTTCTGTGAG 
    TTATCGCCGC CAATGGTTCT ACCTCGCACC AGCCCTTGTG ATAATTATGA ATGTCAAAAT 
    GGGGCCCAGT GTATCATAAA AGAAAGTGAA CCAATCTGTC AGTGTTTATC AGGCTACCAG 
    GGTGAGAAAT GTGAAAAGCT GATTAGTATA AACTTCGTCA ACAAAGAATC CTATCTGCAA 
    ATCCCTTCAG CTAAGATACG CCCCCAAACC AATATCACTC TACAGATTGC CACAGATGAA 
    GACAGTGGGA TCCTGCTGTA CAAAGGCGAT AAAGATCACA TAGCAGTGGA ACTGTACCGG 
    GGTAGAGTGA GGGTCAGCTA TGACACGGGA TCATATCCAG CCTCTGCTAT TTACAGTGTG 
    GAAACAATTA ATGATGGCAA TTTCCACATT GTGGAACTGC TAGCTATGGA TCAGATTCTA 
    TCTTTATCTA TTGATGGAGG AAGCCCCAAG ACAATTACCA ATTTGTCCAA GCAATCCACT 
    CTGAATTTTG ATTCTCCGCT GTATGTAGGA GGCATGCCTG TGAAAAATAA TATAGCAGCT 
    TTGCGCCAGT CGCCAGGGCA GAACGGCACC AGCTTCCATG GTTGCATCCG TAATCTGTAT 
    ATCAACAGCG AACTCCAGGA CTTCAGAAAT GTGCCCCTGC AAGTGGGAAT TCTGCCAGGG 
    TGTGAGCCTT GCCATAAGAA GGTTTGTGTG CATGGCACAT GCCATGCTAC CAGCCAGTCA 
    GGCTTCTCCT GTGAGTGCGA AGGAGGATGG ACCGGACCAC TCTGTGATCA GCAAACTAAC 
    GACCCGTGTC TTGGAAATAA ATGTGTGCAT GGTACCTGCT TGCCGATCAA TGCATTTTCA 
    TACAGTTGTA AATGCCTGCA GGGACATGGG GGAGTCCTCT GTGATGAAGA GGAAATGCTG 
    CTTAACCCCT GCCAATCCAT CAAGTGTAAA CATGGCAAAT GTAGGCTTTC AGGACTTGGG 
    AAACCATATT GCGAATGCAG CAGCGGATAC ACGGGGGACA GTTGTGATAA AGAAATCTCT 
    TGTCGAGGGG AACGAGTCCG AGATTACTAC CAAAAGCAGC AAGGCTATGC TGCGTGCCAG 
    ACGACCAAGA AGGTATCGAG ACTAGAATGT AAAGGCGGGT GCTCGGCCGG GCAGTGCTGC 
    GGGCCGCTGC GCAGCAAGAG GCGGAAATAC TCCTTCGAGT GCACTGACGG GTCGTCGTTT 
    GTGGACGAGG TGGAAAAAGT GGTGAAGTGT GGCTGTACAA ATTGTCCCTC CTAA

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

    SLIT2 ( XM_030270823.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030126683.1 Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OTd44178
    Clone ID Related Accession (Same CDS sequence) XM_030270823.1
    Accession Version XM_030270823.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4602bp)
    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 2019-08-08
    Organism Taeniopygia guttata(zebra finch)
    Product slit homolog 2 protein isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044215.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGATGTGCG GCTGGGGGAA GTTCACCTTG CCCCTGGGGC TGCTGCTGGC GATGGCGGGC 
    GCGGTGGCGC CGCAGCCGTG CCCGGCGCAG TGCTCCTGCT CGGGGAGCAC CGTGGACTGT 
    CACGGGCTGG CGCTGCGCGG CGTCCCGAGG AACATCCCCC GCAACACCGA GAGGCTGGAT 
    CTTAATGGGA ATAACATCAC AAGAATCACG AAGACTGACT TTGCTGGTCT AAGGCACCTT 
    CGAGTTCTTC AGCTCATGGA GAACAAGATT AGTACTATTG AGAGGGGAGC ATTCCAAGAT 
    TTAAAAGAAC TGGAGAGGCT GCGCCTAAAC AGAAATAACC TCCAGTTGCT TTCTGAGCTG 
    CTCTTTCTGG GGACGCCGAA GTTATACAGG CTTGATCTTA GTGAAAATCA GATTCAAGCA 
    ATACCAAGGA AGGCATTCCG AGGAGCAGTA GACATAAAAA ATCTGCAACT GGATTACAAC 
    CAGATCAGCT GTATTGAAGA TGGGGCATTT AGGGCTCTGC GTGACCTGGA AGTGCTCACT 
    CTCAACAATA ACAACATCAC TCGACTATCC GTGGCAAGTT TCAACCATAT GCCCAAACTC 
    AGAACATTCC GCCTTCACTC CAACAACCTG TACTGCGACT GCCACCTGGC CTGGCTGTCG 
    GACTGGCTGC GGCAGCGGCC ACGAGTGGGG CTCTACACGC AGTGCATGGG CCCGTCCCAC 
    CTCCGAGGGC ACAACGTGGC CGAGGTCCAG AAGCGCGAGT TTGTCTGCAG CGATGAGGAA 
    GAAGGTCACC AGTCCTTTAT GGCTCCATCC TGCAGTGTCT TGCACTGCCC TACTGCATGC 
    ACCTGTAGCA ACAACATTGT GGACTGTCGT GGGAAAGGCC TTACAGAGAT CCCAACAAAC 
    CTGCCAGAAA CCATCACTGA AATACGGTTA GAACAAAATT CAATCAAGGT CATACCTCCT 
    GGAGCTTTCT CCCCCTATAA AAAGCTTCGA AGAATTGACC TGAGCAATAA CCAGATCTCT 
    GAAGCAGCTC CAGATGCTTT CCAGGGCTTA CGTTCACTCA ATTCACTAGT CCTCTATGGC 
    AATAAAATCA CAGAACTTCC AAAGGGCCTA TTTGAAGGAC TCTTTTCTCT GCAACTGCTA 
    TTATTGAATG CCAACAAGAT CAATTGTCTG CGAGTTGATG CATTTCAAGA TCTGCACAAC 
    TTGAATCTTC TTTCTTTGTA TGACAACAAG CTTCAGACCA TTGCAAAAGG CACCTTCTCA 
    CCCCTACGTG CGATTCAGAC CTTGCATTTG GCTCAGAACC CATTTATCTG TGACTGCCAT 
    CTGAAGTGGC TGGCGGATTA CCTTCATACA AACCCCATTG AGACCAGTGG TGCCCGTTGC 
    ACCAGCCCCC GCCGTCTGGC AAACAAAAGG ATCGGCCAGA TCAAAAGCAA GAAATTCCGC 
    TGCTCAGGCA CTGAAGATTA CAGATCCAAA TTAAGTGGAG ACTGCTTTGC AGATCTGGCT 
    TGCCCTGAGA AATGTCGCTG TGAAGGGACC ACAGTGGACT GCTCCAATCA GAAACTCAAC 
    AAAATTCCTG ATCACATTCC CCAGTACACA GCAGAGTTGC GACTAAATAA CAATGAATTT 
    TCAGTCTTGG AAGCTACTGG AATCTTTAAG AAACTTCCTC AGCTGCGTAA AATAAACCTG 
    AGCAATAACA AGATTACAGA TATAGAAGAA GGAGCATTTG ATGGGGCCTC TGGTGTGAAT 
    GAACTATTGC TCACAAGCAA TCGCTTGGAG AGTGTTCAAC ACAAAATGTT CAAGGGACTA 
    GAAAGTCTCA AAACACTGAT GCTGAGGAGC AACAGGGTGA GCTGTGTGGG AAATGACAGC 
    TTCACAGGGC TGAGCTCTGT CCGCCTGCTC TCGCTGTATG ACAACCAGAT CACCACCGTG 
    GCACCCGGCT CCTTCGACAC GCTGCATTCG CTCTCTACGC TAAACCTCTT GGCCAATCCC 
    TTCAACTGCA ACTGCCATCT TGCATGGCTT GGAGACTGGC TAAGGAAGAA ACGCATTGTG 
    ACAGGGAACC CTCGTTGCCA AAAACCCTAC TTCCTCAAGG AGATTCCGAT CCAGGATGTG 
    GCAATTCAGG ATTTTACATG TGATGATGGA AATGATGACA ATAGCTGTTC TCCCCTGGCC 
    CGCTGCCCTG CAGAATGTAC TTGTCTGGAC ACAGTAGTTC GCTGCAGCAA CAAAGGTCTA 
    AAAGCTTTGC CTAAAGGCAT CCCAAAAGAT GTGACTGAAC TTTATTTGGA TGGAAATCAG 
    TTTACCCTTG TTCCAAAAGA GCTTTCCAAC TACAAGCATT TGACACTCAT AGATTTAAGT 
    AACAACAGAA TCAGCACTCT TTCTAATCAG AGCTTCAGCA ACATGACTCA GCTGCTCACC 
    TTAATTCTTA GTTACAACCG CCTAAGATGT ATTCCTGCAC GGACTTTTGA TGGGTTGAAA 
    TCACTTAGGT TGTTGTCTTT ACATGGCAAT GATATTTCTG TTGTTCCTGA AGGAGCCTTT 
    AATGATCTTT CAGCATTATC ACACCTGGCT ATTGGCGCAA ATCCTCTTTA TTGTGATTGT 
    AATATGCAGT GGCTATCTGA CTGGGTAAAA TCAGAATACA AAGAACCTGG TATTGCACGT 
    TGTGCTGGTC CTGGAGAAAT GGCAGATAAA CTTCTTCTCA CAACTCCTTC TAAGAAATTT 
    ACTTGCCAAG GGCCCGTGGA TGTTAATATT CTTGCAAAGT GTAATCCCTG TTTATCAAAT 
    CCGTGTAAAA ATGATGGAAC CTGTAATAAT GATCCAGTTG ACTTCTATAG ATGTACATGC 
    CCATATGGTT TCAAGGGCCA AGACTGTGAT ATTCCCATTC ATGCTTGCAT TAGTAACCCG 
    TGCAACCATG GTGGAACTTG TCATTTGAAA GAAGGAGAAA AAGATGGTTT CTGGTGCACT 
    TGTGCAGATG GATTTGAAGG TGAAAACTGT GAAGTAAATG TCGATGACTG TGAAGACAAT 
    GACTGTGAAA ACAATTCTAC TTGTGTGGAT GGAATTAATA ACTATACTTG CCTTTGTCCA 
    CCTGAATATA CAGCTGCTAA TCTGAATGAA GTGGAGAAAG GTGAACTCTG TGAGGAGAAA 
    TTAGATTTCT GTGCCCAAAA CCTGAATCCT TGCCAGCATG ATTCAAAGTG TATCTTAACA 
    CCCAAAGGAT ACAAGTGTGA TTGCACACCT GGATATGTAG GTGAGCATTG TGATATTGAC 
    TTTGACGACT GCCAGGACAA CAAATGTAAA AACGGAGCGC AGTGCACTGA CGCAGTTAAT 
    GGATATACGT GCGTTTGCCC AGAAGGGTAC AGTGGCTTGT TCTGTGAGTT ATCGCCGCCA 
    ATGGTTCTAC CTCGCACCAG CCCTTGTGAT AATTATGAAT GTCAAAATGG GGCCCAGTGT 
    ATCATAAAAG AAAGTGAACC AATCTGTCAG TGTTTATCAG GCTACCAGGG TGAGAAATGT 
    GAAAAGCTGA TTAGTATAAA CTTCGTCAAC AAAGAATCCT ATCTGCAAAT CCCTTCAGCT 
    AAGATACGCC CCCAAACCAA TATCACTCTA CAGATTGCCA CAGATGAAGA CAGTGGGATC 
    CTGCTGTACA AAGGCGATAA AGATCACATA GCAGTGGAAC TGTACCGGGG TAGAGTGAGG 
    GTCAGCTATG ACACGGGATC ATATCCAGCC TCTGCTATTT ACAGTGTGGA AACAATTAAT 
    GATGGCAATT TCCACATTGT GGAACTGCTA GCTATGGATC AGATTCTATC TTTATCTATT 
    GATGGAGGAA GCCCCAAGAC AATTACCAAT TTGTCCAAGC AATCCACTCT GAATTTTGAT 
    TCTCCGCTGT ATGTAGGAGG CATGCCTGTG AAAAATAATA TAGCAGCTTT GCGCCAGTCG 
    CCAGGGCAGA ACGGCACCAG CTTCCATGGT TGCATCCGTA ATCTGTATAT CAACAGCGAA 
    CTCCAGGACT TCAGAAATGT GCCCCTGCAA GTGGGAATTC TGCCAGGGTG TGAGCCTTGC 
    CATAAGAAGG TTTGTGTGCA TGGCACATGC CATGCTACCA GCCAGTCAGG CTTCTCCTGT 
    GAGTGCGAAG GAGGATGGAC CGGACCACTC TGTGATCAGC AAACTAACGA CCCGTGTCTT 
    GGAAATAAAT GTGTGCATGG TACCTGCTTG CCGATCAATG CATTTTCATA CAGTTGTAAA 
    TGCCTGCAGG GACATGGGGG AGTCCTCTGT GATGAAGAGG AAATGCTGCT TAACCCCTGC 
    CAATCCATCA AGTGTAAACA TGGCAAATGT AGGCTTTCAG GACTTGGGAA ACCATATTGC 
    GAATGCAGCA GCGGATACAC GGGGGACAGT TGTGATAAAG AAATCTCTTG TCGAGGGGAA 
    CGAGTCCGAG ATTACTACCA AAAGCAGCAA GGCTATGCTG CGTGCCAGAC GACCAAGAAG 
    GTATCGAGAC TAGAATGTAA AGGCGGGTGC TCGGCCGGGC AGTGCTGCGG GCCGCTGCGC 
    AGCAAGAGGC GGAAATACTC CTTCGAGTGC ACTGACGGGT CGTCGTTTGT GGACGAGGTG 
    GAAAAAGTGG TGAAGTGTGG CTGTACAAAT TGTCCCTCCT AA

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

    RefSeq XP_030126683.1
    CDS23..4624
    Translation

    Target ORF information:

    RefSeq Version XM_030270823.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030270823.1

    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
    ATGATGTGCG GCTGGGGGAA GTTCACCTTG CCCCTGGGGC TGCTGCTGGC GATGGCGGGC 
    GCGGTGGCGC CGCAGCCGTG CCCGGCGCAG TGCTCCTGCT CGGGGAGCAC CGTGGACTGT 
    CACGGGCTGG CGCTGCGCGG CGTCCCGAGG AACATCCCCC GCAACACCGA GAGGCTGGAT 
    CTTAATGGGA ATAACATCAC AAGAATCACG AAGACTGACT TTGCTGGTCT AAGGCACCTT 
    CGAGTTCTTC AGCTCATGGA GAACAAGATT AGTACTATTG AGAGGGGAGC ATTCCAAGAT 
    TTAAAAGAAC TGGAGAGGCT GCGCCTAAAC AGAAATAACC TCCAGTTGCT TTCTGAGCTG 
    CTCTTTCTGG GGACGCCGAA GTTATACAGG CTTGATCTTA GTGAAAATCA GATTCAAGCA 
    ATACCAAGGA AGGCATTCCG AGGAGCAGTA GACATAAAAA ATCTGCAACT GGATTACAAC 
    CAGATCAGCT GTATTGAAGA TGGGGCATTT AGGGCTCTGC GTGACCTGGA AGTGCTCACT 
    CTCAACAATA ACAACATCAC TCGACTATCC GTGGCAAGTT TCAACCATAT GCCCAAACTC 
    AGAACATTCC GCCTTCACTC CAACAACCTG TACTGCGACT GCCACCTGGC CTGGCTGTCG 
    GACTGGCTGC GGCAGCGGCC ACGAGTGGGG CTCTACACGC AGTGCATGGG CCCGTCCCAC 
    CTCCGAGGGC ACAACGTGGC CGAGGTCCAG AAGCGCGAGT TTGTCTGCAG CGATGAGGAA 
    GAAGGTCACC AGTCCTTTAT GGCTCCATCC TGCAGTGTCT TGCACTGCCC TACTGCATGC 
    ACCTGTAGCA ACAACATTGT GGACTGTCGT GGGAAAGGCC TTACAGAGAT CCCAACAAAC 
    CTGCCAGAAA CCATCACTGA AATACGGTTA GAACAAAATT CAATCAAGGT CATACCTCCT 
    GGAGCTTTCT CCCCCTATAA AAAGCTTCGA AGAATTGACC TGAGCAATAA CCAGATCTCT 
    GAAGCAGCTC CAGATGCTTT CCAGGGCTTA CGTTCACTCA ATTCACTAGT CCTCTATGGC 
    AATAAAATCA CAGAACTTCC AAAGGGCCTA TTTGAAGGAC TCTTTTCTCT GCAACTGCTA 
    TTATTGAATG CCAACAAGAT CAATTGTCTG CGAGTTGATG CATTTCAAGA TCTGCACAAC 
    TTGAATCTTC TTTCTTTGTA TGACAACAAG CTTCAGACCA TTGCAAAAGG CACCTTCTCA 
    CCCCTACGTG CGATTCAGAC CTTGCATTTG GCTCAGAACC CATTTATCTG TGACTGCCAT 
    CTGAAGTGGC TGGCGGATTA CCTTCATACA AACCCCATTG AGACCAGTGG TGCCCGTTGC 
    ACCAGCCCCC GCCGTCTGGC AAACAAAAGG ATCGGCCAGA TCAAAAGCAA GAAATTCCGC 
    TGCTCAGGCA CTGAAGATTA CAGATCCAAA TTAAGTGGAG ACTGCTTTGC AGATCTGGCT 
    TGCCCTGAGA AATGTCGCTG TGAAGGGACC ACAGTGGACT GCTCCAATCA GAAACTCAAC 
    AAAATTCCTG ATCACATTCC CCAGTACACA GCAGAGTTGC GACTAAATAA CAATGAATTT 
    TCAGTCTTGG AAGCTACTGG AATCTTTAAG AAACTTCCTC AGCTGCGTAA AATAAACCTG 
    AGCAATAACA AGATTACAGA TATAGAAGAA GGAGCATTTG ATGGGGCCTC TGGTGTGAAT 
    GAACTATTGC TCACAAGCAA TCGCTTGGAG AGTGTTCAAC ACAAAATGTT CAAGGGACTA 
    GAAAGTCTCA AAACACTGAT GCTGAGGAGC AACAGGGTGA GCTGTGTGGG AAATGACAGC 
    TTCACAGGGC TGAGCTCTGT CCGCCTGCTC TCGCTGTATG ACAACCAGAT CACCACCGTG 
    GCACCCGGCT CCTTCGACAC GCTGCATTCG CTCTCTACGC TAAACCTCTT GGCCAATCCC 
    TTCAACTGCA ACTGCCATCT TGCATGGCTT GGAGACTGGC TAAGGAAGAA ACGCATTGTG 
    ACAGGGAACC CTCGTTGCCA AAAACCCTAC TTCCTCAAGG AGATTCCGAT CCAGGATGTG 
    GCAATTCAGG ATTTTACATG TGATGATGGA AATGATGACA ATAGCTGTTC TCCCCTGGCC 
    CGCTGCCCTG CAGAATGTAC TTGTCTGGAC ACAGTAGTTC GCTGCAGCAA CAAAGGTCTA 
    AAAGCTTTGC CTAAAGGCAT CCCAAAAGAT GTGACTGAAC TTTATTTGGA TGGAAATCAG 
    TTTACCCTTG TTCCAAAAGA GCTTTCCAAC TACAAGCATT TGACACTCAT AGATTTAAGT 
    AACAACAGAA TCAGCACTCT TTCTAATCAG AGCTTCAGCA ACATGACTCA GCTGCTCACC 
    TTAATTCTTA GTTACAACCG CCTAAGATGT ATTCCTGCAC GGACTTTTGA TGGGTTGAAA 
    TCACTTAGGT TGTTGTCTTT ACATGGCAAT GATATTTCTG TTGTTCCTGA AGGAGCCTTT 
    AATGATCTTT CAGCATTATC ACACCTGGCT ATTGGCGCAA ATCCTCTTTA TTGTGATTGT 
    AATATGCAGT GGCTATCTGA CTGGGTAAAA TCAGAATACA AAGAACCTGG TATTGCACGT 
    TGTGCTGGTC CTGGAGAAAT GGCAGATAAA CTTCTTCTCA CAACTCCTTC TAAGAAATTT 
    ACTTGCCAAG GGCCCGTGGA TGTTAATATT CTTGCAAAGT GTAATCCCTG TTTATCAAAT 
    CCGTGTAAAA ATGATGGAAC CTGTAATAAT GATCCAGTTG ACTTCTATAG ATGTACATGC 
    CCATATGGTT TCAAGGGCCA AGACTGTGAT ATTCCCATTC ATGCTTGCAT TAGTAACCCG 
    TGCAACCATG GTGGAACTTG TCATTTGAAA GAAGGAGAAA AAGATGGTTT CTGGTGCACT 
    TGTGCAGATG GATTTGAAGG TGAAAACTGT GAAGTAAATG TCGATGACTG TGAAGACAAT 
    GACTGTGAAA ACAATTCTAC TTGTGTGGAT GGAATTAATA ACTATACTTG CCTTTGTCCA 
    CCTGAATATA CAGCTGCTAA TCTGAATGAA GTGGAGAAAG GTGAACTCTG TGAGGAGAAA 
    TTAGATTTCT GTGCCCAAAA CCTGAATCCT TGCCAGCATG ATTCAAAGTG TATCTTAACA 
    CCCAAAGGAT ACAAGTGTGA TTGCACACCT GGATATGTAG GTGAGCATTG TGATATTGAC 
    TTTGACGACT GCCAGGACAA CAAATGTAAA AACGGAGCGC AGTGCACTGA CGCAGTTAAT 
    GGATATACGT GCGTTTGCCC AGAAGGGTAC AGTGGCTTGT TCTGTGAGTT ATCGCCGCCA 
    ATGGTTCTAC CTCGCACCAG CCCTTGTGAT AATTATGAAT GTCAAAATGG GGCCCAGTGT 
    ATCATAAAAG AAAGTGAACC AATCTGTCAG TGTTTATCAG GCTACCAGGG TGAGAAATGT 
    GAAAAGCTGA TTAGTATAAA CTTCGTCAAC AAAGAATCCT ATCTGCAAAT CCCTTCAGCT 
    AAGATACGCC CCCAAACCAA TATCACTCTA CAGATTGCCA CAGATGAAGA CAGTGGGATC 
    CTGCTGTACA AAGGCGATAA AGATCACATA GCAGTGGAAC TGTACCGGGG TAGAGTGAGG 
    GTCAGCTATG ACACGGGATC ATATCCAGCC TCTGCTATTT ACAGTGTGGA AACAATTAAT 
    GATGGCAATT TCCACATTGT GGAACTGCTA GCTATGGATC AGATTCTATC TTTATCTATT 
    GATGGAGGAA GCCCCAAGAC AATTACCAAT TTGTCCAAGC AATCCACTCT GAATTTTGAT 
    TCTCCGCTGT ATGTAGGAGG CATGCCTGTG AAAAATAATA TAGCAGCTTT GCGCCAGTCG 
    CCAGGGCAGA ACGGCACCAG CTTCCATGGT TGCATCCGTA ATCTGTATAT CAACAGCGAA 
    CTCCAGGACT TCAGAAATGT GCCCCTGCAA GTGGGAATTC TGCCAGGGTG TGAGCCTTGC 
    CATAAGAAGG TTTGTGTGCA TGGCACATGC CATGCTACCA GCCAGTCAGG CTTCTCCTGT 
    GAGTGCGAAG GAGGATGGAC CGGACCACTC TGTGATCAGC AAACTAACGA CCCGTGTCTT 
    GGAAATAAAT GTGTGCATGG TACCTGCTTG CCGATCAATG CATTTTCATA CAGTTGTAAA 
    TGCCTGCAGG GACATGGGGG AGTCCTCTGT GATGAAGAGG AAATGCTGCT TAACCCCTGC 
    CAATCCATCA AGTGTAAACA TGGCAAATGT AGGCTTTCAG GACTTGGGAA ACCATATTGC 
    GAATGCAGCA GCGGATACAC GGGGGACAGT TGTGATAAAG AAATCTCTTG TCGAGGGGAA 
    CGAGTCCGAG ATTACTACCA AAAGCAGCAA GGCTATGCTG CGTGCCAGAC GACCAAGAAG 
    GTATCGAGAC TAGAATGTAA AGGCGGGTGC TCGGCCGGGC AGTGCTGCGG GCCGCTGCGC 
    AGCAAGAGGC GGAAATACTC CTTCGAGTGC ACTGACGGGT CGTCGTTTGT GGACGAGGTG 
    GAAAAAGTGG TGAAGTGTGG CTGTACAAAT TGTCCCTCCT AA

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

    SLIT2 ( XM_030270824.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030126684.1 Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OTd44179
    Clone ID Related Accession (Same CDS sequence) XM_030270824.1
    Accession Version XM_030270824.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4599bp)
    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 2019-08-08
    Organism Taeniopygia guttata(zebra finch)
    Product slit homolog 2 protein isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044215.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGATGTGCG GCTGGGGGAA GTTCACCTTG CCCCTGGGGC TGCTGCTGGC GATGGCGGGC 
    GCGGTGGCGC CGCAGCCGTG CCCGGCGCAG TGCTCCTGCT CGGGGAGCAC CGTGGACTGT 
    CACGGGCTGG CGCTGCGCGG CGTCCCGAGG AACATCCCCC GCAACACCGA GAGGCTGGAT 
    CTTAATGGGA ATAACATCAC AAGAATCACG AAGACTGACT TTGCTGGTCT AAGGCACCTT 
    CGAGTTCTTC AGCTCATGGA GAACAAGATT AGTACTATTG AGAGGGGAGC ATTCCAAGAT 
    TTAAAAGAAC TGGAGAGGCT GCGCCTAAAC AGAAATAACC TCCAGTTGCT TTCTGAGCTG 
    CTCTTTCTGG GGACGCCGAA GTTATACAGG CTTGATCTTA GTGAAAATCA GATTCAAGCA 
    ATACCAAGGA AGGCATTCCG AGGAGCAGTA GACATAAAAA ATCTGCAACT GGATTACAAC 
    CAGATCAGCT GTATTGAAGA TGGGGCATTT AGGGCTCTGC GTGACCTGGA AGTGCTCACT 
    CTCAACAATA ACAACATCAC TCGACTATCC GTGGCAAGTT TCAACCATAT GCCCAAACTC 
    AGAACATTCC GCCTTCACTC CAACAACCTG TACTGCGACT GCCACCTGGC CTGGCTGTCG 
    GACTGGCTGC GGCAGCGGCC ACGAGTGGGG CTCTACACGC AGTGCATGGG CCCGTCCCAC 
    CTCCGAGGGC ACAACGTGGC CGAGGTCCAG AAGCGCGAGT TTGTCTGCAG CGATGAGGAA 
    GAAGGTCACC AGTCCTTTAT GGCTCCATCC TGCAGTGTCT TGCACTGCCC TACTGCATGC 
    ACCTGTAGCA ACAACATTGT GGACTGTCGT GGGAAAGGCC TTACAGAGAT CCCAACAAAC 
    CTGCCAGAAA CCATCACTGA AATACGGTTA GAACAAAATT CAATCAAGGT CATACCTCCT 
    GGAGCTTTCT CCCCCTATAA AAAGCTTCGA AGAATTGACC TGAGCAATAA CCAGATCTCT 
    GAAGCAGCTC CAGATGCTTT CCAGGGCTTA CGTTCACTCA ATTCACTAGT CCTCTATGGC 
    AATAAAATCA CAGAACTTCC AAAGGGCCTA TTTGAAGGAC TCTTTTCTCT GCAACTGCTA 
    TTATTGAATG CCAACAAGAT CAATTGTCTG CGAGTTGATG CATTTCAAGA TCTGCACAAC 
    TTGAATCTTC TTTCTTTGTA TGACAACAAG CTTCAGACCA TTGCAAAAGG CACCTTCTCA 
    CCCCTACGTG CGATTCAGAC CTTGCATTTG GCTCAGAACC CATTTATCTG TGACTGCCAT 
    CTGAAGTGGC TGGCGGATTA CCTTCATACA AACCCCATTG AGACCAGTGG TGCCCGTTGC 
    ACCAGCCCCC GCCGTCTGGC AAACAAAAGG ATCGGCCAGA TCAAAAGCAA GAAATTCCGC 
    TGCTCAGCTA AAGAACAGTA TTTCATTCCA GGCACTGAAG ATTACAGATC CAAATTAAGT 
    GGAGACTGCT TTGCAGATCT GGCTTGCCCT GAGAAATGTC GCTGTGAAGG GACCACAGTG 
    GACTGCTCCA ATCAGAAACT CAACAAAATT CCTGATCACA TTCCCCAGTA CACAGCAGAG 
    TTGCGACTAA ATAACAATGA ATTTTCAGTC TTGGAAGCTA CTGGAATCTT TAAGAAACTT 
    CCTCAGCTGC GTAAAATAAA CCTGAGCAAT AACAAGATTA CAGATATAGA AGAAGGAGCA 
    TTTGATGGGG CCTCTGGTGT GAATGAACTA TTGCTCACAA GCAATCGCTT GGAGAGTGTT 
    CAACACAAAA TGTTCAAGGG ACTAGAAAGT CTCAAAACAC TGATGCTGAG GAGCAACAGG 
    GTGAGCTGTG TGGGAAATGA CAGCTTCACA GGGCTGAGCT CTGTCCGCCT GCTCTCGCTG 
    TATGACAACC AGATCACCAC CGTGGCACCC GGCTCCTTCG ACACGCTGCA TTCGCTCTCT 
    ACGCTAAACC TCTTGGCCAA TCCCTTCAAC TGCAACTGCC ATCTTGCATG GCTTGGAGAC 
    TGGCTAAGGA AGAAACGCAT TGTGACAGGG AACCCTCGTT GCCAAAAACC CTACTTCCTC 
    AAGGAGATTC CGATCCAGGA TGTGGCAATT CAGGATTTTA CATGTGATGA TGGAAATGAT 
    GACAATAGCT GTTCTCCCCT GGCCCGCTGC CCTGCAGAAT GTACTTGTCT GGACACAGTA 
    GTTCGCTGCA GCAACAAAGG TCTAAAAGCT TTGCCTAAAG GCATCCCAAA AGATGTGACT 
    GAACTTTATT TGGATGGAAA TCAGTTTACC CTTGTTCCAA AAGAGCTTTC CAACTACAAG 
    CATTTGACAC TCATAGATTT AAGTAACAAC AGAATCAGCA CTCTTTCTAA TCAGAGCTTC 
    AGCAACATGA CTCAGCTGCT CACCTTAATT CTTAGTTACA ACCGCCTAAG ATGTATTCCT 
    GCACGGACTT TTGATGGGTT GAAATCACTT AGGTTGTTGT CTTTACATGG CAATGATATT 
    TCTGTTGTTC CTGAAGGAGC CTTTAATGAT CTTTCAGCAT TATCACACCT GGCTATTGGC 
    GCAAATCCTC TTTATTGTGA TTGTAATATG CAGTGGCTAT CTGACTGGGT AAAATCAGAA 
    TACAAAGAAC CTGGTATTGC ACGTTGTGCT GGTCCTGGAG AAATGGCAGA TAAACTTCTT 
    CTCACAACTC CTTCTAAGAA ATTTACTTGC CAAGGGCCCG TGGATGTTAA TATTCTTGCA 
    AAGTGTAATC CCTGTTTATC AAATCCGTGT AAAAATGATG GAACCTGTAA TAATGATCCA 
    GTTGACTTCT ATAGATGTAC ATGCCCATAT GGTTTCAAGG GCCAAGACTG TGATATTCCC 
    ATTCATGCTT GCATTAGTAA CCCGTGCAAC CATGGTGGAA CTTGTCATTT GAAAGAAGGA 
    GAAAAAGATG GTTTCTGGTG CACTTGTGCA GATGGATTTG AAGGTGAAAA CTGTGAAGTA 
    AATGTCGATG ACTGTGAAGA CAATGACTGT GAAAACAATT CTACTTGTGT GGATGGAATT 
    AATAACTATA CTTGCCTTTG TCCACCTGAA TATACAGGTG AACTCTGTGA GGAGAAATTA 
    GATTTCTGTG CCCAAAACCT GAATCCTTGC CAGCATGATT CAAAGTGTAT CTTAACACCC 
    AAAGGATACA AGTGTGATTG CACACCTGGA TATGTAGGTG AGCATTGTGA TATTGACTTT 
    GACGACTGCC AGGACAACAA ATGTAAAAAC GGAGCGCAGT GCACTGACGC AGTTAATGGA 
    TATACGTGCG TTTGCCCAGA AGGGTACAGT GGCTTGTTCT GTGAGTTATC GCCGCCAATG 
    GTTCTACCTC GCACCAGCCC TTGTGATAAT TATGAATGTC AAAATGGGGC CCAGTGTATC 
    ATAAAAGAAA GTGAACCAAT CTGTCAGTGT TTATCAGGCT ACCAGGGTGA GAAATGTGAA 
    AAGCTGATTA GTATAAACTT CGTCAACAAA GAATCCTATC TGCAAATCCC TTCAGCTAAG 
    ATACGCCCCC AAACCAATAT CACTCTACAG ATTGCCACAG ATGAAGACAG TGGGATCCTG 
    CTGTACAAAG GCGATAAAGA TCACATAGCA GTGGAACTGT ACCGGGGTAG AGTGAGGGTC 
    AGCTATGACA CGGGATCATA TCCAGCCTCT GCTATTTACA GTGTGGAAAC AATTAATGAT 
    GGCAATTTCC ACATTGTGGA ACTGCTAGCT ATGGATCAGA TTCTATCTTT ATCTATTGAT 
    GGAGGAAGCC CCAAGACAAT TACCAATTTG TCCAAGCAAT CCACTCTGAA TTTTGATTCT 
    CCGCTGTATG TAGGAGGCAT GCCTGTGAAA AATAATATAG CAGCTTTGCG CCAGTCGCCA 
    GGGCAGAACG GCACCAGCTT CCATGGTTGC ATCCGTAATC TGTATATCAA CAGCGAACTC 
    CAGGACTTCA GAAATGTGCC CCTGCAAGTG GGAATTCTGC CAGGGTGTGA GCCTTGCCAT 
    AAGAAGGTTT GTGTGCATGG CACATGCCAT GCTACCAGCC AGTCAGGCTT CTCCTGTGAG 
    TGCGAAGGAG GATGGACCGG ACCACTCTGT GATCAGCAAA CTAACGACCC GTGTCTTGGA 
    AATAAATGTG TGCATGGTAC CTGCTTGCCG ATCAATGCAT TTTCATACAG TTGTAAATGC 
    CTGCAGGGAC ATGGGGGAGT CCTCTGTGAT GAAGAGGAAA TGCTGCTTAA CCCCTGCCAA 
    TCCATCAAGT GTAAACATGG CAAATGTAGG CTTTCAGGAC TTGGGAAACC ATATTGCGAA 
    TGCAGCAGCG GATACACGGG GGACAGTTGT GATAAAGAAA TCTCTTGTCG AGGGGAACGA 
    GTCCGAGATT ACTACCAAAA GCAGCAAGGC TATGCTGCGT GCCAGACGAC CAAGAAGGTA 
    TCGAGACTAG AATGTAAAGG CGGGTGCTCG GCCGGGCAGT GCTGCGGGCC GCTGCGCAGC 
    AAGAGGCGGA AATACTCCTT CGAGTGCACT GACGGGTCGT CGTTTGTGGA CGAGGTGGAA 
    AAAGTGGTGA AGTGTGGCTG TACAAATTGT CCCTCCTAA

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

    RefSeq XP_030126684.1
    CDS23..4621
    Translation

    Target ORF information:

    RefSeq Version XM_030270824.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030270824.1

    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
    ATGATGTGCG GCTGGGGGAA GTTCACCTTG CCCCTGGGGC TGCTGCTGGC GATGGCGGGC 
    GCGGTGGCGC CGCAGCCGTG CCCGGCGCAG TGCTCCTGCT CGGGGAGCAC CGTGGACTGT 
    CACGGGCTGG CGCTGCGCGG CGTCCCGAGG AACATCCCCC GCAACACCGA GAGGCTGGAT 
    CTTAATGGGA ATAACATCAC AAGAATCACG AAGACTGACT TTGCTGGTCT AAGGCACCTT 
    CGAGTTCTTC AGCTCATGGA GAACAAGATT AGTACTATTG AGAGGGGAGC ATTCCAAGAT 
    TTAAAAGAAC TGGAGAGGCT GCGCCTAAAC AGAAATAACC TCCAGTTGCT TTCTGAGCTG 
    CTCTTTCTGG GGACGCCGAA GTTATACAGG CTTGATCTTA GTGAAAATCA GATTCAAGCA 
    ATACCAAGGA AGGCATTCCG AGGAGCAGTA GACATAAAAA ATCTGCAACT GGATTACAAC 
    CAGATCAGCT GTATTGAAGA TGGGGCATTT AGGGCTCTGC GTGACCTGGA AGTGCTCACT 
    CTCAACAATA ACAACATCAC TCGACTATCC GTGGCAAGTT TCAACCATAT GCCCAAACTC 
    AGAACATTCC GCCTTCACTC CAACAACCTG TACTGCGACT GCCACCTGGC CTGGCTGTCG 
    GACTGGCTGC GGCAGCGGCC ACGAGTGGGG CTCTACACGC AGTGCATGGG CCCGTCCCAC 
    CTCCGAGGGC ACAACGTGGC CGAGGTCCAG AAGCGCGAGT TTGTCTGCAG CGATGAGGAA 
    GAAGGTCACC AGTCCTTTAT GGCTCCATCC TGCAGTGTCT TGCACTGCCC TACTGCATGC 
    ACCTGTAGCA ACAACATTGT GGACTGTCGT GGGAAAGGCC TTACAGAGAT CCCAACAAAC 
    CTGCCAGAAA CCATCACTGA AATACGGTTA GAACAAAATT CAATCAAGGT CATACCTCCT 
    GGAGCTTTCT CCCCCTATAA AAAGCTTCGA AGAATTGACC TGAGCAATAA CCAGATCTCT 
    GAAGCAGCTC CAGATGCTTT CCAGGGCTTA CGTTCACTCA ATTCACTAGT CCTCTATGGC 
    AATAAAATCA CAGAACTTCC AAAGGGCCTA TTTGAAGGAC TCTTTTCTCT GCAACTGCTA 
    TTATTGAATG CCAACAAGAT CAATTGTCTG CGAGTTGATG CATTTCAAGA TCTGCACAAC 
    TTGAATCTTC TTTCTTTGTA TGACAACAAG CTTCAGACCA TTGCAAAAGG CACCTTCTCA 
    CCCCTACGTG CGATTCAGAC CTTGCATTTG GCTCAGAACC CATTTATCTG TGACTGCCAT 
    CTGAAGTGGC TGGCGGATTA CCTTCATACA AACCCCATTG AGACCAGTGG TGCCCGTTGC 
    ACCAGCCCCC GCCGTCTGGC AAACAAAAGG ATCGGCCAGA TCAAAAGCAA GAAATTCCGC 
    TGCTCAGCTA AAGAACAGTA TTTCATTCCA GGCACTGAAG ATTACAGATC CAAATTAAGT 
    GGAGACTGCT TTGCAGATCT GGCTTGCCCT GAGAAATGTC GCTGTGAAGG GACCACAGTG 
    GACTGCTCCA ATCAGAAACT CAACAAAATT CCTGATCACA TTCCCCAGTA CACAGCAGAG 
    TTGCGACTAA ATAACAATGA ATTTTCAGTC TTGGAAGCTA CTGGAATCTT TAAGAAACTT 
    CCTCAGCTGC GTAAAATAAA CCTGAGCAAT AACAAGATTA CAGATATAGA AGAAGGAGCA 
    TTTGATGGGG CCTCTGGTGT GAATGAACTA TTGCTCACAA GCAATCGCTT GGAGAGTGTT 
    CAACACAAAA TGTTCAAGGG ACTAGAAAGT CTCAAAACAC TGATGCTGAG GAGCAACAGG 
    GTGAGCTGTG TGGGAAATGA CAGCTTCACA GGGCTGAGCT CTGTCCGCCT GCTCTCGCTG 
    TATGACAACC AGATCACCAC CGTGGCACCC GGCTCCTTCG ACACGCTGCA TTCGCTCTCT 
    ACGCTAAACC TCTTGGCCAA TCCCTTCAAC TGCAACTGCC ATCTTGCATG GCTTGGAGAC 
    TGGCTAAGGA AGAAACGCAT TGTGACAGGG AACCCTCGTT GCCAAAAACC CTACTTCCTC 
    AAGGAGATTC CGATCCAGGA TGTGGCAATT CAGGATTTTA CATGTGATGA TGGAAATGAT 
    GACAATAGCT GTTCTCCCCT GGCCCGCTGC CCTGCAGAAT GTACTTGTCT GGACACAGTA 
    GTTCGCTGCA GCAACAAAGG TCTAAAAGCT TTGCCTAAAG GCATCCCAAA AGATGTGACT 
    GAACTTTATT TGGATGGAAA TCAGTTTACC CTTGTTCCAA AAGAGCTTTC CAACTACAAG 
    CATTTGACAC TCATAGATTT AAGTAACAAC AGAATCAGCA CTCTTTCTAA TCAGAGCTTC 
    AGCAACATGA CTCAGCTGCT CACCTTAATT CTTAGTTACA ACCGCCTAAG ATGTATTCCT 
    GCACGGACTT TTGATGGGTT GAAATCACTT AGGTTGTTGT CTTTACATGG CAATGATATT 
    TCTGTTGTTC CTGAAGGAGC CTTTAATGAT CTTTCAGCAT TATCACACCT GGCTATTGGC 
    GCAAATCCTC TTTATTGTGA TTGTAATATG CAGTGGCTAT CTGACTGGGT AAAATCAGAA 
    TACAAAGAAC CTGGTATTGC ACGTTGTGCT GGTCCTGGAG AAATGGCAGA TAAACTTCTT 
    CTCACAACTC CTTCTAAGAA ATTTACTTGC CAAGGGCCCG TGGATGTTAA TATTCTTGCA 
    AAGTGTAATC CCTGTTTATC AAATCCGTGT AAAAATGATG GAACCTGTAA TAATGATCCA 
    GTTGACTTCT ATAGATGTAC ATGCCCATAT GGTTTCAAGG GCCAAGACTG TGATATTCCC 
    ATTCATGCTT GCATTAGTAA CCCGTGCAAC CATGGTGGAA CTTGTCATTT GAAAGAAGGA 
    GAAAAAGATG GTTTCTGGTG CACTTGTGCA GATGGATTTG AAGGTGAAAA CTGTGAAGTA 
    AATGTCGATG ACTGTGAAGA CAATGACTGT GAAAACAATT CTACTTGTGT GGATGGAATT 
    AATAACTATA CTTGCCTTTG TCCACCTGAA TATACAGGTG AACTCTGTGA GGAGAAATTA 
    GATTTCTGTG CCCAAAACCT GAATCCTTGC CAGCATGATT CAAAGTGTAT CTTAACACCC 
    AAAGGATACA AGTGTGATTG CACACCTGGA TATGTAGGTG AGCATTGTGA TATTGACTTT 
    GACGACTGCC AGGACAACAA ATGTAAAAAC GGAGCGCAGT GCACTGACGC AGTTAATGGA 
    TATACGTGCG TTTGCCCAGA AGGGTACAGT GGCTTGTTCT GTGAGTTATC GCCGCCAATG 
    GTTCTACCTC GCACCAGCCC TTGTGATAAT TATGAATGTC AAAATGGGGC CCAGTGTATC 
    ATAAAAGAAA GTGAACCAAT CTGTCAGTGT TTATCAGGCT ACCAGGGTGA GAAATGTGAA 
    AAGCTGATTA GTATAAACTT CGTCAACAAA GAATCCTATC TGCAAATCCC TTCAGCTAAG 
    ATACGCCCCC AAACCAATAT CACTCTACAG ATTGCCACAG ATGAAGACAG TGGGATCCTG 
    CTGTACAAAG GCGATAAAGA TCACATAGCA GTGGAACTGT ACCGGGGTAG AGTGAGGGTC 
    AGCTATGACA CGGGATCATA TCCAGCCTCT GCTATTTACA GTGTGGAAAC AATTAATGAT 
    GGCAATTTCC ACATTGTGGA ACTGCTAGCT ATGGATCAGA TTCTATCTTT ATCTATTGAT 
    GGAGGAAGCC CCAAGACAAT TACCAATTTG TCCAAGCAAT CCACTCTGAA TTTTGATTCT 
    CCGCTGTATG TAGGAGGCAT GCCTGTGAAA AATAATATAG CAGCTTTGCG CCAGTCGCCA 
    GGGCAGAACG GCACCAGCTT CCATGGTTGC ATCCGTAATC TGTATATCAA CAGCGAACTC 
    CAGGACTTCA GAAATGTGCC CCTGCAAGTG GGAATTCTGC CAGGGTGTGA GCCTTGCCAT 
    AAGAAGGTTT GTGTGCATGG CACATGCCAT GCTACCAGCC AGTCAGGCTT CTCCTGTGAG 
    TGCGAAGGAG GATGGACCGG ACCACTCTGT GATCAGCAAA CTAACGACCC GTGTCTTGGA 
    AATAAATGTG TGCATGGTAC CTGCTTGCCG ATCAATGCAT TTTCATACAG TTGTAAATGC 
    CTGCAGGGAC ATGGGGGAGT CCTCTGTGAT GAAGAGGAAA TGCTGCTTAA CCCCTGCCAA 
    TCCATCAAGT GTAAACATGG CAAATGTAGG CTTTCAGGAC TTGGGAAACC ATATTGCGAA 
    TGCAGCAGCG GATACACGGG GGACAGTTGT GATAAAGAAA TCTCTTGTCG AGGGGAACGA 
    GTCCGAGATT ACTACCAAAA GCAGCAAGGC TATGCTGCGT GCCAGACGAC CAAGAAGGTA 
    TCGAGACTAG AATGTAAAGG CGGGTGCTCG GCCGGGCAGT GCTGCGGGCC GCTGCGCAGC 
    AAGAGGCGGA AATACTCCTT CGAGTGCACT GACGGGTCGT CGTTTGTGGA CGAGGTGGAA 
    AAAGTGGTGA AGTGTGGCTG TACAAATTGT CCCTCCTAA

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

    SLIT2 ( XM_030270826.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030126686.1 Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X8, mRNA.
    Price & Availability↑
    CloneID OTd44180
    Clone ID Related Accession (Same CDS sequence) XM_030270826.1
    Accession Version XM_030270826.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4590bp)
    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 2019-08-08
    Organism Taeniopygia guttata(zebra finch)
    Product slit homolog 2 protein isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044215.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGATGTGCG GCTGGGGGAA GTTCACCTTG CCCCTGGGGC TGCTGCTGGC GATGGCGGGC 
    GCGGTGGCGC CGCAGCCGTG CCCGGCGCAG TGCTCCTGCT CGGGGAGCAC CGTGGACTGT 
    CACGGGCTGG CGCTGCGCGG CGTCCCGAGG AACATCCCCC GCAACACCGA GAGGCTGGAT 
    CTTAATGGGA ATAACATCAC AAGAATCACG AAGACTGACT TTGCTGGTCT AAGGCACCTT 
    CGAGTTCTTC AGCTCATGGA GAACAAGATT AGTACTATTG AGAGGGGAGC ATTCCAAGAT 
    TTAAAAGAAC TGGAGAGGCT GCGCCTAAAC AGAAATAACC TCCAGTTGCT TTCTGAGCTG 
    CTCTTTCTGG GGACGCCGAA GTTATACAGG CTTGATCTTA GTGAAAATCA GATTCAAGCA 
    ATACCAAGGA AGGCATTCCG AGGAGCAGTA GACATAAAAA ATCTGCAACT GGATTACAAC 
    CAGATCAGCT GTATTGAAGA TGGGGCATTT AGGGCTCTGC GTGACCTGGA AGTGCTCACT 
    CTCAACAATA ACAACATCAC TCGACTATCC GTGGCAAGTT TCAACCATAT GCCCAAACTC 
    AGAACATTCC GCCTTCACTC CAACAACCTG TACTGCGACT GCCACCTGGC CTGGCTGTCG 
    GACTGGCTGC GGCAGCGGCC ACGAGTGGGG CTCTACACGC AGTGCATGGG CCCGTCCCAC 
    CTCCGAGGGC ACAACGTGGC CGAGGTCCAG AAGCGCGAGT TTGTCTGCAG CGGTCACCAG 
    TCCTTTATGG CTCCATCCTG CAGTGTCTTG CACTGCCCTA CTGCATGCAC CTGTAGCAAC 
    AACATTGTGG ACTGTCGTGG GAAAGGCCTT ACAGAGATCC CAACAAACCT GCCAGAAACC 
    ATCACTGAAA TACGGTTAGA ACAAAATTCA ATCAAGGTCA TACCTCCTGG AGCTTTCTCC 
    CCCTATAAAA AGCTTCGAAG AATTGACCTG AGCAATAACC AGATCTCTGA AGCAGCTCCA 
    GATGCTTTCC AGGGCTTACG TTCACTCAAT TCACTAGTCC TCTATGGCAA TAAAATCACA 
    GAACTTCCAA AGGGCCTATT TGAAGGACTC TTTTCTCTGC AACTGCTATT ATTGAATGCC 
    AACAAGATCA ATTGTCTGCG AGTTGATGCA TTTCAAGATC TGCACAACTT GAATCTTCTT 
    TCTTTGTATG ACAACAAGCT TCAGACCATT GCAAAAGGCA CCTTCTCACC CCTACGTGCG 
    ATTCAGACCT TGCATTTGGC TCAGAACCCA TTTATCTGTG ACTGCCATCT GAAGTGGCTG 
    GCGGATTACC TTCATACAAA CCCCATTGAG ACCAGTGGTG CCCGTTGCAC CAGCCCCCGC 
    CGTCTGGCAA ACAAAAGGAT CGGCCAGATC AAAAGCAAGA AATTCCGCTG CTCAGGCACT 
    GAAGATTACA GATCCAAATT AAGTGGAGAC TGCTTTGCAG ATCTGGCTTG CCCTGAGAAA 
    TGTCGCTGTG AAGGGACCAC AGTGGACTGC TCCAATCAGA AACTCAACAA AATTCCTGAT 
    CACATTCCCC AGTACACAGC AGAGTTGCGA CTAAATAACA ATGAATTTTC AGTCTTGGAA 
    GCTACTGGAA TCTTTAAGAA ACTTCCTCAG CTGCGTAAAA TAAACCTGAG CAATAACAAG 
    ATTACAGATA TAGAAGAAGG AGCATTTGAT GGGGCCTCTG GTGTGAATGA ACTATTGCTC 
    ACAAGCAATC GCTTGGAGAG TGTTCAACAC AAAATGTTCA AGGGACTAGA AAGTCTCAAA 
    ACACTGATGC TGAGGAGCAA CAGGGTGAGC TGTGTGGGAA ATGACAGCTT CACAGGGCTG 
    AGCTCTGTCC GCCTGCTCTC GCTGTATGAC AACCAGATCA CCACCGTGGC ACCCGGCTCC 
    TTCGACACGC TGCATTCGCT CTCTACGCTA AACCTCTTGG CCAATCCCTT CAACTGCAAC 
    TGCCATCTTG CATGGCTTGG AGACTGGCTA AGGAAGAAAC GCATTGTGAC AGGGAACCCT 
    CGTTGCCAAA AACCCTACTT CCTCAAGGAG ATTCCGATCC AGGATGTGGC AATTCAGGAT 
    TTTACATGTG ATGATGGAAA TGATGACAAT AGCTGTTCTC CCCTGGCCCG CTGCCCTGCA 
    GAATGTACTT GTCTGGACAC AGTAGTTCGC TGCAGCAACA AAGGTCTAAA AGCTTTGCCT 
    AAAGGCATCC CAAAAGATGT GACTGAACTT TATTTGGATG GAAATCAGTT TACCCTTGTT 
    CCAAAAGAGC TTTCCAACTA CAAGCATTTG ACACTCATAG ATTTAAGTAA CAACAGAATC 
    AGCACTCTTT CTAATCAGAG CTTCAGCAAC ATGACTCAGC TGCTCACCTT AATTCTTAGT 
    TACAACCGCC TAAGATGTAT TCCTGCACGG ACTTTTGATG GGTTGAAATC ACTTAGGTTG 
    TTGTCTTTAC ATGGCAATGA TATTTCTGTT GTTCCTGAAG GAGCCTTTAA TGATCTTTCA 
    GCATTATCAC ACCTGGCTAT TGGCGCAAAT CCTCTTTATT GTGATTGTAA TATGCAGTGG 
    CTATCTGACT GGGTAAAATC AGAATACAAA GAACCTGGTA TTGCACGTTG TGCTGGTCCT 
    GGAGAAATGG CAGATAAACT TCTTCTCACA ACTCCTTCTA AGAAATTTAC TTGCCAAGGG 
    CCCGTGGATG TTAATATTCT TGCAAAGTGT AATCCCTGTT TATCAAATCC GTGTAAAAAT 
    GATGGAACCT GTAATAATGA TCCAGTTGAC TTCTATAGAT GTACATGCCC ATATGGTTTC 
    AAGGGCCAAG ACTGTGATAT TCCCATTCAT GCTTGCATTA GTAACCCGTG CAACCATGGT 
    GGAACTTGTC ATTTGAAAGA AGGAGAAAAA GATGGTTTCT GGTGCACTTG TGCAGATGGA 
    TTTGAAGGTG AAAACTGTGA AGTAAATGTC GATGACTGTG AAGACAATGA CTGTGAAAAC 
    AATTCTACTT GTGTGGATGG AATTAATAAC TATACTTGCC TTTGTCCACC TGAATATACA 
    GCTGCTAATC TGAATGAAGT GGAGAAAGGT GAACTCTGTG AGGAGAAATT AGATTTCTGT 
    GCCCAAAACC TGAATCCTTG CCAGCATGAT TCAAAGTGTA TCTTAACACC CAAAGGATAC 
    AAGTGTGATT GCACACCTGG ATATGTAGGT GAGCATTGTG ATATTGACTT TGACGACTGC 
    CAGGACAACA AATGTAAAAA CGGAGCGCAG TGCACTGACG CAGTTAATGG ATATACGTGC 
    GTTTGCCCAG AAGGGTACAG TGGCTTGTTC TGTGAGTTAT CGCCGCCAAT GGTTCTACCT 
    CGCACCAGCC CTTGTGATAA TTATGAATGT CAAAATGGGG CCCAGTGTAT CATAAAAGAA 
    AGTGAACCAA TCTGTCAGTG TTTATCAGGC TACCAGGGTG AGAAATGTGA AAAGCTGATT 
    AGTATAAACT TCGTCAACAA AGAATCCTAT CTGCAAATCC CTTCAGCTAA GATACGCCCC 
    CAAACCAATA TCACTCTACA GATTGCCACA GATGAAGACA GTGGGATCCT GCTGTACAAA 
    GGCGATAAAG ATCACATAGC AGTGGAACTG TACCGGGGTA GAGTGAGGGT CAGCTATGAC 
    ACGGGATCAT ATCCAGCCTC TGCTATTTAC AGTGTGGAAA CAATTAATGA TGGCAATTTC 
    CACATTGTGG AACTGCTAGC TATGGATCAG ATTCTATCTT TATCTATTGA TGGAGGAAGC 
    CCCAAGACAA TTACCAATTT GTCCAAGCAA TCCACTCTGA ATTTTGATTC TCCGCTGTAT 
    GTAGGAGGCA TGCCTGTGAA AAATAATATA GCAGCTTTGC GCCAGTCGCC AGGGCAGAAC 
    GGCACCAGCT TCCATGGTTG CATCCGTAAT CTGTATATCA ACAGCGAACT CCAGGACTTC 
    AGAAATGTGC CCCTGCAAGT GGGAATTCTG CCAGGGTGTG AGCCTTGCCA TAAGAAGGTT 
    TGTGTGCATG GCACATGCCA TGCTACCAGC CAGTCAGGCT TCTCCTGTGA GTGCGAAGGA 
    GGATGGACCG GACCACTCTG TGATCAGCAA ACTAACGACC CGTGTCTTGG AAATAAATGT 
    GTGCATGGTA CCTGCTTGCC GATCAATGCA TTTTCATACA GTTGTAAATG CCTGCAGGGA 
    CATGGGGGAG TCCTCTGTGA TGAAGAGGAA ATGCTGCTTA ACCCCTGCCA ATCCATCAAG 
    TGTAAACATG GCAAATGTAG GCTTTCAGGA CTTGGGAAAC CATATTGCGA ATGCAGCAGC 
    GGATACACGG GGGACAGTTG TGATAAAGAA ATCTCTTGTC GAGGGGAACG AGTCCGAGAT 
    TACTACCAAA AGCAGCAAGG CTATGCTGCG TGCCAGACGA CCAAGAAGGT ATCGAGACTA 
    GAATGTAAAG GCGGGTGCTC GGCCGGGCAG TGCTGCGGGC CGCTGCGCAG CAAGAGGCGG 
    AAATACTCCT TCGAGTGCAC TGACGGGTCG TCGTTTGTGG ACGAGGTGGA AAAAGTGGTG 
    AAGTGTGGCT GTACAAATTG TCCCTCCTAA

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

    RefSeq XP_030126686.1
    CDS23..4612
    Translation

    Target ORF information:

    RefSeq Version XM_030270826.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030270826.1

    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
    ATGATGTGCG GCTGGGGGAA GTTCACCTTG CCCCTGGGGC TGCTGCTGGC GATGGCGGGC 
    GCGGTGGCGC CGCAGCCGTG CCCGGCGCAG TGCTCCTGCT CGGGGAGCAC CGTGGACTGT 
    CACGGGCTGG CGCTGCGCGG CGTCCCGAGG AACATCCCCC GCAACACCGA GAGGCTGGAT 
    CTTAATGGGA ATAACATCAC AAGAATCACG AAGACTGACT TTGCTGGTCT AAGGCACCTT 
    CGAGTTCTTC AGCTCATGGA GAACAAGATT AGTACTATTG AGAGGGGAGC ATTCCAAGAT 
    TTAAAAGAAC TGGAGAGGCT GCGCCTAAAC AGAAATAACC TCCAGTTGCT TTCTGAGCTG 
    CTCTTTCTGG GGACGCCGAA GTTATACAGG CTTGATCTTA GTGAAAATCA GATTCAAGCA 
    ATACCAAGGA AGGCATTCCG AGGAGCAGTA GACATAAAAA ATCTGCAACT GGATTACAAC 
    CAGATCAGCT GTATTGAAGA TGGGGCATTT AGGGCTCTGC GTGACCTGGA AGTGCTCACT 
    CTCAACAATA ACAACATCAC TCGACTATCC GTGGCAAGTT TCAACCATAT GCCCAAACTC 
    AGAACATTCC GCCTTCACTC CAACAACCTG TACTGCGACT GCCACCTGGC CTGGCTGTCG 
    GACTGGCTGC GGCAGCGGCC ACGAGTGGGG CTCTACACGC AGTGCATGGG CCCGTCCCAC 
    CTCCGAGGGC ACAACGTGGC CGAGGTCCAG AAGCGCGAGT TTGTCTGCAG CGGTCACCAG 
    TCCTTTATGG CTCCATCCTG CAGTGTCTTG CACTGCCCTA CTGCATGCAC CTGTAGCAAC 
    AACATTGTGG ACTGTCGTGG GAAAGGCCTT ACAGAGATCC CAACAAACCT GCCAGAAACC 
    ATCACTGAAA TACGGTTAGA ACAAAATTCA ATCAAGGTCA TACCTCCTGG AGCTTTCTCC 
    CCCTATAAAA AGCTTCGAAG AATTGACCTG AGCAATAACC AGATCTCTGA AGCAGCTCCA 
    GATGCTTTCC AGGGCTTACG TTCACTCAAT TCACTAGTCC TCTATGGCAA TAAAATCACA 
    GAACTTCCAA AGGGCCTATT TGAAGGACTC TTTTCTCTGC AACTGCTATT ATTGAATGCC 
    AACAAGATCA ATTGTCTGCG AGTTGATGCA TTTCAAGATC TGCACAACTT GAATCTTCTT 
    TCTTTGTATG ACAACAAGCT TCAGACCATT GCAAAAGGCA CCTTCTCACC CCTACGTGCG 
    ATTCAGACCT TGCATTTGGC TCAGAACCCA TTTATCTGTG ACTGCCATCT GAAGTGGCTG 
    GCGGATTACC TTCATACAAA CCCCATTGAG ACCAGTGGTG CCCGTTGCAC CAGCCCCCGC 
    CGTCTGGCAA ACAAAAGGAT CGGCCAGATC AAAAGCAAGA AATTCCGCTG CTCAGGCACT 
    GAAGATTACA GATCCAAATT AAGTGGAGAC TGCTTTGCAG ATCTGGCTTG CCCTGAGAAA 
    TGTCGCTGTG AAGGGACCAC AGTGGACTGC TCCAATCAGA AACTCAACAA AATTCCTGAT 
    CACATTCCCC AGTACACAGC AGAGTTGCGA CTAAATAACA ATGAATTTTC AGTCTTGGAA 
    GCTACTGGAA TCTTTAAGAA ACTTCCTCAG CTGCGTAAAA TAAACCTGAG CAATAACAAG 
    ATTACAGATA TAGAAGAAGG AGCATTTGAT GGGGCCTCTG GTGTGAATGA ACTATTGCTC 
    ACAAGCAATC GCTTGGAGAG TGTTCAACAC AAAATGTTCA AGGGACTAGA AAGTCTCAAA 
    ACACTGATGC TGAGGAGCAA CAGGGTGAGC TGTGTGGGAA ATGACAGCTT CACAGGGCTG 
    AGCTCTGTCC GCCTGCTCTC GCTGTATGAC AACCAGATCA CCACCGTGGC ACCCGGCTCC 
    TTCGACACGC TGCATTCGCT CTCTACGCTA AACCTCTTGG CCAATCCCTT CAACTGCAAC 
    TGCCATCTTG CATGGCTTGG AGACTGGCTA AGGAAGAAAC GCATTGTGAC AGGGAACCCT 
    CGTTGCCAAA AACCCTACTT CCTCAAGGAG ATTCCGATCC AGGATGTGGC AATTCAGGAT 
    TTTACATGTG ATGATGGAAA TGATGACAAT AGCTGTTCTC CCCTGGCCCG CTGCCCTGCA 
    GAATGTACTT GTCTGGACAC AGTAGTTCGC TGCAGCAACA AAGGTCTAAA AGCTTTGCCT 
    AAAGGCATCC CAAAAGATGT GACTGAACTT TATTTGGATG GAAATCAGTT TACCCTTGTT 
    CCAAAAGAGC TTTCCAACTA CAAGCATTTG ACACTCATAG ATTTAAGTAA CAACAGAATC 
    AGCACTCTTT CTAATCAGAG CTTCAGCAAC ATGACTCAGC TGCTCACCTT AATTCTTAGT 
    TACAACCGCC TAAGATGTAT TCCTGCACGG ACTTTTGATG GGTTGAAATC ACTTAGGTTG 
    TTGTCTTTAC ATGGCAATGA TATTTCTGTT GTTCCTGAAG GAGCCTTTAA TGATCTTTCA 
    GCATTATCAC ACCTGGCTAT TGGCGCAAAT CCTCTTTATT GTGATTGTAA TATGCAGTGG 
    CTATCTGACT GGGTAAAATC AGAATACAAA GAACCTGGTA TTGCACGTTG TGCTGGTCCT 
    GGAGAAATGG CAGATAAACT TCTTCTCACA ACTCCTTCTA AGAAATTTAC TTGCCAAGGG 
    CCCGTGGATG TTAATATTCT TGCAAAGTGT AATCCCTGTT TATCAAATCC GTGTAAAAAT 
    GATGGAACCT GTAATAATGA TCCAGTTGAC TTCTATAGAT GTACATGCCC ATATGGTTTC 
    AAGGGCCAAG ACTGTGATAT TCCCATTCAT GCTTGCATTA GTAACCCGTG CAACCATGGT 
    GGAACTTGTC ATTTGAAAGA AGGAGAAAAA GATGGTTTCT GGTGCACTTG TGCAGATGGA 
    TTTGAAGGTG AAAACTGTGA AGTAAATGTC GATGACTGTG AAGACAATGA CTGTGAAAAC 
    AATTCTACTT GTGTGGATGG AATTAATAAC TATACTTGCC TTTGTCCACC TGAATATACA 
    GCTGCTAATC TGAATGAAGT GGAGAAAGGT GAACTCTGTG AGGAGAAATT AGATTTCTGT 
    GCCCAAAACC TGAATCCTTG CCAGCATGAT TCAAAGTGTA TCTTAACACC CAAAGGATAC 
    AAGTGTGATT GCACACCTGG ATATGTAGGT GAGCATTGTG ATATTGACTT TGACGACTGC 
    CAGGACAACA AATGTAAAAA CGGAGCGCAG TGCACTGACG CAGTTAATGG ATATACGTGC 
    GTTTGCCCAG AAGGGTACAG TGGCTTGTTC TGTGAGTTAT CGCCGCCAAT GGTTCTACCT 
    CGCACCAGCC CTTGTGATAA TTATGAATGT CAAAATGGGG CCCAGTGTAT CATAAAAGAA 
    AGTGAACCAA TCTGTCAGTG TTTATCAGGC TACCAGGGTG AGAAATGTGA AAAGCTGATT 
    AGTATAAACT TCGTCAACAA AGAATCCTAT CTGCAAATCC CTTCAGCTAA GATACGCCCC 
    CAAACCAATA TCACTCTACA GATTGCCACA GATGAAGACA GTGGGATCCT GCTGTACAAA 
    GGCGATAAAG ATCACATAGC AGTGGAACTG TACCGGGGTA GAGTGAGGGT CAGCTATGAC 
    ACGGGATCAT ATCCAGCCTC TGCTATTTAC AGTGTGGAAA CAATTAATGA TGGCAATTTC 
    CACATTGTGG AACTGCTAGC TATGGATCAG ATTCTATCTT TATCTATTGA TGGAGGAAGC 
    CCCAAGACAA TTACCAATTT GTCCAAGCAA TCCACTCTGA ATTTTGATTC TCCGCTGTAT 
    GTAGGAGGCA TGCCTGTGAA AAATAATATA GCAGCTTTGC GCCAGTCGCC AGGGCAGAAC 
    GGCACCAGCT TCCATGGTTG CATCCGTAAT CTGTATATCA ACAGCGAACT CCAGGACTTC 
    AGAAATGTGC CCCTGCAAGT GGGAATTCTG CCAGGGTGTG AGCCTTGCCA TAAGAAGGTT 
    TGTGTGCATG GCACATGCCA TGCTACCAGC CAGTCAGGCT TCTCCTGTGA GTGCGAAGGA 
    GGATGGACCG GACCACTCTG TGATCAGCAA ACTAACGACC CGTGTCTTGG AAATAAATGT 
    GTGCATGGTA CCTGCTTGCC GATCAATGCA TTTTCATACA GTTGTAAATG CCTGCAGGGA 
    CATGGGGGAG TCCTCTGTGA TGAAGAGGAA ATGCTGCTTA ACCCCTGCCA ATCCATCAAG 
    TGTAAACATG GCAAATGTAG GCTTTCAGGA CTTGGGAAAC CATATTGCGA ATGCAGCAGC 
    GGATACACGG GGGACAGTTG TGATAAAGAA ATCTCTTGTC GAGGGGAACG AGTCCGAGAT 
    TACTACCAAA AGCAGCAAGG CTATGCTGCG TGCCAGACGA CCAAGAAGGT ATCGAGACTA 
    GAATGTAAAG GCGGGTGCTC GGCCGGGCAG TGCTGCGGGC CGCTGCGCAG CAAGAGGCGG 
    AAATACTCCT TCGAGTGCAC TGACGGGTCG TCGTTTGTGG ACGAGGTGGA AAAAGTGGTG 
    AAGTGTGGCT GTACAAATTG TCCCTCCTAA

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

    SLIT2 ( XM_030270827.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030126687.1 Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X9, mRNA.
    Price & Availability↑
    CloneID OTd44181
    Clone ID Related Accession (Same CDS sequence) XM_030270827.1
    Accession Version XM_030270827.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4587bp)
    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 2019-08-08
    Organism Taeniopygia guttata(zebra finch)
    Product slit homolog 2 protein isoform X9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044215.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGATGTGCG GCTGGGGGAA GTTCACCTTG CCCCTGGGGC TGCTGCTGGC GATGGCGGGC 
    GCGGTGGCGC CGCAGCCGTG CCCGGCGCAG TGCTCCTGCT CGGGGAGCAC CGTGGACTGT 
    CACGGGCTGG CGCTGCGCGG CGTCCCGAGG AACATCCCCC GCAACACCGA GAGGCTGGAT 
    CTTAATGGGA ATAACATCAC AAGAATCACG AAGACTGACT TTGCTGGTCT AAGGCACCTT 
    CGAGTTCTTC AGCTCATGGA GAACAAGATT AGTACTATTG AGAGGGGAGC ATTCCAAGAT 
    TTAAAAGAAC TGGAGAGGCT GCGCCTAAAC AGAAATAACC TCCAGTTGCT TTCTGAGCTG 
    CTCTTTCTGG GGACGCCGAA GTTATACAGG CTTGATCTTA GTGAAAATCA GATTCAAGCA 
    ATACCAAGGA AGGCATTCCG AGGAGCAGTA GACATAAAAA ATCTGCAACT GGATTACAAC 
    CAGATCAGCT GTATTGAAGA TGGGGCATTT AGGGCTCTGC GTGACCTGGA AGTGCTCACT 
    CTCAACAATA ACAACATCAC TCGACTATCC GTGGCAAGTT TCAACCATAT GCCCAAACTC 
    AGAACATTCC GCCTTCACTC CAACAACCTG TACTGCGACT GCCACCTGGC CTGGCTGTCG 
    GACTGGCTGC GGCAGCGGCC ACGAGTGGGG CTCTACACGC AGTGCATGGG CCCGTCCCAC 
    CTCCGAGGGC ACAACGTGGC CGAGGTCCAG AAGCGCGAGT TTGTCTGCAG CGGTCACCAG 
    TCCTTTATGG CTCCATCCTG CAGTGTCTTG CACTGCCCTA CTGCATGCAC CTGTAGCAAC 
    AACATTGTGG ACTGTCGTGG GAAAGGCCTT ACAGAGATCC CAACAAACCT GCCAGAAACC 
    ATCACTGAAA TACGGTTAGA ACAAAATTCA ATCAAGGTCA TACCTCCTGG AGCTTTCTCC 
    CCCTATAAAA AGCTTCGAAG AATTGACCTG AGCAATAACC AGATCTCTGA AGCAGCTCCA 
    GATGCTTTCC AGGGCTTACG TTCACTCAAT TCACTAGTCC TCTATGGCAA TAAAATCACA 
    GAACTTCCAA AGGGCCTATT TGAAGGACTC TTTTCTCTGC AACTGCTATT ATTGAATGCC 
    AACAAGATCA ATTGTCTGCG AGTTGATGCA TTTCAAGATC TGCACAACTT GAATCTTCTT 
    TCTTTGTATG ACAACAAGCT TCAGACCATT GCAAAAGGCA CCTTCTCACC CCTACGTGCG 
    ATTCAGACCT TGCATTTGGC TCAGAACCCA TTTATCTGTG ACTGCCATCT GAAGTGGCTG 
    GCGGATTACC TTCATACAAA CCCCATTGAG ACCAGTGGTG CCCGTTGCAC CAGCCCCCGC 
    CGTCTGGCAA ACAAAAGGAT CGGCCAGATC AAAAGCAAGA AATTCCGCTG CTCAGCTAAA 
    GAACAGTATT TCATTCCAGG CACTGAAGAT TACAGATCCA AATTAAGTGG AGACTGCTTT 
    GCAGATCTGG CTTGCCCTGA GAAATGTCGC TGTGAAGGGA CCACAGTGGA CTGCTCCAAT 
    CAGAAACTCA ACAAAATTCC TGATCACATT CCCCAGTACA CAGCAGAGTT GCGACTAAAT 
    AACAATGAAT TTTCAGTCTT GGAAGCTACT GGAATCTTTA AGAAACTTCC TCAGCTGCGT 
    AAAATAAACC TGAGCAATAA CAAGATTACA GATATAGAAG AAGGAGCATT TGATGGGGCC 
    TCTGGTGTGA ATGAACTATT GCTCACAAGC AATCGCTTGG AGAGTGTTCA ACACAAAATG 
    TTCAAGGGAC TAGAAAGTCT CAAAACACTG ATGCTGAGGA GCAACAGGGT GAGCTGTGTG 
    GGAAATGACA GCTTCACAGG GCTGAGCTCT GTCCGCCTGC TCTCGCTGTA TGACAACCAG 
    ATCACCACCG TGGCACCCGG CTCCTTCGAC ACGCTGCATT CGCTCTCTAC GCTAAACCTC 
    TTGGCCAATC CCTTCAACTG CAACTGCCAT CTTGCATGGC TTGGAGACTG GCTAAGGAAG 
    AAACGCATTG TGACAGGGAA CCCTCGTTGC CAAAAACCCT ACTTCCTCAA GGAGATTCCG 
    ATCCAGGATG TGGCAATTCA GGATTTTACA TGTGATGATG GAAATGATGA CAATAGCTGT 
    TCTCCCCTGG CCCGCTGCCC TGCAGAATGT ACTTGTCTGG ACACAGTAGT TCGCTGCAGC 
    AACAAAGGTC TAAAAGCTTT GCCTAAAGGC ATCCCAAAAG ATGTGACTGA ACTTTATTTG 
    GATGGAAATC AGTTTACCCT TGTTCCAAAA GAGCTTTCCA ACTACAAGCA TTTGACACTC 
    ATAGATTTAA GTAACAACAG AATCAGCACT CTTTCTAATC AGAGCTTCAG CAACATGACT 
    CAGCTGCTCA CCTTAATTCT TAGTTACAAC CGCCTAAGAT GTATTCCTGC ACGGACTTTT 
    GATGGGTTGA AATCACTTAG GTTGTTGTCT TTACATGGCA ATGATATTTC TGTTGTTCCT 
    GAAGGAGCCT TTAATGATCT TTCAGCATTA TCACACCTGG CTATTGGCGC AAATCCTCTT 
    TATTGTGATT GTAATATGCA GTGGCTATCT GACTGGGTAA AATCAGAATA CAAAGAACCT 
    GGTATTGCAC GTTGTGCTGG TCCTGGAGAA ATGGCAGATA AACTTCTTCT CACAACTCCT 
    TCTAAGAAAT TTACTTGCCA AGGGCCCGTG GATGTTAATA TTCTTGCAAA GTGTAATCCC 
    TGTTTATCAA ATCCGTGTAA AAATGATGGA ACCTGTAATA ATGATCCAGT TGACTTCTAT 
    AGATGTACAT GCCCATATGG TTTCAAGGGC CAAGACTGTG ATATTCCCAT TCATGCTTGC 
    ATTAGTAACC CGTGCAACCA TGGTGGAACT TGTCATTTGA AAGAAGGAGA AAAAGATGGT 
    TTCTGGTGCA CTTGTGCAGA TGGATTTGAA GGTGAAAACT GTGAAGTAAA TGTCGATGAC 
    TGTGAAGACA ATGACTGTGA AAACAATTCT ACTTGTGTGG ATGGAATTAA TAACTATACT 
    TGCCTTTGTC CACCTGAATA TACAGGTGAA CTCTGTGAGG AGAAATTAGA TTTCTGTGCC 
    CAAAACCTGA ATCCTTGCCA GCATGATTCA AAGTGTATCT TAACACCCAA AGGATACAAG 
    TGTGATTGCA CACCTGGATA TGTAGGTGAG CATTGTGATA TTGACTTTGA CGACTGCCAG 
    GACAACAAAT GTAAAAACGG AGCGCAGTGC ACTGACGCAG TTAATGGATA TACGTGCGTT 
    TGCCCAGAAG GGTACAGTGG CTTGTTCTGT GAGTTATCGC CGCCAATGGT TCTACCTCGC 
    ACCAGCCCTT GTGATAATTA TGAATGTCAA AATGGGGCCC AGTGTATCAT AAAAGAAAGT 
    GAACCAATCT GTCAGTGTTT ATCAGGCTAC CAGGGTGAGA AATGTGAAAA GCTGATTAGT 
    ATAAACTTCG TCAACAAAGA ATCCTATCTG CAAATCCCTT CAGCTAAGAT ACGCCCCCAA 
    ACCAATATCA CTCTACAGAT TGCCACAGAT GAAGACAGTG GGATCCTGCT GTACAAAGGC 
    GATAAAGATC ACATAGCAGT GGAACTGTAC CGGGGTAGAG TGAGGGTCAG CTATGACACG 
    GGATCATATC CAGCCTCTGC TATTTACAGT GTGGAAACAA TTAATGATGG CAATTTCCAC 
    ATTGTGGAAC TGCTAGCTAT GGATCAGATT CTATCTTTAT CTATTGATGG AGGAAGCCCC 
    AAGACAATTA CCAATTTGTC CAAGCAATCC ACTCTGAATT TTGATTCTCC GCTGTATGTA 
    GGAGGCATGC CTGTGAAAAA TAATATAGCA GCTTTGCGCC AGTCGCCAGG GCAGAACGGC 
    ACCAGCTTCC ATGGTTGCAT CCGTAATCTG TATATCAACA GCGAACTCCA GGACTTCAGA 
    AATGTGCCCC TGCAAGTGGG AATTCTGCCA GGGTGTGAGC CTTGCCATAA GAAGGTTTGT 
    GTGCATGGCA CATGCCATGC TACCAGCCAG TCAGGCTTCT CCTGTGAGTG CGAAGGAGGA 
    TGGACCGGAC CACTCTGTGA TCAGCAAACT AACGACCCGT GTCTTGGAAA TAAATGTGTG 
    CATGGTACCT GCTTGCCGAT CAATGCATTT TCATACAGTT GTAAATGCCT GCAGGGACAT 
    GGGGGAGTCC TCTGTGATGA AGAGGAAATG CTGCTTAACC CCTGCCAATC CATCAAGTGT 
    AAACATGGCA AATGTAGGCT TTCAGGACTT GGGAAACCAT ATTGCGAATG CAGCAGCGGA 
    TACACGGGGG ACAGTTGTGA TAAAGAAATC TCTTGTCGAG GGGAACGAGT CCGAGATTAC 
    TACCAAAAGC AGCAAGGCTA TGCTGCGTGC CAGACGACCA AGAAGGTATC GAGACTAGAA 
    TGTAAAGGCG GGTGCTCGGC CGGGCAGTGC TGCGGGCCGC TGCGCAGCAA GAGGCGGAAA 
    TACTCCTTCG AGTGCACTGA CGGGTCGTCG TTTGTGGACG AGGTGGAAAA AGTGGTGAAG 
    TGTGGCTGTA CAAATTGTCC CTCCTAA

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

    RefSeq XP_030126687.1
    CDS281..4867
    Translation

    Target ORF information:

    RefSeq Version XM_030270827.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030270827.1

    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
    ATGATGTGCG GCTGGGGGAA GTTCACCTTG CCCCTGGGGC TGCTGCTGGC GATGGCGGGC 
    GCGGTGGCGC CGCAGCCGTG CCCGGCGCAG TGCTCCTGCT CGGGGAGCAC CGTGGACTGT 
    CACGGGCTGG CGCTGCGCGG CGTCCCGAGG AACATCCCCC GCAACACCGA GAGGCTGGAT 
    CTTAATGGGA ATAACATCAC AAGAATCACG AAGACTGACT TTGCTGGTCT AAGGCACCTT 
    CGAGTTCTTC AGCTCATGGA GAACAAGATT AGTACTATTG AGAGGGGAGC ATTCCAAGAT 
    TTAAAAGAAC TGGAGAGGCT GCGCCTAAAC AGAAATAACC TCCAGTTGCT TTCTGAGCTG 
    CTCTTTCTGG GGACGCCGAA GTTATACAGG CTTGATCTTA GTGAAAATCA GATTCAAGCA 
    ATACCAAGGA AGGCATTCCG AGGAGCAGTA GACATAAAAA ATCTGCAACT GGATTACAAC 
    CAGATCAGCT GTATTGAAGA TGGGGCATTT AGGGCTCTGC GTGACCTGGA AGTGCTCACT 
    CTCAACAATA ACAACATCAC TCGACTATCC GTGGCAAGTT TCAACCATAT GCCCAAACTC 
    AGAACATTCC GCCTTCACTC CAACAACCTG TACTGCGACT GCCACCTGGC CTGGCTGTCG 
    GACTGGCTGC GGCAGCGGCC ACGAGTGGGG CTCTACACGC AGTGCATGGG CCCGTCCCAC 
    CTCCGAGGGC ACAACGTGGC CGAGGTCCAG AAGCGCGAGT TTGTCTGCAG CGGTCACCAG 
    TCCTTTATGG CTCCATCCTG CAGTGTCTTG CACTGCCCTA CTGCATGCAC CTGTAGCAAC 
    AACATTGTGG ACTGTCGTGG GAAAGGCCTT ACAGAGATCC CAACAAACCT GCCAGAAACC 
    ATCACTGAAA TACGGTTAGA ACAAAATTCA ATCAAGGTCA TACCTCCTGG AGCTTTCTCC 
    CCCTATAAAA AGCTTCGAAG AATTGACCTG AGCAATAACC AGATCTCTGA AGCAGCTCCA 
    GATGCTTTCC AGGGCTTACG TTCACTCAAT TCACTAGTCC TCTATGGCAA TAAAATCACA 
    GAACTTCCAA AGGGCCTATT TGAAGGACTC TTTTCTCTGC AACTGCTATT ATTGAATGCC 
    AACAAGATCA ATTGTCTGCG AGTTGATGCA TTTCAAGATC TGCACAACTT GAATCTTCTT 
    TCTTTGTATG ACAACAAGCT TCAGACCATT GCAAAAGGCA CCTTCTCACC CCTACGTGCG 
    ATTCAGACCT TGCATTTGGC TCAGAACCCA TTTATCTGTG ACTGCCATCT GAAGTGGCTG 
    GCGGATTACC TTCATACAAA CCCCATTGAG ACCAGTGGTG CCCGTTGCAC CAGCCCCCGC 
    CGTCTGGCAA ACAAAAGGAT CGGCCAGATC AAAAGCAAGA AATTCCGCTG CTCAGCTAAA 
    GAACAGTATT TCATTCCAGG CACTGAAGAT TACAGATCCA AATTAAGTGG AGACTGCTTT 
    GCAGATCTGG CTTGCCCTGA GAAATGTCGC TGTGAAGGGA CCACAGTGGA CTGCTCCAAT 
    CAGAAACTCA ACAAAATTCC TGATCACATT CCCCAGTACA CAGCAGAGTT GCGACTAAAT 
    AACAATGAAT TTTCAGTCTT GGAAGCTACT GGAATCTTTA AGAAACTTCC TCAGCTGCGT 
    AAAATAAACC TGAGCAATAA CAAGATTACA GATATAGAAG AAGGAGCATT TGATGGGGCC 
    TCTGGTGTGA ATGAACTATT GCTCACAAGC AATCGCTTGG AGAGTGTTCA ACACAAAATG 
    TTCAAGGGAC TAGAAAGTCT CAAAACACTG ATGCTGAGGA GCAACAGGGT GAGCTGTGTG 
    GGAAATGACA GCTTCACAGG GCTGAGCTCT GTCCGCCTGC TCTCGCTGTA TGACAACCAG 
    ATCACCACCG TGGCACCCGG CTCCTTCGAC ACGCTGCATT CGCTCTCTAC GCTAAACCTC 
    TTGGCCAATC CCTTCAACTG CAACTGCCAT CTTGCATGGC TTGGAGACTG GCTAAGGAAG 
    AAACGCATTG TGACAGGGAA CCCTCGTTGC CAAAAACCCT ACTTCCTCAA GGAGATTCCG 
    ATCCAGGATG TGGCAATTCA GGATTTTACA TGTGATGATG GAAATGATGA CAATAGCTGT 
    TCTCCCCTGG CCCGCTGCCC TGCAGAATGT ACTTGTCTGG ACACAGTAGT TCGCTGCAGC 
    AACAAAGGTC TAAAAGCTTT GCCTAAAGGC ATCCCAAAAG ATGTGACTGA ACTTTATTTG 
    GATGGAAATC AGTTTACCCT TGTTCCAAAA GAGCTTTCCA ACTACAAGCA TTTGACACTC 
    ATAGATTTAA GTAACAACAG AATCAGCACT CTTTCTAATC AGAGCTTCAG CAACATGACT 
    CAGCTGCTCA CCTTAATTCT TAGTTACAAC CGCCTAAGAT GTATTCCTGC ACGGACTTTT 
    GATGGGTTGA AATCACTTAG GTTGTTGTCT TTACATGGCA ATGATATTTC TGTTGTTCCT 
    GAAGGAGCCT TTAATGATCT TTCAGCATTA TCACACCTGG CTATTGGCGC AAATCCTCTT 
    TATTGTGATT GTAATATGCA GTGGCTATCT GACTGGGTAA AATCAGAATA CAAAGAACCT 
    GGTATTGCAC GTTGTGCTGG TCCTGGAGAA ATGGCAGATA AACTTCTTCT CACAACTCCT 
    TCTAAGAAAT TTACTTGCCA AGGGCCCGTG GATGTTAATA TTCTTGCAAA GTGTAATCCC 
    TGTTTATCAA ATCCGTGTAA AAATGATGGA ACCTGTAATA ATGATCCAGT TGACTTCTAT 
    AGATGTACAT GCCCATATGG TTTCAAGGGC CAAGACTGTG ATATTCCCAT TCATGCTTGC 
    ATTAGTAACC CGTGCAACCA TGGTGGAACT TGTCATTTGA AAGAAGGAGA AAAAGATGGT 
    TTCTGGTGCA CTTGTGCAGA TGGATTTGAA GGTGAAAACT GTGAAGTAAA TGTCGATGAC 
    TGTGAAGACA ATGACTGTGA AAACAATTCT ACTTGTGTGG ATGGAATTAA TAACTATACT 
    TGCCTTTGTC CACCTGAATA TACAGGTGAA CTCTGTGAGG AGAAATTAGA TTTCTGTGCC 
    CAAAACCTGA ATCCTTGCCA GCATGATTCA AAGTGTATCT TAACACCCAA AGGATACAAG 
    TGTGATTGCA CACCTGGATA TGTAGGTGAG CATTGTGATA TTGACTTTGA CGACTGCCAG 
    GACAACAAAT GTAAAAACGG AGCGCAGTGC ACTGACGCAG TTAATGGATA TACGTGCGTT 
    TGCCCAGAAG GGTACAGTGG CTTGTTCTGT GAGTTATCGC CGCCAATGGT TCTACCTCGC 
    ACCAGCCCTT GTGATAATTA TGAATGTCAA AATGGGGCCC AGTGTATCAT AAAAGAAAGT 
    GAACCAATCT GTCAGTGTTT ATCAGGCTAC CAGGGTGAGA AATGTGAAAA GCTGATTAGT 
    ATAAACTTCG TCAACAAAGA ATCCTATCTG CAAATCCCTT CAGCTAAGAT ACGCCCCCAA 
    ACCAATATCA CTCTACAGAT TGCCACAGAT GAAGACAGTG GGATCCTGCT GTACAAAGGC 
    GATAAAGATC ACATAGCAGT GGAACTGTAC CGGGGTAGAG TGAGGGTCAG CTATGACACG 
    GGATCATATC CAGCCTCTGC TATTTACAGT GTGGAAACAA TTAATGATGG CAATTTCCAC 
    ATTGTGGAAC TGCTAGCTAT GGATCAGATT CTATCTTTAT CTATTGATGG AGGAAGCCCC 
    AAGACAATTA CCAATTTGTC CAAGCAATCC ACTCTGAATT TTGATTCTCC GCTGTATGTA 
    GGAGGCATGC CTGTGAAAAA TAATATAGCA GCTTTGCGCC AGTCGCCAGG GCAGAACGGC 
    ACCAGCTTCC ATGGTTGCAT CCGTAATCTG TATATCAACA GCGAACTCCA GGACTTCAGA 
    AATGTGCCCC TGCAAGTGGG AATTCTGCCA GGGTGTGAGC CTTGCCATAA GAAGGTTTGT 
    GTGCATGGCA CATGCCATGC TACCAGCCAG TCAGGCTTCT CCTGTGAGTG CGAAGGAGGA 
    TGGACCGGAC CACTCTGTGA TCAGCAAACT AACGACCCGT GTCTTGGAAA TAAATGTGTG 
    CATGGTACCT GCTTGCCGAT CAATGCATTT TCATACAGTT GTAAATGCCT GCAGGGACAT 
    GGGGGAGTCC TCTGTGATGA AGAGGAAATG CTGCTTAACC CCTGCCAATC CATCAAGTGT 
    AAACATGGCA AATGTAGGCT TTCAGGACTT GGGAAACCAT ATTGCGAATG CAGCAGCGGA 
    TACACGGGGG ACAGTTGTGA TAAAGAAATC TCTTGTCGAG GGGAACGAGT CCGAGATTAC 
    TACCAAAAGC AGCAAGGCTA TGCTGCGTGC CAGACGACCA AGAAGGTATC GAGACTAGAA 
    TGTAAAGGCG GGTGCTCGGC CGGGCAGTGC TGCGGGCCGC TGCGCAGCAA GAGGCGGAAA 
    TACTCCTTCG AGTGCACTGA CGGGTCGTCG TTTGTGGACG AGGTGGAAAA AGTGGTGAAG 
    TGTGGCTGTA CAAATTGTCC CTCCTAA

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

    SLIT2 ( XM_030270828.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030126688.1 Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X10, mRNA.
    Price & Availability↑
    CloneID OTd44182
    Clone ID Related Accession (Same CDS sequence) XM_030270828.1
    Accession Version XM_030270828.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4584bp)
    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 2019-08-08
    Organism Taeniopygia guttata(zebra finch)
    Product slit homolog 2 protein isoform X10
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044215.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGATGTGCG GCTGGGGGAA GTTCACCTTG CCCCTGGGGC TGCTGCTGGC GATGGCGGGC 
    GCGGTGGCGC CGCAGCCGTG CCCGGCGCAG TGCTCCTGCT CGGGGAGCAC CGTGGACTGT 
    CACGGGCTGG CGCTGCGCGG CGTCCCGAGG AACATCCCCC GCAACACCGA GAGGCTGGAT 
    CTTAATGGGA ATAACATCAC AAGAATCACG AAGACTGACT TTGCTGGTCT AAGGCACCTT 
    CGAGTTCTTC AGCTCATGGA GAACAAGATT AGTACTATTG AGAGGGGAGC ATTCCAAGAT 
    TTAAAAGAAC TGGAGAGGCT GCGCCTAAAC AGAAATAACC TCCAGTTGCT TTCTGAGCTG 
    CTCTTTCTGG GGACGCCGAA GTTATACAGG CTTGATCTTA GTGAAAATCA GATTCAAGCA 
    ATACCAAGGA AGGCATTCCG AGGAGCAGTA GACATAAAAA ATCTGCAACT GGATTACAAC 
    CAGATCAGCT GTATTGAAGA TGGGGCATTT AGGGCTCTGC GTGACCTGGA AGTGCTCACT 
    CTCAACAATA ACAACATCAC TCGACTATCC GTGGCAAGTT TCAACCATAT GCCCAAACTC 
    AGAACATTCC GCCTTCACTC CAACAACCTG TACTGCGACT GCCACCTGGC CTGGCTGTCG 
    GACTGGCTGC GGCAGCGGCC ACGAGTGGGG CTCTACACGC AGTGCATGGG CCCGTCCCAC 
    CTCCGAGGGC ACAACGTGGC CGAGGTCCAG AAGCGCGAGT TTGTCTGCAG CGATGAGGAA 
    GAAGGTCACC AGTCCTTTAT GGCTCCATCC TGCAGTGTCT TGCACTGCCC TACTGCATGC 
    ACCTGTAGCA ACAACATTGT GGACTGTCGT GGGAAAGGCC TTACAGAGAT CCCAACAAAC 
    CTGCCAGAAA CCATCACTGA AATACGGTTA GAACAAAATT CAATCAAGGT CATACCTCCT 
    GGAGCTTTCT CCCCCTATAA AAAGCTTCGA AGAATTGACC TGAGCAATAA CCAGATCTCT 
    GAAGCAGCTC CAGATGCTTT CCAGGGCTTA CGTTCACTCA ATTCACTAGT CCTCTATGGC 
    AATAAAATCA CAGAACTTCC AAAGGGCCTA TTTGAAGGAC TCTTTTCTCT GCAACTGCTA 
    TTATTGAATG CCAACAAGAT CAATTGTCTG CGAGTTGATG CATTTCAAGA TCTGCACAAC 
    TTGAATCTTC TTTCTTTGTA TGACAACAAG CTTCAGACCA TTGCAAAAGG CACCTTCTCA 
    CCCCTACGTG CGATTCAGAC CTTGCATTTG GCTCAGAACC CATTTATCTG TGACTGCCAT 
    CTGAAGTGGC TGGCGGATTA CCTTCATACA AACCCCATTG AGACCAGTGG TGCCCGTTGC 
    ACCAGCCCCC GCCGTCTGGC AAACAAAAGG ATCGGCCAGA TCAAAAGCAA GAAATTCCGC 
    TGCTCAGCTA AAGAACAGTA TTTCATTCCA GGAGTTCACC ATTTTGGCTG CACTGAAGAT 
    TACAGATCCA AATTAAGTGG AGACTGCTTT GCAGATCTGG CTTGCCCTGA GAAATGTCGC 
    TGTGAAGGGA CCACAGTGGA CTGCTCCAAT CAGAAACTCA ACAAAATTCC TGATCACATT 
    CCCCAGTACA CAGCAGAGTT GCGACTAAAT AACAATGAAT TTTCAGTCTT GGAAGCTACT 
    GGAATCTTTA AGAAACTTCC TCAGCTGCGT AAAATAAACC TGAGCAATAA CAAGATTACA 
    GATATAGAAG AAGGAGCATT TGATGGGGCC TCTGGTGTGA ATGAACTATT GCTCACAAGC 
    AATCGCTTGG AGAGTGTTCA ACACAAAATG TTCAAGGGAC TAGAAAGTCT CAAAACACTG 
    ATGCTGAGGA GCAACAGGGT GAGCTGTGTG GGAAATGACA GCTTCACAGG GCTGAGCTCT 
    GTCCGCCTGC TCTCGCTGTA TGACAACCAG ATCACCACCG TGGCACCCGG CTCCTTCGAC 
    ACGCTGCATT CGCTCTCTAC GCTAAACCTC TTGGCCAATC CCTTCAACTG CAACTGCCAT 
    CTTGCATGGC TTGGAGACTG GCTAAGGAAG AAACGCATTG TGACAGGGAA CCCTCGTTGC 
    CAAAAACCCT ACTTCCTCAA GGAGATTCCG ATCCAGGATG TGGCAATTCA GGATTTTACA 
    TGTGATGATG GAAATGATGA CAATAGCTGT TCTCCCCTGG CCCGCTGCCC TGCAGAATGT 
    ACTTGTCTGG ACACAGTAGT TCGCTGCAGC AACAAAGGTC TAAAAGCTTT GCCTAAAGGC 
    ATCCCAAAAG ATGTGACTGA ACTTTATTTG GATGGAAATC AGTTTACCCT TGTTCCAAAA 
    GAGCTTTCCA ACTACAAGCA TTTGACACTC ATAGATTTAA GTAACAACAG AATCAGCACT 
    CTTTCTAATC AGAGCTTCAG CAACATGACT CAGCTGCTCA CCTTAATTCT TAGTTACAAC 
    CGCCTAAGAT GTATTCCTGC ACGGACTTTT GATGGGTTGA AATCACTTAG GTTGTTGTCT 
    TTACATGGCA ATGATATTTC TGTTGTTCCT GAAGGAGCCT TTAATGATCT TTCAGCATTA 
    TCACACCTGG CTATTGGCGC AAATCCTCTT TATTGTGATT GTAATATGCA GTGGCTATCT 
    GACTGGGTAA AATCAGAATA CAAAGAACCT GGTATTGCAC GTTGTGCTGG TCCTGGAGAA 
    ATGGCAGATA AACTTCTTCT CACAACTCCT TCTAAGAAAT TTACTTGCCA AGGGCCCGTG 
    GATGTTAATA TTCTTGCAAA GTGTAATCCC TGTTTATCAA ATCCGTGTAA AAATGATGGA 
    ACCTGTAATA ATGATCCAGT TGACTTCTAT AGATGTACAT GCCCATATGG TTTCAAGGGC 
    CAAGACTGTG ATATTCCCAT TCATGCTTGC ATTAGTAACC CGTGCAACCA TGGTGGAACT 
    TGTCATTTGA AAGAAGGAGA AAAAGATGGT TTCTGGTGCA CTTGTGCAGA TGGATTTGAA 
    GGTGAAAACT GTGAAGTAAA TGTCGATGAC TGTGAAGACA ATGACTGTGA AAACAATTCT 
    ACTTGTGTGG ATGGAATTAA TAACTATACT TGCCTTTGTC CACCTGAATA TACAGCTGCT 
    AATCTGAATG AAGTGGAGAA AGGTGAACTC TGTGAGGAGA AATTAGATTT CTGTGCCCAA 
    AACCTGAATC CTTGCCAGCA TGATTCAAAG TGTATCTTAA CACCCAAAGG ATACAAGTGT 
    GATTGCACAC CTGGATATGT AGGTGAGCAT TGTGATATTG ACTTTGACGA CTGCCAGGAC 
    AACAAATGTA AAAACGGAGC GCAGTGCACT GACGCAGTTA ATGGATATAC GTGCGTTTGC 
    CCAGAAGGGT ACAGTGGCTT GTTCTGTGAG TTATCGCCGC CAATGGTTCT ACCTCGCACC 
    AGCCCTTGTG ATAATTATGA ATGTCAAAAT GGGGCCCAGT GTATCATAAA AGAAAGTGAA 
    CCAATCTGTC AGTGTTTATC AGGCTACCAG GGTGAGAAAT GTGAAAAGCT GATTAGTATA 
    AACTTCGTCA ACAAAGAATC CTATCTGCAA ATCCCTTCAG CTAAGATACG CCCCCAAACC 
    AATATCACTC TACAGATTGC CACAGATGAA GACAGTGGGA TCCTGCTGTA CAAAGGCGAT 
    AAAGATCACA TAGCAGTGGA ACTGTACCGG GGTAGAGTGA GGGTCAGCTA TGACACGGGA 
    TCATATCCAG CCTCTGCTAT TTACAGTGTG GAAACAATTA ATGATGGCAA TTTCCACATT 
    GTGGAACTGC TAGCTATGGA TCAGATTCTA TCTTTATCTA TTGATGGAGG AAGCCCCAAG 
    ACAATTACCA ATTTGTCCAA GCAATCCACT CTGAATTTTG ATTCTCCGCT GTATGTAGGA 
    GGCATGCCTG TGAAAAATAA TATAGCAGCT TTGCGCCAGT CGCCAGGGCA GAACGGCACC 
    AGCTTCCATG GTTGCATCCG TAATCTGTAT ATCAACAGCG AACTCCAGGA CTTCAGAAAT 
    GTGCCCCTGC AAGTGGGAAT TCTGCCAGGG TGTGAGCCTT GCCATAAGAA GGTTTGTGTG 
    CATGGCACAT GCCATGCTAC CAGCCAGTCA GGCTTCTCCT GTGAGTGCGA AGGAGGATGG 
    ACCGGACCAC TCTGTGATCA GCAAACTAAC GACCCGTGTC TTGGAAATAA ATGTGTGCAT 
    GGTACCTGCT TGCCGATCAA TGCATTTTCA TACAGTTGTA AATGCCTGCA GGGACATGGG 
    GGAGTCCTCT GTGATGAAGA GGAAATGCTG CTTAACCCCT GCCAATCCAT CAAGTGTAAA 
    CATGGCAAAT GTAGGCTTTC AGGACTTGGG AAACCATATT GCGAATGCAG CAGCGGATAC 
    ACGGGGGACA GTTGTGATAA AGCCAAATCC AATGATTCTG CTCCTAGTTT TATCACAAAC 
    TCTACTTTTG ACCTCTCAGC TTCAACTGAT TTATCACAGC GAATTATGCA GAAATCTCTT 
    GTCGAGGGGA ACGAGTCCGA GATTACTACC AAAAGCAGCA AGGCTATGCT GCGTGCCAGA 
    CGACCAAGAA GGTATCGAGA CTAG

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

    RefSeq XP_030126688.1
    CDS23..4606
    Translation

    Target ORF information:

    RefSeq Version XM_030270828.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030270828.1

    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
    ATGATGTGCG GCTGGGGGAA GTTCACCTTG CCCCTGGGGC TGCTGCTGGC GATGGCGGGC 
    GCGGTGGCGC CGCAGCCGTG CCCGGCGCAG TGCTCCTGCT CGGGGAGCAC CGTGGACTGT 
    CACGGGCTGG CGCTGCGCGG CGTCCCGAGG AACATCCCCC GCAACACCGA GAGGCTGGAT 
    CTTAATGGGA ATAACATCAC AAGAATCACG AAGACTGACT TTGCTGGTCT AAGGCACCTT 
    CGAGTTCTTC AGCTCATGGA GAACAAGATT AGTACTATTG AGAGGGGAGC ATTCCAAGAT 
    TTAAAAGAAC TGGAGAGGCT GCGCCTAAAC AGAAATAACC TCCAGTTGCT TTCTGAGCTG 
    CTCTTTCTGG GGACGCCGAA GTTATACAGG CTTGATCTTA GTGAAAATCA GATTCAAGCA 
    ATACCAAGGA AGGCATTCCG AGGAGCAGTA GACATAAAAA ATCTGCAACT GGATTACAAC 
    CAGATCAGCT GTATTGAAGA TGGGGCATTT AGGGCTCTGC GTGACCTGGA AGTGCTCACT 
    CTCAACAATA ACAACATCAC TCGACTATCC GTGGCAAGTT TCAACCATAT GCCCAAACTC 
    AGAACATTCC GCCTTCACTC CAACAACCTG TACTGCGACT GCCACCTGGC CTGGCTGTCG 
    GACTGGCTGC GGCAGCGGCC ACGAGTGGGG CTCTACACGC AGTGCATGGG CCCGTCCCAC 
    CTCCGAGGGC ACAACGTGGC CGAGGTCCAG AAGCGCGAGT TTGTCTGCAG CGATGAGGAA 
    GAAGGTCACC AGTCCTTTAT GGCTCCATCC TGCAGTGTCT TGCACTGCCC TACTGCATGC 
    ACCTGTAGCA ACAACATTGT GGACTGTCGT GGGAAAGGCC TTACAGAGAT CCCAACAAAC 
    CTGCCAGAAA CCATCACTGA AATACGGTTA GAACAAAATT CAATCAAGGT CATACCTCCT 
    GGAGCTTTCT CCCCCTATAA AAAGCTTCGA AGAATTGACC TGAGCAATAA CCAGATCTCT 
    GAAGCAGCTC CAGATGCTTT CCAGGGCTTA CGTTCACTCA ATTCACTAGT CCTCTATGGC 
    AATAAAATCA CAGAACTTCC AAAGGGCCTA TTTGAAGGAC TCTTTTCTCT GCAACTGCTA 
    TTATTGAATG CCAACAAGAT CAATTGTCTG CGAGTTGATG CATTTCAAGA TCTGCACAAC 
    TTGAATCTTC TTTCTTTGTA TGACAACAAG CTTCAGACCA TTGCAAAAGG CACCTTCTCA 
    CCCCTACGTG CGATTCAGAC CTTGCATTTG GCTCAGAACC CATTTATCTG TGACTGCCAT 
    CTGAAGTGGC TGGCGGATTA CCTTCATACA AACCCCATTG AGACCAGTGG TGCCCGTTGC 
    ACCAGCCCCC GCCGTCTGGC AAACAAAAGG ATCGGCCAGA TCAAAAGCAA GAAATTCCGC 
    TGCTCAGCTA AAGAACAGTA TTTCATTCCA GGAGTTCACC ATTTTGGCTG CACTGAAGAT 
    TACAGATCCA AATTAAGTGG AGACTGCTTT GCAGATCTGG CTTGCCCTGA GAAATGTCGC 
    TGTGAAGGGA CCACAGTGGA CTGCTCCAAT CAGAAACTCA ACAAAATTCC TGATCACATT 
    CCCCAGTACA CAGCAGAGTT GCGACTAAAT AACAATGAAT TTTCAGTCTT GGAAGCTACT 
    GGAATCTTTA AGAAACTTCC TCAGCTGCGT AAAATAAACC TGAGCAATAA CAAGATTACA 
    GATATAGAAG AAGGAGCATT TGATGGGGCC TCTGGTGTGA ATGAACTATT GCTCACAAGC 
    AATCGCTTGG AGAGTGTTCA ACACAAAATG TTCAAGGGAC TAGAAAGTCT CAAAACACTG 
    ATGCTGAGGA GCAACAGGGT GAGCTGTGTG GGAAATGACA GCTTCACAGG GCTGAGCTCT 
    GTCCGCCTGC TCTCGCTGTA TGACAACCAG ATCACCACCG TGGCACCCGG CTCCTTCGAC 
    ACGCTGCATT CGCTCTCTAC GCTAAACCTC TTGGCCAATC CCTTCAACTG CAACTGCCAT 
    CTTGCATGGC TTGGAGACTG GCTAAGGAAG AAACGCATTG TGACAGGGAA CCCTCGTTGC 
    CAAAAACCCT ACTTCCTCAA GGAGATTCCG ATCCAGGATG TGGCAATTCA GGATTTTACA 
    TGTGATGATG GAAATGATGA CAATAGCTGT TCTCCCCTGG CCCGCTGCCC TGCAGAATGT 
    ACTTGTCTGG ACACAGTAGT TCGCTGCAGC AACAAAGGTC TAAAAGCTTT GCCTAAAGGC 
    ATCCCAAAAG ATGTGACTGA ACTTTATTTG GATGGAAATC AGTTTACCCT TGTTCCAAAA 
    GAGCTTTCCA ACTACAAGCA TTTGACACTC ATAGATTTAA GTAACAACAG AATCAGCACT 
    CTTTCTAATC AGAGCTTCAG CAACATGACT CAGCTGCTCA CCTTAATTCT TAGTTACAAC 
    CGCCTAAGAT GTATTCCTGC ACGGACTTTT GATGGGTTGA AATCACTTAG GTTGTTGTCT 
    TTACATGGCA ATGATATTTC TGTTGTTCCT GAAGGAGCCT TTAATGATCT TTCAGCATTA 
    TCACACCTGG CTATTGGCGC AAATCCTCTT TATTGTGATT GTAATATGCA GTGGCTATCT 
    GACTGGGTAA AATCAGAATA CAAAGAACCT GGTATTGCAC GTTGTGCTGG TCCTGGAGAA 
    ATGGCAGATA AACTTCTTCT CACAACTCCT TCTAAGAAAT TTACTTGCCA AGGGCCCGTG 
    GATGTTAATA TTCTTGCAAA GTGTAATCCC TGTTTATCAA ATCCGTGTAA AAATGATGGA 
    ACCTGTAATA ATGATCCAGT TGACTTCTAT AGATGTACAT GCCCATATGG TTTCAAGGGC 
    CAAGACTGTG ATATTCCCAT TCATGCTTGC ATTAGTAACC CGTGCAACCA TGGTGGAACT 
    TGTCATTTGA AAGAAGGAGA AAAAGATGGT TTCTGGTGCA CTTGTGCAGA TGGATTTGAA 
    GGTGAAAACT GTGAAGTAAA TGTCGATGAC TGTGAAGACA ATGACTGTGA AAACAATTCT 
    ACTTGTGTGG ATGGAATTAA TAACTATACT TGCCTTTGTC CACCTGAATA TACAGCTGCT 
    AATCTGAATG AAGTGGAGAA AGGTGAACTC TGTGAGGAGA AATTAGATTT CTGTGCCCAA 
    AACCTGAATC CTTGCCAGCA TGATTCAAAG TGTATCTTAA CACCCAAAGG ATACAAGTGT 
    GATTGCACAC CTGGATATGT AGGTGAGCAT TGTGATATTG ACTTTGACGA CTGCCAGGAC 
    AACAAATGTA AAAACGGAGC GCAGTGCACT GACGCAGTTA ATGGATATAC GTGCGTTTGC 
    CCAGAAGGGT ACAGTGGCTT GTTCTGTGAG TTATCGCCGC CAATGGTTCT ACCTCGCACC 
    AGCCCTTGTG ATAATTATGA ATGTCAAAAT GGGGCCCAGT GTATCATAAA AGAAAGTGAA 
    CCAATCTGTC AGTGTTTATC AGGCTACCAG GGTGAGAAAT GTGAAAAGCT GATTAGTATA 
    AACTTCGTCA ACAAAGAATC CTATCTGCAA ATCCCTTCAG CTAAGATACG CCCCCAAACC 
    AATATCACTC TACAGATTGC CACAGATGAA GACAGTGGGA TCCTGCTGTA CAAAGGCGAT 
    AAAGATCACA TAGCAGTGGA ACTGTACCGG GGTAGAGTGA GGGTCAGCTA TGACACGGGA 
    TCATATCCAG CCTCTGCTAT TTACAGTGTG GAAACAATTA ATGATGGCAA TTTCCACATT 
    GTGGAACTGC TAGCTATGGA TCAGATTCTA TCTTTATCTA TTGATGGAGG AAGCCCCAAG 
    ACAATTACCA ATTTGTCCAA GCAATCCACT CTGAATTTTG ATTCTCCGCT GTATGTAGGA 
    GGCATGCCTG TGAAAAATAA TATAGCAGCT TTGCGCCAGT CGCCAGGGCA GAACGGCACC 
    AGCTTCCATG GTTGCATCCG TAATCTGTAT ATCAACAGCG AACTCCAGGA CTTCAGAAAT 
    GTGCCCCTGC AAGTGGGAAT TCTGCCAGGG TGTGAGCCTT GCCATAAGAA GGTTTGTGTG 
    CATGGCACAT GCCATGCTAC CAGCCAGTCA GGCTTCTCCT GTGAGTGCGA AGGAGGATGG 
    ACCGGACCAC TCTGTGATCA GCAAACTAAC GACCCGTGTC TTGGAAATAA ATGTGTGCAT 
    GGTACCTGCT TGCCGATCAA TGCATTTTCA TACAGTTGTA AATGCCTGCA GGGACATGGG 
    GGAGTCCTCT GTGATGAAGA GGAAATGCTG CTTAACCCCT GCCAATCCAT CAAGTGTAAA 
    CATGGCAAAT GTAGGCTTTC AGGACTTGGG AAACCATATT GCGAATGCAG CAGCGGATAC 
    ACGGGGGACA GTTGTGATAA AGCCAAATCC AATGATTCTG CTCCTAGTTT TATCACAAAC 
    TCTACTTTTG ACCTCTCAGC TTCAACTGAT TTATCACAGC GAATTATGCA GAAATCTCTT 
    GTCGAGGGGA ACGAGTCCGA GATTACTACC AAAAGCAGCA AGGCTATGCT GCGTGCCAGA 
    CGACCAAGAA GGTATCGAGA CTAG

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

    SLIT2 ( XM_030270829.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030126689.1 Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X11, mRNA.
    Price & Availability↑
    CloneID OTd44183
    Clone ID Related Accession (Same CDS sequence) XM_030270829.1
    Accession Version XM_030270829.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4575bp)
    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 2019-08-08
    Organism Taeniopygia guttata(zebra finch)
    Product slit homolog 2 protein isoform X11
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044215.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGATGTGCG GCTGGGGGAA GTTCACCTTG CCCCTGGGGC TGCTGCTGGC GATGGCGGGC 
    GCGGTGGCGC CGCAGCCGTG CCCGGCGCAG TGCTCCTGCT CGGGGAGCAC CGTGGACTGT 
    CACGGGCTGG CGCTGCGCGG CGTCCCGAGG AACATCCCCC GCAACACCGA GAGGCTGGAT 
    CTTAATGGGA ATAACATCAC AAGAATCACG AAGACTGACT TTGCTGGTCT AAGGCACCTT 
    CGAGTTCTTC AGCTCATGGA GAACAAGATT AGTACTATTG AGAGGGGAGC ATTCCAAGAT 
    TTAAAAGAAC TGGAGAGGCT GCGCCTAAAC AGAAATAACC TCCAGTTGCT TTCTGAGCTG 
    CTCTTTCTGG GGACGCCGAA GTTATACAGG CTTGATCTTA GTGAAAATCA GATTCAAGCA 
    ATACCAAGGA AGGCATTCCG AGGAGCAGTA GACATAAAAA ATCTGCAACT GGATTACAAC 
    CAGATCAGCT GTATTGAAGA TGGGGCATTT AGGGCTCTGC GTGACCTGGA AGTGCTCACT 
    CTCAACAATA ACAACATCAC TCGACTATCC GTGGCAAGTT TCAACCATAT GCCCAAACTC 
    AGAACATTCC GCCTTCACTC CAACAACCTG TACTGCGACT GCCACCTGGC CTGGCTGTCG 
    GACTGGCTGC GGCAGCGGCC ACGAGTGGGG CTCTACACGC AGTGCATGGG CCCGTCCCAC 
    CTCCGAGGGC ACAACGTGGC CGAGGTCCAG AAGCGCGAGT TTGTCTGCAG CGATGAGGAA 
    GAAGGTCACC AGTCCTTTAT GGCTCCATCC TGCAGTGTCT TGCACTGCCC TACTGCATGC 
    ACCTGTAGCA ACAACATTGT GGACTGTCGT GGGAAAGGCC TTACAGAGAT CCCAACAAAC 
    CTGCCAGAAA CCATCACTGA AATACGGTTA GAACAAAATT CAATCAAGGT CATACCTCCT 
    GGAGCTTTCT CCCCCTATAA AAAGCTTCGA AGAATTGACC TGAGCAATAA CCAGATCTCT 
    GAAGCAGCTC CAGATGCTTT CCAGGGCTTA CGTTCACTCA ATTCACTAGT CCTCTATGGC 
    AATAAAATCA CAGAACTTCC AAAGGGCCTA TTTGAAGGAC TCTTTTCTCT GCAACTGCTA 
    TTATTGAATG CCAACAAGAT CAATTGTCTG CGAGTTGATG CATTTCAAGA TCTGCACAAC 
    TTGAATCTTC TTTCTTTGTA TGACAACAAG CTTCAGACCA TTGCAAAAGG CACCTTCTCA 
    CCCCTACGTG CGATTCAGAC CTTGCATTTG GCTCAGAACC CATTTATCTG TGACTGCCAT 
    CTGAAGTGGC TGGCGGATTA CCTTCATACA AACCCCATTG AGACCAGTGG TGCCCGTTGC 
    ACCAGCCCCC GCCGTCTGGC AAACAAAAGG ATCGGCCAGA TCAAAAGCAA GAAATTCCGC 
    TGCTCAGGCA CTGAAGATTA CAGATCCAAA TTAAGTGGAG ACTGCTTTGC AGATCTGGCT 
    TGCCCTGAGA AATGTCGCTG TGAAGGGACC ACAGTGGACT GCTCCAATCA GAAACTCAAC 
    AAAATTCCTG ATCACATTCC CCAGTACACA GCAGAGTTGC GACTAAATAA CAATGAATTT 
    TCAGTCTTGG AAGCTACTGG AATCTTTAAG AAACTTCCTC AGCTGCGTAA AATAAACCTG 
    AGCAATAACA AGATTACAGA TATAGAAGAA GGAGCATTTG ATGGGGCCTC TGGTGTGAAT 
    GAACTATTGC TCACAAGCAA TCGCTTGGAG AGTGTTCAAC ACAAAATGTT CAAGGGACTA 
    GAAAGTCTCA AAACACTGAT GCTGAGGAGC AACAGGGTGA GCTGTGTGGG AAATGACAGC 
    TTCACAGGGC TGAGCTCTGT CCGCCTGCTC TCGCTGTATG ACAACCAGAT CACCACCGTG 
    GCACCCGGCT CCTTCGACAC GCTGCATTCG CTCTCTACGC TAAACCTCTT GGCCAATCCC 
    TTCAACTGCA ACTGCCATCT TGCATGGCTT GGAGACTGGC TAAGGAAGAA ACGCATTGTG 
    ACAGGGAACC CTCGTTGCCA AAAACCCTAC TTCCTCAAGG AGATTCCGAT CCAGGATGTG 
    GCAATTCAGG ATTTTACATG TGATGATGGA AATGATGACA ATAGCTGTTC TCCCCTGGCC 
    CGCTGCCCTG CAGAATGTAC TTGTCTGGAC ACAGTAGTTC GCTGCAGCAA CAAAGGTCTA 
    AAAGCTTTGC CTAAAGGCAT CCCAAAAGAT GTGACTGAAC TTTATTTGGA TGGAAATCAG 
    TTTACCCTTG TTCCAAAAGA GCTTTCCAAC TACAAGCATT TGACACTCAT AGATTTAAGT 
    AACAACAGAA TCAGCACTCT TTCTAATCAG AGCTTCAGCA ACATGACTCA GCTGCTCACC 
    TTAATTCTTA GTTACAACCG CCTAAGATGT ATTCCTGCAC GGACTTTTGA TGGGTTGAAA 
    TCACTTAGGT TGTTGTCTTT ACATGGCAAT GATATTTCTG TTGTTCCTGA AGGAGCCTTT 
    AATGATCTTT CAGCATTATC ACACCTGGCT ATTGGCGCAA ATCCTCTTTA TTGTGATTGT 
    AATATGCAGT GGCTATCTGA CTGGGTAAAA TCAGAATACA AAGAACCTGG TATTGCACGT 
    TGTGCTGGTC CTGGAGAAAT GGCAGATAAA CTTCTTCTCA CAACTCCTTC TAAGAAATTT 
    ACTTGCCAAG GGCCCGTGGA TGTTAATATT CTTGCAAAGT GTAATCCCTG TTTATCAAAT 
    CCGTGTAAAA ATGATGGAAC CTGTAATAAT GATCCAGTTG ACTTCTATAG ATGTACATGC 
    CCATATGGTT TCAAGGGCCA AGACTGTGAT ATTCCCATTC ATGCTTGCAT TAGTAACCCG 
    TGCAACCATG GTGGAACTTG TCATTTGAAA GAAGGAGAAA AAGATGGTTT CTGGTGCACT 
    TGTGCAGATG GATTTGAAGG TGAAAACTGT GAAGTAAATG TCGATGACTG TGAAGACAAT 
    GACTGTGAAA ACAATTCTAC TTGTGTGGAT GGAATTAATA ACTATACTTG CCTTTGTCCA 
    CCTGAATATA CAGGTGAACT CTGTGAGGAG AAATTAGATT TCTGTGCCCA AAACCTGAAT 
    CCTTGCCAGC ATGATTCAAA GTGTATCTTA ACACCCAAAG GATACAAGTG TGATTGCACA 
    CCTGGATATG TAGGTGAGCA TTGTGATATT GACTTTGACG ACTGCCAGGA CAACAAATGT 
    AAAAACGGAG CGCAGTGCAC TGACGCAGTT AATGGATATA CGTGCGTTTG CCCAGAAGGG 
    TACAGTGGCT TGTTCTGTGA GTTATCGCCG CCAATGGTTC TACCTCGCAC CAGCCCTTGT 
    GATAATTATG AATGTCAAAA TGGGGCCCAG TGTATCATAA AAGAAAGTGA ACCAATCTGT 
    CAGTGTTTAT CAGGCTACCA GGGTGAGAAA TGTGAAAAGC TGATTAGTAT AAACTTCGTC 
    AACAAAGAAT CCTATCTGCA AATCCCTTCA GCTAAGATAC GCCCCCAAAC CAATATCACT 
    CTACAGATTG CCACAGATGA AGACAGTGGG ATCCTGCTGT ACAAAGGCGA TAAAGATCAC 
    ATAGCAGTGG AACTGTACCG GGGTAGAGTG AGGGTCAGCT ATGACACGGG ATCATATCCA 
    GCCTCTGCTA TTTACAGTGT GGAAACAATT AATGATGGCA ATTTCCACAT TGTGGAACTG 
    CTAGCTATGG ATCAGATTCT ATCTTTATCT ATTGATGGAG GAAGCCCCAA GACAATTACC 
    AATTTGTCCA AGCAATCCAC TCTGAATTTT GATTCTCCGC TGTATGTAGG AGGCATGCCT 
    GTGAAAAATA ATATAGCAGC TTTGCGCCAG TCGCCAGGGC AGAACGGCAC CAGCTTCCAT 
    GGTTGCATCC GTAATCTGTA TATCAACAGC GAACTCCAGG ACTTCAGAAA TGTGCCCCTG 
    CAAGTGGGAA TTCTGCCAGG GTGTGAGCCT TGCCATAAGA AGGTTTGTGT GCATGGCACA 
    TGCCATGCTA CCAGCCAGTC AGGCTTCTCC TGTGAGTGCG AAGGAGGATG GACCGGACCA 
    CTCTGTGATC AGCAAACTAA CGACCCGTGT CTTGGAAATA AATGTGTGCA TGGTACCTGC 
    TTGCCGATCA ATGCATTTTC ATACAGTTGT AAATGCCTGC AGGGACATGG GGGAGTCCTC 
    TGTGATGAAG AGGAAATGCT GCTTAACCCC TGCCAATCCA TCAAGTGTAA ACATGGCAAA 
    TGTAGGCTTT CAGGACTTGG GAAACCATAT TGCGAATGCA GCAGCGGATA CACGGGGGAC 
    AGTTGTGATA AAGAAATCTC TTGTCGAGGG GAACGAGTCC GAGATTACTA CCAAAAGCAG 
    CAAGGCTATG CTGCGTGCCA GACGACCAAG AAGGTATCGA GACTAGAATG TAAAGGCGGG 
    TGCTCGGCCG GGCAGTGCTG CGGGCCGCTG CGCAGCAAGA GGCGGAAATA CTCCTTCGAG 
    TGCACTGACG GGTCGTCGTT TGTGGACGAG GTGGAAAAAG TGGTGAAGTG TGGCTGTACA 
    AATTGTCCCT CCTAA

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

    RefSeq XP_030126689.1
    CDS23..4597
    Translation

    Target ORF information:

    RefSeq Version XM_030270829.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X11, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030270829.1

    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
    ATGATGTGCG GCTGGGGGAA GTTCACCTTG CCCCTGGGGC TGCTGCTGGC GATGGCGGGC 
    GCGGTGGCGC CGCAGCCGTG CCCGGCGCAG TGCTCCTGCT CGGGGAGCAC CGTGGACTGT 
    CACGGGCTGG CGCTGCGCGG CGTCCCGAGG AACATCCCCC GCAACACCGA GAGGCTGGAT 
    CTTAATGGGA ATAACATCAC AAGAATCACG AAGACTGACT TTGCTGGTCT AAGGCACCTT 
    CGAGTTCTTC AGCTCATGGA GAACAAGATT AGTACTATTG AGAGGGGAGC ATTCCAAGAT 
    TTAAAAGAAC TGGAGAGGCT GCGCCTAAAC AGAAATAACC TCCAGTTGCT TTCTGAGCTG 
    CTCTTTCTGG GGACGCCGAA GTTATACAGG CTTGATCTTA GTGAAAATCA GATTCAAGCA 
    ATACCAAGGA AGGCATTCCG AGGAGCAGTA GACATAAAAA ATCTGCAACT GGATTACAAC 
    CAGATCAGCT GTATTGAAGA TGGGGCATTT AGGGCTCTGC GTGACCTGGA AGTGCTCACT 
    CTCAACAATA ACAACATCAC TCGACTATCC GTGGCAAGTT TCAACCATAT GCCCAAACTC 
    AGAACATTCC GCCTTCACTC CAACAACCTG TACTGCGACT GCCACCTGGC CTGGCTGTCG 
    GACTGGCTGC GGCAGCGGCC ACGAGTGGGG CTCTACACGC AGTGCATGGG CCCGTCCCAC 
    CTCCGAGGGC ACAACGTGGC CGAGGTCCAG AAGCGCGAGT TTGTCTGCAG CGATGAGGAA 
    GAAGGTCACC AGTCCTTTAT GGCTCCATCC TGCAGTGTCT TGCACTGCCC TACTGCATGC 
    ACCTGTAGCA ACAACATTGT GGACTGTCGT GGGAAAGGCC TTACAGAGAT CCCAACAAAC 
    CTGCCAGAAA CCATCACTGA AATACGGTTA GAACAAAATT CAATCAAGGT CATACCTCCT 
    GGAGCTTTCT CCCCCTATAA AAAGCTTCGA AGAATTGACC TGAGCAATAA CCAGATCTCT 
    GAAGCAGCTC CAGATGCTTT CCAGGGCTTA CGTTCACTCA ATTCACTAGT CCTCTATGGC 
    AATAAAATCA CAGAACTTCC AAAGGGCCTA TTTGAAGGAC TCTTTTCTCT GCAACTGCTA 
    TTATTGAATG CCAACAAGAT CAATTGTCTG CGAGTTGATG CATTTCAAGA TCTGCACAAC 
    TTGAATCTTC TTTCTTTGTA TGACAACAAG CTTCAGACCA TTGCAAAAGG CACCTTCTCA 
    CCCCTACGTG CGATTCAGAC CTTGCATTTG GCTCAGAACC CATTTATCTG TGACTGCCAT 
    CTGAAGTGGC TGGCGGATTA CCTTCATACA AACCCCATTG AGACCAGTGG TGCCCGTTGC 
    ACCAGCCCCC GCCGTCTGGC AAACAAAAGG ATCGGCCAGA TCAAAAGCAA GAAATTCCGC 
    TGCTCAGGCA CTGAAGATTA CAGATCCAAA TTAAGTGGAG ACTGCTTTGC AGATCTGGCT 
    TGCCCTGAGA AATGTCGCTG TGAAGGGACC ACAGTGGACT GCTCCAATCA GAAACTCAAC 
    AAAATTCCTG ATCACATTCC CCAGTACACA GCAGAGTTGC GACTAAATAA CAATGAATTT 
    TCAGTCTTGG AAGCTACTGG AATCTTTAAG AAACTTCCTC AGCTGCGTAA AATAAACCTG 
    AGCAATAACA AGATTACAGA TATAGAAGAA GGAGCATTTG ATGGGGCCTC TGGTGTGAAT 
    GAACTATTGC TCACAAGCAA TCGCTTGGAG AGTGTTCAAC ACAAAATGTT CAAGGGACTA 
    GAAAGTCTCA AAACACTGAT GCTGAGGAGC AACAGGGTGA GCTGTGTGGG AAATGACAGC 
    TTCACAGGGC TGAGCTCTGT CCGCCTGCTC TCGCTGTATG ACAACCAGAT CACCACCGTG 
    GCACCCGGCT CCTTCGACAC GCTGCATTCG CTCTCTACGC TAAACCTCTT GGCCAATCCC 
    TTCAACTGCA ACTGCCATCT TGCATGGCTT GGAGACTGGC TAAGGAAGAA ACGCATTGTG 
    ACAGGGAACC CTCGTTGCCA AAAACCCTAC TTCCTCAAGG AGATTCCGAT CCAGGATGTG 
    GCAATTCAGG ATTTTACATG TGATGATGGA AATGATGACA ATAGCTGTTC TCCCCTGGCC 
    CGCTGCCCTG CAGAATGTAC TTGTCTGGAC ACAGTAGTTC GCTGCAGCAA CAAAGGTCTA 
    AAAGCTTTGC CTAAAGGCAT CCCAAAAGAT GTGACTGAAC TTTATTTGGA TGGAAATCAG 
    TTTACCCTTG TTCCAAAAGA GCTTTCCAAC TACAAGCATT TGACACTCAT AGATTTAAGT 
    AACAACAGAA TCAGCACTCT TTCTAATCAG AGCTTCAGCA ACATGACTCA GCTGCTCACC 
    TTAATTCTTA GTTACAACCG CCTAAGATGT ATTCCTGCAC GGACTTTTGA TGGGTTGAAA 
    TCACTTAGGT TGTTGTCTTT ACATGGCAAT GATATTTCTG TTGTTCCTGA AGGAGCCTTT 
    AATGATCTTT CAGCATTATC ACACCTGGCT ATTGGCGCAA ATCCTCTTTA TTGTGATTGT 
    AATATGCAGT GGCTATCTGA CTGGGTAAAA TCAGAATACA AAGAACCTGG TATTGCACGT 
    TGTGCTGGTC CTGGAGAAAT GGCAGATAAA CTTCTTCTCA CAACTCCTTC TAAGAAATTT 
    ACTTGCCAAG GGCCCGTGGA TGTTAATATT CTTGCAAAGT GTAATCCCTG TTTATCAAAT 
    CCGTGTAAAA ATGATGGAAC CTGTAATAAT GATCCAGTTG ACTTCTATAG ATGTACATGC 
    CCATATGGTT TCAAGGGCCA AGACTGTGAT ATTCCCATTC ATGCTTGCAT TAGTAACCCG 
    TGCAACCATG GTGGAACTTG TCATTTGAAA GAAGGAGAAA AAGATGGTTT CTGGTGCACT 
    TGTGCAGATG GATTTGAAGG TGAAAACTGT GAAGTAAATG TCGATGACTG TGAAGACAAT 
    GACTGTGAAA ACAATTCTAC TTGTGTGGAT GGAATTAATA ACTATACTTG CCTTTGTCCA 
    CCTGAATATA CAGGTGAACT CTGTGAGGAG AAATTAGATT TCTGTGCCCA AAACCTGAAT 
    CCTTGCCAGC ATGATTCAAA GTGTATCTTA ACACCCAAAG GATACAAGTG TGATTGCACA 
    CCTGGATATG TAGGTGAGCA TTGTGATATT GACTTTGACG ACTGCCAGGA CAACAAATGT 
    AAAAACGGAG CGCAGTGCAC TGACGCAGTT AATGGATATA CGTGCGTTTG CCCAGAAGGG 
    TACAGTGGCT TGTTCTGTGA GTTATCGCCG CCAATGGTTC TACCTCGCAC CAGCCCTTGT 
    GATAATTATG AATGTCAAAA TGGGGCCCAG TGTATCATAA AAGAAAGTGA ACCAATCTGT 
    CAGTGTTTAT CAGGCTACCA GGGTGAGAAA TGTGAAAAGC TGATTAGTAT AAACTTCGTC 
    AACAAAGAAT CCTATCTGCA AATCCCTTCA GCTAAGATAC GCCCCCAAAC CAATATCACT 
    CTACAGATTG CCACAGATGA AGACAGTGGG ATCCTGCTGT ACAAAGGCGA TAAAGATCAC 
    ATAGCAGTGG AACTGTACCG GGGTAGAGTG AGGGTCAGCT ATGACACGGG ATCATATCCA 
    GCCTCTGCTA TTTACAGTGT GGAAACAATT AATGATGGCA ATTTCCACAT TGTGGAACTG 
    CTAGCTATGG ATCAGATTCT ATCTTTATCT ATTGATGGAG GAAGCCCCAA GACAATTACC 
    AATTTGTCCA AGCAATCCAC TCTGAATTTT GATTCTCCGC TGTATGTAGG AGGCATGCCT 
    GTGAAAAATA ATATAGCAGC TTTGCGCCAG TCGCCAGGGC AGAACGGCAC CAGCTTCCAT 
    GGTTGCATCC GTAATCTGTA TATCAACAGC GAACTCCAGG ACTTCAGAAA TGTGCCCCTG 
    CAAGTGGGAA TTCTGCCAGG GTGTGAGCCT TGCCATAAGA AGGTTTGTGT GCATGGCACA 
    TGCCATGCTA CCAGCCAGTC AGGCTTCTCC TGTGAGTGCG AAGGAGGATG GACCGGACCA 
    CTCTGTGATC AGCAAACTAA CGACCCGTGT CTTGGAAATA AATGTGTGCA TGGTACCTGC 
    TTGCCGATCA ATGCATTTTC ATACAGTTGT AAATGCCTGC AGGGACATGG GGGAGTCCTC 
    TGTGATGAAG AGGAAATGCT GCTTAACCCC TGCCAATCCA TCAAGTGTAA ACATGGCAAA 
    TGTAGGCTTT CAGGACTTGG GAAACCATAT TGCGAATGCA GCAGCGGATA CACGGGGGAC 
    AGTTGTGATA AAGAAATCTC TTGTCGAGGG GAACGAGTCC GAGATTACTA CCAAAAGCAG 
    CAAGGCTATG CTGCGTGCCA GACGACCAAG AAGGTATCGA GACTAGAATG TAAAGGCGGG 
    TGCTCGGCCG GGCAGTGCTG CGGGCCGCTG CGCAGCAAGA GGCGGAAATA CTCCTTCGAG 
    TGCACTGACG GGTCGTCGTT TGTGGACGAG GTGGAAAAAG TGGTGAAGTG TGGCTGTACA 
    AATTGTCCCT CCTAA

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

    SLIT2 ( XM_030270830.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030126690.1 Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X12, mRNA.
    Price & Availability↑
    CloneID OTd44184
    Clone ID Related Accession (Same CDS sequence) XM_030270830.1
    Accession Version XM_030270830.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4572bp)
    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 2019-08-08
    Organism Taeniopygia guttata(zebra finch)
    Product slit homolog 2 protein isoform X12
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044215.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGATGTGCG GCTGGGGGAA GTTCACCTTG CCCCTGGGGC TGCTGCTGGC GATGGCGGGC 
    GCGGTGGCGC CGCAGCCGTG CCCGGCGCAG TGCTCCTGCT CGGGGAGCAC CGTGGACTGT 
    CACGGGCTGG CGCTGCGCGG CGTCCCGAGG AACATCCCCC GCAACACCGA GAGGCTGGAT 
    CTTAATGGGA ATAACATCAC AAGAATCACG AAGACTGACT TTGCTGGTCT AAGGCACCTT 
    CGAGTTCTTC AGCTCATGGA GAACAAGATT AGTACTATTG AGAGGGGAGC ATTCCAAGAT 
    TTAAAAGAAC TGGAGAGGCT GCGCCTAAAC AGAAATAACC TCCAGTTGCT TTCTGAGCTG 
    CTCTTTCTGG GGACGCCGAA GTTATACAGG CTTGATCTTA GTGAAAATCA GATTCAAGCA 
    ATACCAAGGA AGGCATTCCG AGGAGCAGTA GACATAAAAA ATCTGCAACT GGATTACAAC 
    CAGATCAGCT GTATTGAAGA TGGGGCATTT AGGGCTCTGC GTGACCTGGA AGTGCTCACT 
    CTCAACAATA ACAACATCAC TCGACTATCC GTGGCAAGTT TCAACCATAT GCCCAAACTC 
    AGAACATTCC GCCTTCACTC CAACAACCTG TACTGCGACT GCCACCTGGC CTGGCTGTCG 
    GACTGGCTGC GGCAGCGGCC ACGAGTGGGG CTCTACACGC AGTGCATGGG CCCGTCCCAC 
    CTCCGAGGGC ACAACGTGGC CGAGGTCCAG AAGCGCGAGT TTGTCTGCAG CGATGAGGAA 
    GAAGGTCACC AGTCCTTTAT GGCTCCATCC TGCAGTGTCT TGCACTGCCC TACTGCATGC 
    ACCTGTAGCA ACAACATTGT GGACTGTCGT GGGAAAGGCC TTACAGAGAT CCCAACAAAC 
    CTGCCAGAAA CCATCACTGA AATACGGTTA GAACAAAATT CAATCAAGGT CATACCTCCT 
    GGAGCTTTCT CCCCCTATAA AAAGCTTCGA AGAATTGACC TGAGCAATAA CCAGATCTCT 
    GAAGCAGCTC CAGATGCTTT CCAGGGCTTA CGTTCACTCA ATTCACTAGT CCTCTATGGC 
    AATAAAATCA CAGAACTTCC AAAGGGCCTA TTTGAAGGAC TCTTTTCTCT GCAACTGCTA 
    TTATTGAATG CCAACAAGAT CAATTGTCTG CGAGTTGATG CATTTCAAGA TCTGCACAAC 
    TTGAATCTTC TTTCTTTGTA TGACAACAAG CTTCAGACCA TTGCAAAAGG CACCTTCTCA 
    CCCCTACGTG CGATTCAGAC CTTGCATTTG GCTCAGAACC CATTTATCTG TGACTGCCAT 
    CTGAAGTGGC TGGCGGATTA CCTTCATACA AACCCCATTG AGACCAGTGG TGCCCGTTGC 
    ACCAGCCCCC GCCGTCTGGC AAACAAAAGG ATCGGCCAGA TCAAAAGCAA GAAATTCCGC 
    TGCTCAGCTA AAGAACAGTA TTTCATTCCA GGAGTTCACC ATTTTGGCTG CACTGAAGAT 
    TACAGATCCA AATTAAGTGG AGACTGCTTT GCAGATCTGG CTTGCCCTGA GAAATGTCGC 
    TGTGAAGGGA CCACAGTGGA CTGCTCCAAT CAGAAACTCA ACAAAATTCC TGATCACATT 
    CCCCAGTACA CAGCAGAGTT GCGACTAAAT AACAATGAAT TTTCAGTCTT GGAAGCTACT 
    GGAATCTTTA AGAAACTTCC TCAGCTGCGT AAAATAAACC TGAGCAATAA CAAGATTACA 
    GATATAGAAG AAGGAGCATT TGATGGGGCC TCTGGTGTGA ATGAACTATT GCTCACAAGC 
    AATCGCTTGG AGAGTGTTCA ACACAAAATG TTCAAGGGAC TAGAAAGTCT CAAAACACTG 
    ATGCTGAGGA GCAACAGGGT GAGCTGTGTG GGAAATGACA GCTTCACAGG GCTGAGCTCT 
    GTCCGCCTGC TCTCGCTGTA TGACAACCAG ATCACCACCG TGGCACCCGG CTCCTTCGAC 
    ACGCTGCATT CGCTCTCTAC GCTAAACCTC TTGGCCAATC CCTTCAACTG CAACTGCCAT 
    CTTGCATGGC TTGGAGACTG GCTAAGGAAG AAACGCATTG TGACAGGGAA CCCTCGTTGC 
    CAAAAACCCT ACTTCCTCAA GGAGATTCCG ATCCAGGATG TGGCAATTCA GGATTTTACA 
    TGTGATGATG GAAATGATGA CAATAGCTGT TCTCCCCTGG CCCGCTGCCC TGCAGAATGT 
    ACTTGTCTGG ACACAGTAGT TCGCTGCAGC AACAAAGGTC TAAAAGCTTT GCCTAAAGGC 
    ATCCCAAAAG ATGTGACTGA ACTTTATTTG GATGGAAATC AGTTTACCCT TGTTCCAAAA 
    GAGCTTTCCA ACTACAAGCA TTTGACACTC ATAATTCTTA GTTACAACCG CCTAAGATGT 
    ATTCCTGCAC GGACTTTTGA TGGGTTGAAA TCACTTAGGT TGTTGTCTTT ACATGGCAAT 
    GATATTTCTG TTGTTCCTGA AGGAGCCTTT AATGATCTTT CAGCATTATC ACACCTGGCT 
    ATTGGCGCAA ATCCTCTTTA TTGTGATTGT AATATGCAGT GGCTATCTGA CTGGGTAAAA 
    TCAGAATACA AAGAACCTGG TATTGCACGT TGTGCTGGTC CTGGAGAAAT GGCAGATAAA 
    CTTCTTCTCA CAACTCCTTC TAAGAAATTT ACTTGCCAAG GGCCCGTGGA TGTTAATATT 
    CTTGCAAAGT GTAATCCCTG TTTATCAAAT CCGTGTAAAA ATGATGGAAC CTGTAATAAT 
    GATCCAGTTG ACTTCTATAG ATGTACATGC CCATATGGTT TCAAGGGCCA AGACTGTGAT 
    ATTCCCATTC ATGCTTGCAT TAGTAACCCG TGCAACCATG GTGGAACTTG TCATTTGAAA 
    GAAGGAGAAA AAGATGGTTT CTGGTGCACT TGTGCAGATG GATTTGAAGG TGAAAACTGT 
    GAAGTAAATG TCGATGACTG TGAAGACAAT GACTGTGAAA ACAATTCTAC TTGTGTGGAT 
    GGAATTAATA ACTATACTTG CCTTTGTCCA CCTGAATATA CAGCTGCTAA TCTGAATGAA 
    GTGGAGAAAG GTGAACTCTG TGAGGAGAAA TTAGATTTCT GTGCCCAAAA CCTGAATCCT 
    TGCCAGCATG ATTCAAAGTG TATCTTAACA CCCAAAGGAT ACAAGTGTGA TTGCACACCT 
    GGATATGTAG GTGAGCATTG TGATATTGAC TTTGACGACT GCCAGGACAA CAAATGTAAA 
    AACGGAGCGC AGTGCACTGA CGCAGTTAAT GGATATACGT GCGTTTGCCC AGAAGGGTAC 
    AGTGGCTTGT TCTGTGAGTT ATCGCCGCCA ATGGTTCTAC CTCGCACCAG CCCTTGTGAT 
    AATTATGAAT GTCAAAATGG GGCCCAGTGT ATCATAAAAG AAAGTGAACC AATCTGTCAG 
    TGTTTATCAG GCTACCAGGG TGAGAAATGT GAAAAGCTGA TTAGTATAAA CTTCGTCAAC 
    AAAGAATCCT ATCTGCAAAT CCCTTCAGCT AAGATACGCC CCCAAACCAA TATCACTCTA 
    CAGATTGCCA CAGATGAAGA CAGTGGGATC CTGCTGTACA AAGGCGATAA AGATCACATA 
    GCAGTGGAAC TGTACCGGGG TAGAGTGAGG GTCAGCTATG ACACGGGATC ATATCCAGCC 
    TCTGCTATTT ACAGTGTGGA AACAATTAAT GATGGCAATT TCCACATTGT GGAACTGCTA 
    GCTATGGATC AGATTCTATC TTTATCTATT GATGGAGGAA GCCCCAAGAC AATTACCAAT 
    TTGTCCAAGC AATCCACTCT GAATTTTGAT TCTCCGCTGT ATGTAGGAGG CATGCCTGTG 
    AAAAATAATA TAGCAGCTTT GCGCCAGTCG CCAGGGCAGA ACGGCACCAG CTTCCATGGT 
    TGCATCCGTA ATCTGTATAT CAACAGCGAA CTCCAGGACT TCAGAAATGT GCCCCTGCAA 
    GTGGGAATTC TGCCAGGGTG TGAGCCTTGC CATAAGAAGG TTTGTGTGCA TGGCACATGC 
    CATGCTACCA GCCAGTCAGG CTTCTCCTGT GAGTGCGAAG GAGGATGGAC CGGACCACTC 
    TGTGATCAGC AAACTAACGA CCCGTGTCTT GGAAATAAAT GTGTGCATGG TACCTGCTTG 
    CCGATCAATG CATTTTCATA CAGTTGTAAA TGCCTGCAGG GACATGGGGG AGTCCTCTGT 
    GATGAAGAGG AAATGCTGCT TAACCCCTGC CAATCCATCA AGTGTAAACA TGGCAAATGT 
    AGGCTTTCAG GACTTGGGAA ACCATATTGC GAATGCAGCA GCGGATACAC GGGGGACAGT 
    TGTGATAAAG AAATCTCTTG TCGAGGGGAA CGAGTCCGAG ATTACTACCA AAAGCAGCAA 
    GGCTATGCTG CGTGCCAGAC GACCAAGAAG GTATCGAGAC TAGAATGTAA AGGCGGGTGC 
    TCGGCCGGGC AGTGCTGCGG GCCGCTGCGC AGCAAGAGGC GGAAATACTC CTTCGAGTGC 
    ACTGACGGGT CGTCGTTTGT GGACGAGGTG GAAAAAGTGG TGAAGTGTGG CTGTACAAAT 
    TGTCCCTCCT AA

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

    RefSeq XP_030126690.1
    CDS23..4594
    Translation

    Target ORF information:

    RefSeq Version XM_030270830.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X12, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030270830.1

    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
    ATGATGTGCG GCTGGGGGAA GTTCACCTTG CCCCTGGGGC TGCTGCTGGC GATGGCGGGC 
    GCGGTGGCGC CGCAGCCGTG CCCGGCGCAG TGCTCCTGCT CGGGGAGCAC CGTGGACTGT 
    CACGGGCTGG CGCTGCGCGG CGTCCCGAGG AACATCCCCC GCAACACCGA GAGGCTGGAT 
    CTTAATGGGA ATAACATCAC AAGAATCACG AAGACTGACT TTGCTGGTCT AAGGCACCTT 
    CGAGTTCTTC AGCTCATGGA GAACAAGATT AGTACTATTG AGAGGGGAGC ATTCCAAGAT 
    TTAAAAGAAC TGGAGAGGCT GCGCCTAAAC AGAAATAACC TCCAGTTGCT TTCTGAGCTG 
    CTCTTTCTGG GGACGCCGAA GTTATACAGG CTTGATCTTA GTGAAAATCA GATTCAAGCA 
    ATACCAAGGA AGGCATTCCG AGGAGCAGTA GACATAAAAA ATCTGCAACT GGATTACAAC 
    CAGATCAGCT GTATTGAAGA TGGGGCATTT AGGGCTCTGC GTGACCTGGA AGTGCTCACT 
    CTCAACAATA ACAACATCAC TCGACTATCC GTGGCAAGTT TCAACCATAT GCCCAAACTC 
    AGAACATTCC GCCTTCACTC CAACAACCTG TACTGCGACT GCCACCTGGC CTGGCTGTCG 
    GACTGGCTGC GGCAGCGGCC ACGAGTGGGG CTCTACACGC AGTGCATGGG CCCGTCCCAC 
    CTCCGAGGGC ACAACGTGGC CGAGGTCCAG AAGCGCGAGT TTGTCTGCAG CGATGAGGAA 
    GAAGGTCACC AGTCCTTTAT GGCTCCATCC TGCAGTGTCT TGCACTGCCC TACTGCATGC 
    ACCTGTAGCA ACAACATTGT GGACTGTCGT GGGAAAGGCC TTACAGAGAT CCCAACAAAC 
    CTGCCAGAAA CCATCACTGA AATACGGTTA GAACAAAATT CAATCAAGGT CATACCTCCT 
    GGAGCTTTCT CCCCCTATAA AAAGCTTCGA AGAATTGACC TGAGCAATAA CCAGATCTCT 
    GAAGCAGCTC CAGATGCTTT CCAGGGCTTA CGTTCACTCA ATTCACTAGT CCTCTATGGC 
    AATAAAATCA CAGAACTTCC AAAGGGCCTA TTTGAAGGAC TCTTTTCTCT GCAACTGCTA 
    TTATTGAATG CCAACAAGAT CAATTGTCTG CGAGTTGATG CATTTCAAGA TCTGCACAAC 
    TTGAATCTTC TTTCTTTGTA TGACAACAAG CTTCAGACCA TTGCAAAAGG CACCTTCTCA 
    CCCCTACGTG CGATTCAGAC CTTGCATTTG GCTCAGAACC CATTTATCTG TGACTGCCAT 
    CTGAAGTGGC TGGCGGATTA CCTTCATACA AACCCCATTG AGACCAGTGG TGCCCGTTGC 
    ACCAGCCCCC GCCGTCTGGC AAACAAAAGG ATCGGCCAGA TCAAAAGCAA GAAATTCCGC 
    TGCTCAGCTA AAGAACAGTA TTTCATTCCA GGAGTTCACC ATTTTGGCTG CACTGAAGAT 
    TACAGATCCA AATTAAGTGG AGACTGCTTT GCAGATCTGG CTTGCCCTGA GAAATGTCGC 
    TGTGAAGGGA CCACAGTGGA CTGCTCCAAT CAGAAACTCA ACAAAATTCC TGATCACATT 
    CCCCAGTACA CAGCAGAGTT GCGACTAAAT AACAATGAAT TTTCAGTCTT GGAAGCTACT 
    GGAATCTTTA AGAAACTTCC TCAGCTGCGT AAAATAAACC TGAGCAATAA CAAGATTACA 
    GATATAGAAG AAGGAGCATT TGATGGGGCC TCTGGTGTGA ATGAACTATT GCTCACAAGC 
    AATCGCTTGG AGAGTGTTCA ACACAAAATG TTCAAGGGAC TAGAAAGTCT CAAAACACTG 
    ATGCTGAGGA GCAACAGGGT GAGCTGTGTG GGAAATGACA GCTTCACAGG GCTGAGCTCT 
    GTCCGCCTGC TCTCGCTGTA TGACAACCAG ATCACCACCG TGGCACCCGG CTCCTTCGAC 
    ACGCTGCATT CGCTCTCTAC GCTAAACCTC TTGGCCAATC CCTTCAACTG CAACTGCCAT 
    CTTGCATGGC TTGGAGACTG GCTAAGGAAG AAACGCATTG TGACAGGGAA CCCTCGTTGC 
    CAAAAACCCT ACTTCCTCAA GGAGATTCCG ATCCAGGATG TGGCAATTCA GGATTTTACA 
    TGTGATGATG GAAATGATGA CAATAGCTGT TCTCCCCTGG CCCGCTGCCC TGCAGAATGT 
    ACTTGTCTGG ACACAGTAGT TCGCTGCAGC AACAAAGGTC TAAAAGCTTT GCCTAAAGGC 
    ATCCCAAAAG ATGTGACTGA ACTTTATTTG GATGGAAATC AGTTTACCCT TGTTCCAAAA 
    GAGCTTTCCA ACTACAAGCA TTTGACACTC ATAATTCTTA GTTACAACCG CCTAAGATGT 
    ATTCCTGCAC GGACTTTTGA TGGGTTGAAA TCACTTAGGT TGTTGTCTTT ACATGGCAAT 
    GATATTTCTG TTGTTCCTGA AGGAGCCTTT AATGATCTTT CAGCATTATC ACACCTGGCT 
    ATTGGCGCAA ATCCTCTTTA TTGTGATTGT AATATGCAGT GGCTATCTGA CTGGGTAAAA 
    TCAGAATACA AAGAACCTGG TATTGCACGT TGTGCTGGTC CTGGAGAAAT GGCAGATAAA 
    CTTCTTCTCA CAACTCCTTC TAAGAAATTT ACTTGCCAAG GGCCCGTGGA TGTTAATATT 
    CTTGCAAAGT GTAATCCCTG TTTATCAAAT CCGTGTAAAA ATGATGGAAC CTGTAATAAT 
    GATCCAGTTG ACTTCTATAG ATGTACATGC CCATATGGTT TCAAGGGCCA AGACTGTGAT 
    ATTCCCATTC ATGCTTGCAT TAGTAACCCG TGCAACCATG GTGGAACTTG TCATTTGAAA 
    GAAGGAGAAA AAGATGGTTT CTGGTGCACT TGTGCAGATG GATTTGAAGG TGAAAACTGT 
    GAAGTAAATG TCGATGACTG TGAAGACAAT GACTGTGAAA ACAATTCTAC TTGTGTGGAT 
    GGAATTAATA ACTATACTTG CCTTTGTCCA CCTGAATATA CAGCTGCTAA TCTGAATGAA 
    GTGGAGAAAG GTGAACTCTG TGAGGAGAAA TTAGATTTCT GTGCCCAAAA CCTGAATCCT 
    TGCCAGCATG ATTCAAAGTG TATCTTAACA CCCAAAGGAT ACAAGTGTGA TTGCACACCT 
    GGATATGTAG GTGAGCATTG TGATATTGAC TTTGACGACT GCCAGGACAA CAAATGTAAA 
    AACGGAGCGC AGTGCACTGA CGCAGTTAAT GGATATACGT GCGTTTGCCC AGAAGGGTAC 
    AGTGGCTTGT TCTGTGAGTT ATCGCCGCCA ATGGTTCTAC CTCGCACCAG CCCTTGTGAT 
    AATTATGAAT GTCAAAATGG GGCCCAGTGT ATCATAAAAG AAAGTGAACC AATCTGTCAG 
    TGTTTATCAG GCTACCAGGG TGAGAAATGT GAAAAGCTGA TTAGTATAAA CTTCGTCAAC 
    AAAGAATCCT ATCTGCAAAT CCCTTCAGCT AAGATACGCC CCCAAACCAA TATCACTCTA 
    CAGATTGCCA CAGATGAAGA CAGTGGGATC CTGCTGTACA AAGGCGATAA AGATCACATA 
    GCAGTGGAAC TGTACCGGGG TAGAGTGAGG GTCAGCTATG ACACGGGATC ATATCCAGCC 
    TCTGCTATTT ACAGTGTGGA AACAATTAAT GATGGCAATT TCCACATTGT GGAACTGCTA 
    GCTATGGATC AGATTCTATC TTTATCTATT GATGGAGGAA GCCCCAAGAC AATTACCAAT 
    TTGTCCAAGC AATCCACTCT GAATTTTGAT TCTCCGCTGT ATGTAGGAGG CATGCCTGTG 
    AAAAATAATA TAGCAGCTTT GCGCCAGTCG CCAGGGCAGA ACGGCACCAG CTTCCATGGT 
    TGCATCCGTA ATCTGTATAT CAACAGCGAA CTCCAGGACT TCAGAAATGT GCCCCTGCAA 
    GTGGGAATTC TGCCAGGGTG TGAGCCTTGC CATAAGAAGG TTTGTGTGCA TGGCACATGC 
    CATGCTACCA GCCAGTCAGG CTTCTCCTGT GAGTGCGAAG GAGGATGGAC CGGACCACTC 
    TGTGATCAGC AAACTAACGA CCCGTGTCTT GGAAATAAAT GTGTGCATGG TACCTGCTTG 
    CCGATCAATG CATTTTCATA CAGTTGTAAA TGCCTGCAGG GACATGGGGG AGTCCTCTGT 
    GATGAAGAGG AAATGCTGCT TAACCCCTGC CAATCCATCA AGTGTAAACA TGGCAAATGT 
    AGGCTTTCAG GACTTGGGAA ACCATATTGC GAATGCAGCA GCGGATACAC GGGGGACAGT 
    TGTGATAAAG AAATCTCTTG TCGAGGGGAA CGAGTCCGAG ATTACTACCA AAAGCAGCAA 
    GGCTATGCTG CGTGCCAGAC GACCAAGAAG GTATCGAGAC TAGAATGTAA AGGCGGGTGC 
    TCGGCCGGGC AGTGCTGCGG GCCGCTGCGC AGCAAGAGGC GGAAATACTC CTTCGAGTGC 
    ACTGACGGGT CGTCGTTTGT GGACGAGGTG GAAAAAGTGG TGAAGTGTGG CTGTACAAAT 
    TGTCCCTCCT AA

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

    SLIT2 ( XM_030270831.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030126691.1 Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X13, mRNA.
    Price & Availability↑
    CloneID OTd44185
    Clone ID Related Accession (Same CDS sequence) XM_030270831.1
    Accession Version XM_030270831.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4563bp)
    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 2019-08-08
    Organism Taeniopygia guttata(zebra finch)
    Product slit homolog 2 protein isoform X13
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044215.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGATGTGCG GCTGGGGGAA GTTCACCTTG CCCCTGGGGC TGCTGCTGGC GATGGCGGGC 
    GCGGTGGCGC CGCAGCCGTG CCCGGCGCAG TGCTCCTGCT CGGGGAGCAC CGTGGACTGT 
    CACGGGCTGG CGCTGCGCGG CGTCCCGAGG AACATCCCCC GCAACACCGA GAGGCTGGAT 
    CTTAATGGGA ATAACATCAC AAGAATCACG AAGACTGACT TTGCTGGTCT AAGGCACCTT 
    CGAGTTCTTC AGCTCATGGA GAACAAGATT AGTACTATTG AGAGGGGAGC ATTCCAAGAT 
    TTAAAAGAAC TGGAGAGGCT GCGCCTAAAC AGAAATAACC TCCAGTTGCT TTCTGAGCTG 
    CTCTTTCTGG GGACGCCGAA GTTATACAGG CTTGATCTTA GTGAAAATCA GATTCAAGCA 
    ATACCAAGGA AGGCATTCCG AGGAGCAGTA GACATAAAAA ATCTGCAACT GGATTACAAC 
    CAGATCAGCT GTATTGAAGA TGGGGCATTT AGGGCTCTGC GTGACCTGGA AGTGCTCACT 
    CTCAACAATA ACAACATCAC TCGACTATCC GTGGCAAGTT TCAACCATAT GCCCAAACTC 
    AGAACATTCC GCCTTCACTC CAACAACCTG TACTGCGACT GCCACCTGGC CTGGCTGTCG 
    GACTGGCTGC GGCAGCGGCC ACGAGTGGGG CTCTACACGC AGTGCATGGG CCCGTCCCAC 
    CTCCGAGGGC ACAACGTGGC CGAGGTCCAG AAGCGCGAGT TTGTCTGCAG CGGTCACCAG 
    TCCTTTATGG CTCCATCCTG CAGTGTCTTG CACTGCCCTA CTGCATGCAC CTGTAGCAAC 
    AACATTGTGG ACTGTCGTGG GAAAGGCCTT ACAGAGATCC CAACAAACCT GCCAGAAACC 
    ATCACTGAAA TACGGTTAGA ACAAAATTCA ATCAAGGTCA TACCTCCTGG AGCTTTCTCC 
    CCCTATAAAA AGCTTCGAAG AATTGACCTG AGCAATAACC AGATCTCTGA AGCAGCTCCA 
    GATGCTTTCC AGGGCTTACG TTCACTCAAT TCACTAGTCC TCTATGGCAA TAAAATCACA 
    GAACTTCCAA AGGGCCTATT TGAAGGACTC TTTTCTCTGC AACTGCTATT ATTGAATGCC 
    AACAAGATCA ATTGTCTGCG AGTTGATGCA TTTCAAGATC TGCACAACTT GAATCTTCTT 
    TCTTTGTATG ACAACAAGCT TCAGACCATT GCAAAAGGCA CCTTCTCACC CCTACGTGCG 
    ATTCAGACCT TGCATTTGGC TCAGAACCCA TTTATCTGTG ACTGCCATCT GAAGTGGCTG 
    GCGGATTACC TTCATACAAA CCCCATTGAG ACCAGTGGTG CCCGTTGCAC CAGCCCCCGC 
    CGTCTGGCAA ACAAAAGGAT CGGCCAGATC AAAAGCAAGA AATTCCGCTG CTCAGGCACT 
    GAAGATTACA GATCCAAATT AAGTGGAGAC TGCTTTGCAG ATCTGGCTTG CCCTGAGAAA 
    TGTCGCTGTG AAGGGACCAC AGTGGACTGC TCCAATCAGA AACTCAACAA AATTCCTGAT 
    CACATTCCCC AGTACACAGC AGAGTTGCGA CTAAATAACA ATGAATTTTC AGTCTTGGAA 
    GCTACTGGAA TCTTTAAGAA ACTTCCTCAG CTGCGTAAAA TAAACCTGAG CAATAACAAG 
    ATTACAGATA TAGAAGAAGG AGCATTTGAT GGGGCCTCTG GTGTGAATGA ACTATTGCTC 
    ACAAGCAATC GCTTGGAGAG TGTTCAACAC AAAATGTTCA AGGGACTAGA AAGTCTCAAA 
    ACACTGATGC TGAGGAGCAA CAGGGTGAGC TGTGTGGGAA ATGACAGCTT CACAGGGCTG 
    AGCTCTGTCC GCCTGCTCTC GCTGTATGAC AACCAGATCA CCACCGTGGC ACCCGGCTCC 
    TTCGACACGC TGCATTCGCT CTCTACGCTA AACCTCTTGG CCAATCCCTT CAACTGCAAC 
    TGCCATCTTG CATGGCTTGG AGACTGGCTA AGGAAGAAAC GCATTGTGAC AGGGAACCCT 
    CGTTGCCAAA AACCCTACTT CCTCAAGGAG ATTCCGATCC AGGATGTGGC AATTCAGGAT 
    TTTACATGTG ATGATGGAAA TGATGACAAT AGCTGTTCTC CCCTGGCCCG CTGCCCTGCA 
    GAATGTACTT GTCTGGACAC AGTAGTTCGC TGCAGCAACA AAGGTCTAAA AGCTTTGCCT 
    AAAGGCATCC CAAAAGATGT GACTGAACTT TATTTGGATG GAAATCAGTT TACCCTTGTT 
    CCAAAAGAGC TTTCCAACTA CAAGCATTTG ACACTCATAG ATTTAAGTAA CAACAGAATC 
    AGCACTCTTT CTAATCAGAG CTTCAGCAAC ATGACTCAGC TGCTCACCTT AATTCTTAGT 
    TACAACCGCC TAAGATGTAT TCCTGCACGG ACTTTTGATG GGTTGAAATC ACTTAGGTTG 
    TTGTCTTTAC ATGGCAATGA TATTTCTGTT GTTCCTGAAG GAGCCTTTAA TGATCTTTCA 
    GCATTATCAC ACCTGGCTAT TGGCGCAAAT CCTCTTTATT GTGATTGTAA TATGCAGTGG 
    CTATCTGACT GGGTAAAATC AGAATACAAA GAACCTGGTA TTGCACGTTG TGCTGGTCCT 
    GGAGAAATGG CAGATAAACT TCTTCTCACA ACTCCTTCTA AGAAATTTAC TTGCCAAGGG 
    CCCGTGGATG TTAATATTCT TGCAAAGTGT AATCCCTGTT TATCAAATCC GTGTAAAAAT 
    GATGGAACCT GTAATAATGA TCCAGTTGAC TTCTATAGAT GTACATGCCC ATATGGTTTC 
    AAGGGCCAAG ACTGTGATAT TCCCATTCAT GCTTGCATTA GTAACCCGTG CAACCATGGT 
    GGAACTTGTC ATTTGAAAGA AGGAGAAAAA GATGGTTTCT GGTGCACTTG TGCAGATGGA 
    TTTGAAGGTG AAAACTGTGA AGTAAATGTC GATGACTGTG AAGACAATGA CTGTGAAAAC 
    AATTCTACTT GTGTGGATGG AATTAATAAC TATACTTGCC TTTGTCCACC TGAATATACA 
    GGTGAACTCT GTGAGGAGAA ATTAGATTTC TGTGCCCAAA ACCTGAATCC TTGCCAGCAT 
    GATTCAAAGT GTATCTTAAC ACCCAAAGGA TACAAGTGTG ATTGCACACC TGGATATGTA 
    GGTGAGCATT GTGATATTGA CTTTGACGAC TGCCAGGACA ACAAATGTAA AAACGGAGCG 
    CAGTGCACTG ACGCAGTTAA TGGATATACG TGCGTTTGCC CAGAAGGGTA CAGTGGCTTG 
    TTCTGTGAGT TATCGCCGCC AATGGTTCTA CCTCGCACCA GCCCTTGTGA TAATTATGAA 
    TGTCAAAATG GGGCCCAGTG TATCATAAAA GAAAGTGAAC CAATCTGTCA GTGTTTATCA 
    GGCTACCAGG GTGAGAAATG TGAAAAGCTG ATTAGTATAA ACTTCGTCAA CAAAGAATCC 
    TATCTGCAAA TCCCTTCAGC TAAGATACGC CCCCAAACCA ATATCACTCT ACAGATTGCC 
    ACAGATGAAG ACAGTGGGAT CCTGCTGTAC AAAGGCGATA AAGATCACAT AGCAGTGGAA 
    CTGTACCGGG GTAGAGTGAG GGTCAGCTAT GACACGGGAT CATATCCAGC CTCTGCTATT 
    TACAGTGTGG AAACAATTAA TGATGGCAAT TTCCACATTG TGGAACTGCT AGCTATGGAT 
    CAGATTCTAT CTTTATCTAT TGATGGAGGA AGCCCCAAGA CAATTACCAA TTTGTCCAAG 
    CAATCCACTC TGAATTTTGA TTCTCCGCTG TATGTAGGAG GCATGCCTGT GAAAAATAAT 
    ATAGCAGCTT TGCGCCAGTC GCCAGGGCAG AACGGCACCA GCTTCCATGG TTGCATCCGT 
    AATCTGTATA TCAACAGCGA ACTCCAGGAC TTCAGAAATG TGCCCCTGCA AGTGGGAATT 
    CTGCCAGGGT GTGAGCCTTG CCATAAGAAG GTTTGTGTGC ATGGCACATG CCATGCTACC 
    AGCCAGTCAG GCTTCTCCTG TGAGTGCGAA GGAGGATGGA CCGGACCACT CTGTGATCAG 
    CAAACTAACG ACCCGTGTCT TGGAAATAAA TGTGTGCATG GTACCTGCTT GCCGATCAAT 
    GCATTTTCAT ACAGTTGTAA ATGCCTGCAG GGACATGGGG GAGTCCTCTG TGATGAAGAG 
    GAAATGCTGC TTAACCCCTG CCAATCCATC AAGTGTAAAC ATGGCAAATG TAGGCTTTCA 
    GGACTTGGGA AACCATATTG CGAATGCAGC AGCGGATACA CGGGGGACAG TTGTGATAAA 
    GAAATCTCTT GTCGAGGGGA ACGAGTCCGA GATTACTACC AAAAGCAGCA AGGCTATGCT 
    GCGTGCCAGA CGACCAAGAA GGTATCGAGA CTAGAATGTA AAGGCGGGTG CTCGGCCGGG 
    CAGTGCTGCG GGCCGCTGCG CAGCAAGAGG CGGAAATACT CCTTCGAGTG CACTGACGGG 
    TCGTCGTTTG TGGACGAGGT GGAAAAAGTG GTGAAGTGTG GCTGTACAAA TTGTCCCTCC 
    TAA

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

    RefSeq XP_030126691.1
    CDS23..4585
    Translation

    Target ORF information:

    RefSeq Version XM_030270831.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X13, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030270831.1

    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
    ATGATGTGCG GCTGGGGGAA GTTCACCTTG CCCCTGGGGC TGCTGCTGGC GATGGCGGGC 
    GCGGTGGCGC CGCAGCCGTG CCCGGCGCAG TGCTCCTGCT CGGGGAGCAC CGTGGACTGT 
    CACGGGCTGG CGCTGCGCGG CGTCCCGAGG AACATCCCCC GCAACACCGA GAGGCTGGAT 
    CTTAATGGGA ATAACATCAC AAGAATCACG AAGACTGACT TTGCTGGTCT AAGGCACCTT 
    CGAGTTCTTC AGCTCATGGA GAACAAGATT AGTACTATTG AGAGGGGAGC ATTCCAAGAT 
    TTAAAAGAAC TGGAGAGGCT GCGCCTAAAC AGAAATAACC TCCAGTTGCT TTCTGAGCTG 
    CTCTTTCTGG GGACGCCGAA GTTATACAGG CTTGATCTTA GTGAAAATCA GATTCAAGCA 
    ATACCAAGGA AGGCATTCCG AGGAGCAGTA GACATAAAAA ATCTGCAACT GGATTACAAC 
    CAGATCAGCT GTATTGAAGA TGGGGCATTT AGGGCTCTGC GTGACCTGGA AGTGCTCACT 
    CTCAACAATA ACAACATCAC TCGACTATCC GTGGCAAGTT TCAACCATAT GCCCAAACTC 
    AGAACATTCC GCCTTCACTC CAACAACCTG TACTGCGACT GCCACCTGGC CTGGCTGTCG 
    GACTGGCTGC GGCAGCGGCC ACGAGTGGGG CTCTACACGC AGTGCATGGG CCCGTCCCAC 
    CTCCGAGGGC ACAACGTGGC CGAGGTCCAG AAGCGCGAGT TTGTCTGCAG CGGTCACCAG 
    TCCTTTATGG CTCCATCCTG CAGTGTCTTG CACTGCCCTA CTGCATGCAC CTGTAGCAAC 
    AACATTGTGG ACTGTCGTGG GAAAGGCCTT ACAGAGATCC CAACAAACCT GCCAGAAACC 
    ATCACTGAAA TACGGTTAGA ACAAAATTCA ATCAAGGTCA TACCTCCTGG AGCTTTCTCC 
    CCCTATAAAA AGCTTCGAAG AATTGACCTG AGCAATAACC AGATCTCTGA AGCAGCTCCA 
    GATGCTTTCC AGGGCTTACG TTCACTCAAT TCACTAGTCC TCTATGGCAA TAAAATCACA 
    GAACTTCCAA AGGGCCTATT TGAAGGACTC TTTTCTCTGC AACTGCTATT ATTGAATGCC 
    AACAAGATCA ATTGTCTGCG AGTTGATGCA TTTCAAGATC TGCACAACTT GAATCTTCTT 
    TCTTTGTATG ACAACAAGCT TCAGACCATT GCAAAAGGCA CCTTCTCACC CCTACGTGCG 
    ATTCAGACCT TGCATTTGGC TCAGAACCCA TTTATCTGTG ACTGCCATCT GAAGTGGCTG 
    GCGGATTACC TTCATACAAA CCCCATTGAG ACCAGTGGTG CCCGTTGCAC CAGCCCCCGC 
    CGTCTGGCAA ACAAAAGGAT CGGCCAGATC AAAAGCAAGA AATTCCGCTG CTCAGGCACT 
    GAAGATTACA GATCCAAATT AAGTGGAGAC TGCTTTGCAG ATCTGGCTTG CCCTGAGAAA 
    TGTCGCTGTG AAGGGACCAC AGTGGACTGC TCCAATCAGA AACTCAACAA AATTCCTGAT 
    CACATTCCCC AGTACACAGC AGAGTTGCGA CTAAATAACA ATGAATTTTC AGTCTTGGAA 
    GCTACTGGAA TCTTTAAGAA ACTTCCTCAG CTGCGTAAAA TAAACCTGAG CAATAACAAG 
    ATTACAGATA TAGAAGAAGG AGCATTTGAT GGGGCCTCTG GTGTGAATGA ACTATTGCTC 
    ACAAGCAATC GCTTGGAGAG TGTTCAACAC AAAATGTTCA AGGGACTAGA AAGTCTCAAA 
    ACACTGATGC TGAGGAGCAA CAGGGTGAGC TGTGTGGGAA ATGACAGCTT CACAGGGCTG 
    AGCTCTGTCC GCCTGCTCTC GCTGTATGAC AACCAGATCA CCACCGTGGC ACCCGGCTCC 
    TTCGACACGC TGCATTCGCT CTCTACGCTA AACCTCTTGG CCAATCCCTT CAACTGCAAC 
    TGCCATCTTG CATGGCTTGG AGACTGGCTA AGGAAGAAAC GCATTGTGAC AGGGAACCCT 
    CGTTGCCAAA AACCCTACTT CCTCAAGGAG ATTCCGATCC AGGATGTGGC AATTCAGGAT 
    TTTACATGTG ATGATGGAAA TGATGACAAT AGCTGTTCTC CCCTGGCCCG CTGCCCTGCA 
    GAATGTACTT GTCTGGACAC AGTAGTTCGC TGCAGCAACA AAGGTCTAAA AGCTTTGCCT 
    AAAGGCATCC CAAAAGATGT GACTGAACTT TATTTGGATG GAAATCAGTT TACCCTTGTT 
    CCAAAAGAGC TTTCCAACTA CAAGCATTTG ACACTCATAG ATTTAAGTAA CAACAGAATC 
    AGCACTCTTT CTAATCAGAG CTTCAGCAAC ATGACTCAGC TGCTCACCTT AATTCTTAGT 
    TACAACCGCC TAAGATGTAT TCCTGCACGG ACTTTTGATG GGTTGAAATC ACTTAGGTTG 
    TTGTCTTTAC ATGGCAATGA TATTTCTGTT GTTCCTGAAG GAGCCTTTAA TGATCTTTCA 
    GCATTATCAC ACCTGGCTAT TGGCGCAAAT CCTCTTTATT GTGATTGTAA TATGCAGTGG 
    CTATCTGACT GGGTAAAATC AGAATACAAA GAACCTGGTA TTGCACGTTG TGCTGGTCCT 
    GGAGAAATGG CAGATAAACT TCTTCTCACA ACTCCTTCTA AGAAATTTAC TTGCCAAGGG 
    CCCGTGGATG TTAATATTCT TGCAAAGTGT AATCCCTGTT TATCAAATCC GTGTAAAAAT 
    GATGGAACCT GTAATAATGA TCCAGTTGAC TTCTATAGAT GTACATGCCC ATATGGTTTC 
    AAGGGCCAAG ACTGTGATAT TCCCATTCAT GCTTGCATTA GTAACCCGTG CAACCATGGT 
    GGAACTTGTC ATTTGAAAGA AGGAGAAAAA GATGGTTTCT GGTGCACTTG TGCAGATGGA 
    TTTGAAGGTG AAAACTGTGA AGTAAATGTC GATGACTGTG AAGACAATGA CTGTGAAAAC 
    AATTCTACTT GTGTGGATGG AATTAATAAC TATACTTGCC TTTGTCCACC TGAATATACA 
    GGTGAACTCT GTGAGGAGAA ATTAGATTTC TGTGCCCAAA ACCTGAATCC TTGCCAGCAT 
    GATTCAAAGT GTATCTTAAC ACCCAAAGGA TACAAGTGTG ATTGCACACC TGGATATGTA 
    GGTGAGCATT GTGATATTGA CTTTGACGAC TGCCAGGACA ACAAATGTAA AAACGGAGCG 
    CAGTGCACTG ACGCAGTTAA TGGATATACG TGCGTTTGCC CAGAAGGGTA CAGTGGCTTG 
    TTCTGTGAGT TATCGCCGCC AATGGTTCTA CCTCGCACCA GCCCTTGTGA TAATTATGAA 
    TGTCAAAATG GGGCCCAGTG TATCATAAAA GAAAGTGAAC CAATCTGTCA GTGTTTATCA 
    GGCTACCAGG GTGAGAAATG TGAAAAGCTG ATTAGTATAA ACTTCGTCAA CAAAGAATCC 
    TATCTGCAAA TCCCTTCAGC TAAGATACGC CCCCAAACCA ATATCACTCT ACAGATTGCC 
    ACAGATGAAG ACAGTGGGAT CCTGCTGTAC AAAGGCGATA AAGATCACAT AGCAGTGGAA 
    CTGTACCGGG GTAGAGTGAG GGTCAGCTAT GACACGGGAT CATATCCAGC CTCTGCTATT 
    TACAGTGTGG AAACAATTAA TGATGGCAAT TTCCACATTG TGGAACTGCT AGCTATGGAT 
    CAGATTCTAT CTTTATCTAT TGATGGAGGA AGCCCCAAGA CAATTACCAA TTTGTCCAAG 
    CAATCCACTC TGAATTTTGA TTCTCCGCTG TATGTAGGAG GCATGCCTGT GAAAAATAAT 
    ATAGCAGCTT TGCGCCAGTC GCCAGGGCAG AACGGCACCA GCTTCCATGG TTGCATCCGT 
    AATCTGTATA TCAACAGCGA ACTCCAGGAC TTCAGAAATG TGCCCCTGCA AGTGGGAATT 
    CTGCCAGGGT GTGAGCCTTG CCATAAGAAG GTTTGTGTGC ATGGCACATG CCATGCTACC 
    AGCCAGTCAG GCTTCTCCTG TGAGTGCGAA GGAGGATGGA CCGGACCACT CTGTGATCAG 
    CAAACTAACG ACCCGTGTCT TGGAAATAAA TGTGTGCATG GTACCTGCTT GCCGATCAAT 
    GCATTTTCAT ACAGTTGTAA ATGCCTGCAG GGACATGGGG GAGTCCTCTG TGATGAAGAG 
    GAAATGCTGC TTAACCCCTG CCAATCCATC AAGTGTAAAC ATGGCAAATG TAGGCTTTCA 
    GGACTTGGGA AACCATATTG CGAATGCAGC AGCGGATACA CGGGGGACAG TTGTGATAAA 
    GAAATCTCTT GTCGAGGGGA ACGAGTCCGA GATTACTACC AAAAGCAGCA AGGCTATGCT 
    GCGTGCCAGA CGACCAAGAA GGTATCGAGA CTAGAATGTA AAGGCGGGTG CTCGGCCGGG 
    CAGTGCTGCG GGCCGCTGCG CAGCAAGAGG CGGAAATACT CCTTCGAGTG CACTGACGGG 
    TCGTCGTTTG TGGACGAGGT GGAAAAAGTG GTGAAGTGTG GCTGTACAAA TTGTCCCTCC 
    TAA

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

    SLIT2 ( XM_030270832.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030126692.1 Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X14, mRNA.
    Price & Availability↑
    CloneID OTd44186
    Clone ID Related Accession (Same CDS sequence) XM_030270832.1
    Accession Version XM_030270832.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4530bp)
    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 2019-08-08
    Organism Taeniopygia guttata(zebra finch)
    Product slit homolog 2 protein isoform X14
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044215.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGATGTGCG GCTGGGGGAA GTTCACCTTG CCCCTGGGGC TGCTGCTGGC GATGGCGGGC 
    GCGGTGGCGC CGCAGCCGTG CCCGGCGCAG TGCTCCTGCT CGGGGAGCAC CGTGGACTGT 
    CACGGGCTGG CGCTGCGCGG CGTCCCGAGG AACATCCCCC GCAACACCGA GAGGCTGGAT 
    CTTAATGGGA ATAACATCAC AAGAATCACG AAGACTGACT TTGCTGGTCT AAGGCACCTT 
    CGAGTTCTTC AGCTCATGGA GAACAAGATT AGTACTATTG AGAGGGGAGC ATTCCAAGAT 
    TTAAAAGAAC TGGAGAGGCT GCGCCTAAAC AGAAATAACC TCCAGTTGCT TTCTGAGCTG 
    CTCTTTCTGG GGACGCCGAA GTTATACAGG CTTGATCTTA GTGAAAATCA GATTCAAGCA 
    ATACCAAGGA AGGCATTCCG AGGAGCAGTA GACATAAAAA ATCTGCAACT GGATTACAAC 
    CAGATCAGCT GTATTGAAGA TGGGGCATTT AGGGCTCTGC GTGACCTGGA AGTGCTCACT 
    CTCAACAATA ACAACATCAC TCGACTATCC GTGGCAAGTT TCAACCATAT GCCCAAACTC 
    AGAACATTCC GCCTTCACTC CAACAACCTG TACTGCGACT GCCACCTGGC CTGGCTGTCG 
    GACTGGCTGC GGCAGCGGCC ACGAGTGGGG CTCTACACGC AGTGCATGGG CCCGTCCCAC 
    CTCCGAGGGC ACAACGTGGC CGAGGTCCAG AAGCGCGAGT TTGTCTGCAG CGATGAGGAA 
    GAAGGTCACC AGTCCTTTAT GGCTCCATCC TGCAGTGTCT TGCACTGCCC TACTGCATGC 
    ACCTGTAGCA ACAACATTGT GGACTGTCGT GGGAAAGGCC TTACAGAGAT CCCAACAAAC 
    CTGCCAGAAA CCATCACTGA AATACGGTTA GAACAAAATT CAATCAAGGT CATACCTCCT 
    GGAGCTTTCT CCCCCTATAA AAAGCTTCGA AGAATTGACC TGAGCAATAA CCAGATCTCT 
    GAAGCAGCTC CAGATGCTTT CCAGGGCTTA CGTTCACTCA ATTCACTAGT CCTCTATGGC 
    AATAAAATCA CAGAACTTCC AAAGGGCCTA TTTGAAGGAC TCTTTTCTCT GCAACTGCTA 
    TTATTGAATG CCAACAAGAT CAATTGTCTG CGAGTTGATG CATTTCAAGA TCTGCACAAC 
    TTGAATCTTC TTTCTTTGTA TGACAACAAG CTTCAGACCA TTGCAAAAGG CACCTTCTCA 
    CCCCTACGTG CGATTCAGAC CTTGCATTTG GCTCAGAACC CATTTATCTG TGACTGCCAT 
    CTGAAGTGGC TGGCGGATTA CCTTCATACA AACCCCATTG AGACCAGTGG TGCCCGTTGC 
    ACCAGCCCCC GCCGTCTGGC AAACAAAAGG ATCGGCCAGA TCAAAAGCAA GAAATTCCGC 
    TGCTCAGCTA AAGAACAGTA TTTCATTCCA GGAGTTCACC ATTTTGGCTG CACTGAAGAT 
    TACAGATCCA AATTAAGTGG AGACTGCTTT GCAGATCTGG CTTGCCCTGA GAAATGTCGC 
    TGTGAAGGGA CCACAGTGGA CTGCTCCAAT CAGAAACTCA ACAAAATTCC TGATCACATT 
    CCCCAGTACA CAGCAGAGTT GCGACTAAAT AACAATGAAT TTTCAGTCTT GGAAGCTACT 
    GGAATCTTTA AGAAACTTCC TCAGCTGCGT AAAATAAACC TGAGCAATAA CAAGATTACA 
    GATATAGAAG AAGGAGCATT TGATGGGGCC TCTGGTGTGA ATGAACTATT GCTCACAAGC 
    AATCGCTTGG AGAGTGTTCA ACACAAAATG TTCAAGGGAC TAGAAAGTCT CAAAACACTG 
    ATGCTGAGGA GCAACAGGGT GAGCTGTGTG GGAAATGACA GCTTCACAGG GCTGAGCTCT 
    GTCCGCCTGC TCTCGCTGTA TGACAACCAG ATCACCACCG TGGCACCCGG CTCCTTCGAC 
    ACGCTGCATT CGCTCTCTAC GCTAAACCTC TTGGCCAATC CCTTCAACTG CAACTGCCAT 
    CTTGCATGGC TTGGAGACTG GCTAAGGAAG AAACGCATTG TGACAGGGAA CCCTCGTTGC 
    CAAAAACCCT ACTTCCTCAA GGAGATTCCG ATCCAGGATG TGGCAATTCA GGATTTTACA 
    TGTGATGATG GAAATGATGA CAATAGCTGT TCTCCCCTGG CCCGCTGCCC TGCAGAATGT 
    ACTTGTCTGG ACACAGTAGT TCGCTGCAGC AACAAAGGTC TAAAAGCTTT GCCTAAAGGC 
    ATCCCAAAAG ATGTGACTGA ACTTTATTTG GATGGAAATC AGTTTACCCT TGTTCCAAAA 
    GAGCTTTCCA ACTACAAGCA TTTGACACTC ATAGATTTAA GTAACAACAG AATCAGCACT 
    CTTTCTAATC AGAGCTTCAG CAACATGACT CAGCTGCTCA CCTTAATTCT TAGTTACAAC 
    CGCCTAAGAT GTATTCCTGC ACGGACTTTT GATGGGTTGA AATCACTTAG GTTGTTGTCT 
    TTACATGGCA ATGATATTTC TGTTGTTCCT GAAGGAGCCT TTAATGATCT TTCAGCATTA 
    TCACACCTGG CTATTGGCGC AAATCCTCTT TATTGTGATT GTAATATGCA GTGGCTATCT 
    GACTGGGTAA AATCAGAATA CAAAGAACCT GGTATTGCAC GTTGTGCTGG TCCTGGAGAA 
    ATGGCAGATA AACTTCTTCT CACAACTCCT TCTAAGAAAT TTACTTGCCA AGGGCCCGTG 
    GATGTTAATA TTCTTGCAAA GTGTAATCCC TGTTTATCAA ATCCGTGTAA AAATGATGGA 
    ACCTGTAATA ATGATCCAGT TGACTTCTAT AGATGTACAT GCCCATATGG TTTCAAGGGC 
    CAAGACTGTG ATATTCCCAT TCATGCTTGC ATTAGTAACC CGTGCAACCA TGGTGGAACT 
    TGTCATTTGA AAGAAGGAGA AAAAGATGGT TTCTGGTGCA CTTGTGCAGA TGGATTTGAA 
    GGTGAAAACT GTGAAGTAAA TGTCGATGAC TGTGAAGACA ATGACTGTGA AAACAATTCT 
    ACTTGTGTGG ATGGAATTAA TAACTATACT TGCCTTTGTC CACCTGAATA TACAGCTGCT 
    AATCTGAATG AAGTGGAGAA AGGTGAACTC TGTGAGGAGA AATTAGATTT CTGTGCCCAA 
    AACCTGAATC CTTGCCAGCA TGATTCAAAG TGTATCTTAA CACCCAAAGG ATACAAGTGT 
    GATTGCACAC CTGGATATGT AGGTGAGCAT TGTGATATTG ACTTTGACGA CTGCCAGGAC 
    AACAAATGTA AAAACGGAGC GCAGTGCACT GACGCAGTTA ATGGATATAC GTGCGTTTGC 
    CCAGAAGGGT ACAGTGGCTT GTTCTGTGAG TTATCGCCGC CAATGGTTCT ACCTCGCACC 
    AGCCCTTGTG ATAATTATGA ATGTCAAAAT GGGGCCCAGT GTATCATAAA AGAAAGTGAA 
    CCAATCTGTC AGTGTTTATC AGGCTACCAG GGTGAGAAAT GTGAAAAGCT GATTAGTATA 
    AACTTCGTCA ACAAAGAATC CTATCTGCAA ATCCCTTCAG CTAAGATACG CCCCCAAACC 
    AATATCACTC TACAGATTGC CACAGATGAA GACAGTGGGA TCCTGCTGTA CAAAGGCGAT 
    AAAGATCACA TAGCAGTGGA ACTGTACCGG GGTAGAGTGA GGGTCAGCTA TGACACGGGA 
    TCATATCCAG CCTCTGCTAT TTACAGTGTG GAAACAATTA ATGATGGCAA TTTCCACATT 
    GTGGAACTGC TAGCTATGGA TCAGATTCTA TCTTTATCTA TTGATGGAGG AAGCCCCAAG 
    ACAATTACCA ATTTGTCCAA GCAATCCACT CTGAATTTTG ATTCTCCGCT GTATGTAGGA 
    GGCATGCCTG TGAAAAATAA TATAGCAGCT TTGCGCCAGT CGCCAGGGCA GAACGGCACC 
    AGCTTCCATG GTTGCATCCG TAATCTGTAT ATCAACAGCG AACTCCAGGA CTTCAGAAAT 
    GTGCCCCTGC AAGTGGGAAT TCTGCCAGGG TGTGAGCCTT GCCATAAGAA GGTTTGTGTG 
    CATGGCACAT GCCATGCTAC CAGCCAGTCA GGCTTCTCCT GTGAGTGCGA AGGAGGATGG 
    ACCGGACCAC TCTGTGATCA GCAAACTAAC GACCCGTGTC TTGGAAATAA GGACATGGGG 
    GAGTCCTCTG TGATGAAGAG GAAATGCTGC TTAACCCCTG CCAATCCATC AAGTGTAAAC 
    ATGGCAAATG TAGGCTTTCA GGACTTGGGA AACCATATTG CGAATGCAGC AGCGGATACA 
    CGGGGGACAG TTGTGATAAA GCCAAATCCA ATGATTCTGC TCCTAGTTTT ATCACAAACT 
    CTACTTTTGA CCTCTCAGCT TCAACTGATT TATCACAGCG AATTATGCAG AAATCTCTTG 
    TCGAGGGGAA CGAGTCCGAG ATTACTACCA AAAGCAGCAA GGCTATGCTG CGTGCCAGAC 
    GACCAAGAAG GTATCGAGAC TAGAATGTAA

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

    RefSeq XP_030126692.1
    CDS23..4552
    Translation

    Target ORF information:

    RefSeq Version XM_030270832.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata slit guidance ligand 2 (SLIT2), transcript variant X14, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030270832.1

    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
    ATGATGTGCG GCTGGGGGAA GTTCACCTTG CCCCTGGGGC TGCTGCTGGC GATGGCGGGC 
    GCGGTGGCGC CGCAGCCGTG CCCGGCGCAG TGCTCCTGCT CGGGGAGCAC CGTGGACTGT 
    CACGGGCTGG CGCTGCGCGG CGTCCCGAGG AACATCCCCC GCAACACCGA GAGGCTGGAT 
    CTTAATGGGA ATAACATCAC AAGAATCACG AAGACTGACT TTGCTGGTCT AAGGCACCTT 
    CGAGTTCTTC AGCTCATGGA GAACAAGATT AGTACTATTG AGAGGGGAGC ATTCCAAGAT 
    TTAAAAGAAC TGGAGAGGCT GCGCCTAAAC AGAAATAACC TCCAGTTGCT TTCTGAGCTG 
    CTCTTTCTGG GGACGCCGAA GTTATACAGG CTTGATCTTA GTGAAAATCA GATTCAAGCA 
    ATACCAAGGA AGGCATTCCG AGGAGCAGTA GACATAAAAA ATCTGCAACT GGATTACAAC 
    CAGATCAGCT GTATTGAAGA TGGGGCATTT AGGGCTCTGC GTGACCTGGA AGTGCTCACT 
    CTCAACAATA ACAACATCAC TCGACTATCC GTGGCAAGTT TCAACCATAT GCCCAAACTC 
    AGAACATTCC GCCTTCACTC CAACAACCTG TACTGCGACT GCCACCTGGC CTGGCTGTCG 
    GACTGGCTGC GGCAGCGGCC ACGAGTGGGG CTCTACACGC AGTGCATGGG CCCGTCCCAC 
    CTCCGAGGGC ACAACGTGGC CGAGGTCCAG AAGCGCGAGT TTGTCTGCAG CGATGAGGAA 
    GAAGGTCACC AGTCCTTTAT GGCTCCATCC TGCAGTGTCT TGCACTGCCC TACTGCATGC 
    ACCTGTAGCA ACAACATTGT GGACTGTCGT GGGAAAGGCC TTACAGAGAT CCCAACAAAC 
    CTGCCAGAAA CCATCACTGA AATACGGTTA GAACAAAATT CAATCAAGGT CATACCTCCT 
    GGAGCTTTCT CCCCCTATAA AAAGCTTCGA AGAATTGACC TGAGCAATAA CCAGATCTCT 
    GAAGCAGCTC CAGATGCTTT CCAGGGCTTA CGTTCACTCA ATTCACTAGT CCTCTATGGC 
    AATAAAATCA CAGAACTTCC AAAGGGCCTA TTTGAAGGAC TCTTTTCTCT GCAACTGCTA 
    TTATTGAATG CCAACAAGAT CAATTGTCTG CGAGTTGATG CATTTCAAGA TCTGCACAAC 
    TTGAATCTTC TTTCTTTGTA TGACAACAAG CTTCAGACCA TTGCAAAAGG CACCTTCTCA 
    CCCCTACGTG CGATTCAGAC CTTGCATTTG GCTCAGAACC CATTTATCTG TGACTGCCAT 
    CTGAAGTGGC TGGCGGATTA CCTTCATACA AACCCCATTG AGACCAGTGG TGCCCGTTGC 
    ACCAGCCCCC GCCGTCTGGC AAACAAAAGG ATCGGCCAGA TCAAAAGCAA GAAATTCCGC 
    TGCTCAGCTA AAGAACAGTA TTTCATTCCA GGAGTTCACC ATTTTGGCTG CACTGAAGAT 
    TACAGATCCA AATTAAGTGG AGACTGCTTT GCAGATCTGG CTTGCCCTGA GAAATGTCGC 
    TGTGAAGGGA CCACAGTGGA CTGCTCCAAT CAGAAACTCA ACAAAATTCC TGATCACATT 
    CCCCAGTACA CAGCAGAGTT GCGACTAAAT AACAATGAAT TTTCAGTCTT GGAAGCTACT 
    GGAATCTTTA AGAAACTTCC TCAGCTGCGT AAAATAAACC TGAGCAATAA CAAGATTACA 
    GATATAGAAG AAGGAGCATT TGATGGGGCC TCTGGTGTGA ATGAACTATT GCTCACAAGC 
    AATCGCTTGG AGAGTGTTCA ACACAAAATG TTCAAGGGAC TAGAAAGTCT CAAAACACTG 
    ATGCTGAGGA GCAACAGGGT GAGCTGTGTG GGAAATGACA GCTTCACAGG GCTGAGCTCT 
    GTCCGCCTGC TCTCGCTGTA TGACAACCAG ATCACCACCG TGGCACCCGG CTCCTTCGAC 
    ACGCTGCATT CGCTCTCTAC GCTAAACCTC TTGGCCAATC CCTTCAACTG CAACTGCCAT 
    CTTGCATGGC TTGGAGACTG GCTAAGGAAG AAACGCATTG TGACAGGGAA CCCTCGTTGC 
    CAAAAACCCT ACTTCCTCAA GGAGATTCCG ATCCAGGATG TGGCAATTCA GGATTTTACA 
    TGTGATGATG GAAATGATGA CAATAGCTGT TCTCCCCTGG CCCGCTGCCC TGCAGAATGT 
    ACTTGTCTGG ACACAGTAGT TCGCTGCAGC AACAAAGGTC TAAAAGCTTT GCCTAAAGGC 
    ATCCCAAAAG ATGTGACTGA ACTTTATTTG GATGGAAATC AGTTTACCCT TGTTCCAAAA 
    GAGCTTTCCA ACTACAAGCA TTTGACACTC ATAGATTTAA GTAACAACAG AATCAGCACT 
    CTTTCTAATC AGAGCTTCAG CAACATGACT CAGCTGCTCA CCTTAATTCT TAGTTACAAC 
    CGCCTAAGAT GTATTCCTGC ACGGACTTTT GATGGGTTGA AATCACTTAG GTTGTTGTCT 
    TTACATGGCA ATGATATTTC TGTTGTTCCT GAAGGAGCCT TTAATGATCT TTCAGCATTA 
    TCACACCTGG CTATTGGCGC AAATCCTCTT TATTGTGATT GTAATATGCA GTGGCTATCT 
    GACTGGGTAA AATCAGAATA CAAAGAACCT GGTATTGCAC GTTGTGCTGG TCCTGGAGAA 
    ATGGCAGATA AACTTCTTCT CACAACTCCT TCTAAGAAAT TTACTTGCCA AGGGCCCGTG 
    GATGTTAATA TTCTTGCAAA GTGTAATCCC TGTTTATCAA ATCCGTGTAA AAATGATGGA 
    ACCTGTAATA ATGATCCAGT TGACTTCTAT AGATGTACAT GCCCATATGG TTTCAAGGGC 
    CAAGACTGTG ATATTCCCAT TCATGCTTGC ATTAGTAACC CGTGCAACCA TGGTGGAACT 
    TGTCATTTGA AAGAAGGAGA AAAAGATGGT TTCTGGTGCA CTTGTGCAGA TGGATTTGAA 
    GGTGAAAACT GTGAAGTAAA TGTCGATGAC TGTGAAGACA ATGACTGTGA AAACAATTCT 
    ACTTGTGTGG ATGGAATTAA TAACTATACT TGCCTTTGTC CACCTGAATA TACAGCTGCT 
    AATCTGAATG AAGTGGAGAA AGGTGAACTC TGTGAGGAGA AATTAGATTT CTGTGCCCAA 
    AACCTGAATC CTTGCCAGCA TGATTCAAAG TGTATCTTAA CACCCAAAGG ATACAAGTGT 
    GATTGCACAC CTGGATATGT AGGTGAGCAT TGTGATATTG ACTTTGACGA CTGCCAGGAC 
    AACAAATGTA AAAACGGAGC GCAGTGCACT GACGCAGTTA ATGGATATAC GTGCGTTTGC 
    CCAGAAGGGT ACAGTGGCTT GTTCTGTGAG TTATCGCCGC CAATGGTTCT ACCTCGCACC 
    AGCCCTTGTG ATAATTATGA ATGTCAAAAT GGGGCCCAGT GTATCATAAA AGAAAGTGAA 
    CCAATCTGTC AGTGTTTATC AGGCTACCAG GGTGAGAAAT GTGAAAAGCT GATTAGTATA 
    AACTTCGTCA ACAAAGAATC CTATCTGCAA ATCCCTTCAG CTAAGATACG CCCCCAAACC 
    AATATCACTC TACAGATTGC CACAGATGAA GACAGTGGGA TCCTGCTGTA CAAAGGCGAT 
    AAAGATCACA TAGCAGTGGA ACTGTACCGG GGTAGAGTGA GGGTCAGCTA TGACACGGGA 
    TCATATCCAG CCTCTGCTAT TTACAGTGTG GAAACAATTA ATGATGGCAA TTTCCACATT 
    GTGGAACTGC TAGCTATGGA TCAGATTCTA TCTTTATCTA TTGATGGAGG AAGCCCCAAG 
    ACAATTACCA ATTTGTCCAA GCAATCCACT CTGAATTTTG ATTCTCCGCT GTATGTAGGA 
    GGCATGCCTG TGAAAAATAA TATAGCAGCT TTGCGCCAGT CGCCAGGGCA GAACGGCACC 
    AGCTTCCATG GTTGCATCCG TAATCTGTAT ATCAACAGCG AACTCCAGGA CTTCAGAAAT 
    GTGCCCCTGC AAGTGGGAAT TCTGCCAGGG TGTGAGCCTT GCCATAAGAA GGTTTGTGTG 
    CATGGCACAT GCCATGCTAC CAGCCAGTCA GGCTTCTCCT GTGAGTGCGA AGGAGGATGG 
    ACCGGACCAC TCTGTGATCA GCAAACTAAC GACCCGTGTC TTGGAAATAA GGACATGGGG 
    GAGTCCTCTG TGATGAAGAG GAAATGCTGC TTAACCCCTG CCAATCCATC AAGTGTAAAC 
    ATGGCAAATG TAGGCTTTCA GGACTTGGGA AACCATATTG CGAATGCAGC AGCGGATACA 
    CGGGGGACAG TTGTGATAAA GCCAAATCCA ATGATTCTGC TCCTAGTTTT ATCACAAACT 
    CTACTTTTGA CCTCTCAGCT TCAACTGATT TATCACAGCG AATTATGCAG AAATCTCTTG 
    TCGAGGGGAA CGAGTCCGAG ATTACTACCA AAAGCAGCAA GGCTATGCTG CGTGCCAGAC 
    GACCAAGAAG GTATCGAGAC TAGAATGTAA

    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