adgrl3.1 cDNA ORF clone, Danio rerio(zebrafish)

The following adgrl3.1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the adgrl3.1 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
ODa147396 XM_021476346.1
Latest version!
Danio rerio adhesion G protein-coupled receptor L3.1 (adgrl3.1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
ODa05706 XM_005170940.4
Latest version!
Danio rerio adhesion G protein-coupled receptor L3.1 (adgrl3.1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
ODa05707 XM_005170941.4
Latest version!
Danio rerio adhesion G protein-coupled receptor L3.1 (adgrl3.1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
ODa05708 XM_005170942.4
Latest version!
Danio rerio adhesion G protein-coupled receptor L3.1 (adgrl3.1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
ODa05709 XM_684028.9
Latest version!
Danio rerio adhesion G protein-coupled receptor L3.1 (adgrl3.1), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
View Old Accession Versions >>
ODa05707 XM_005170941.3 Danio rerio adhesion G protein-coupled receptor L3.1 (adgrl3.1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
ODa05709 XM_684028.8 Danio rerio adhesion G protein-coupled receptor L3.1 (adgrl3.1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
ODa05706 XM_005170940.3 Danio rerio adhesion G protein-coupled receptor L3.1 (adgrl3.1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
ODa05708 XM_005170942.3 Danio rerio adhesion G protein-coupled receptor L3.1 (adgrl3.1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
Hide Old Accession Versions >>

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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)
    CloneID ODa147396
    Clone ID Related Accession (Same CDS sequence) XM_021476346.1
    Accession Version XM_021476346.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4497bp)
    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 2017-06-14
    Organism Danio rerio(zebrafish)
    Product adhesion G protein-coupled receptor L3 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007112.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    ATGGCTTTAA CGTGTCCGAG ACGCAGCTTC AGCGAGTCAG TGCAGAGGTC AACAGGGTCA 
    TCGGCGGTCA TGTGGTCCAC ACGCCTACTT TTCTTCTTCA CCCTCTTCAC ACCCGTCACG
    CTCGTTTTGA GTCGGGCTCC AGTGCCGATG GCTGTGGTGC GTCGAGAGCT GTCGTGTGAG
    GGTTATCCTA TCGAACTGCG CTGCCCGGGC ACTGATGTCA TTATGATCGA GAGCGCCAAT
    TATGGGCGCA CAGATGACAA GATCTGTGAC TCGGACCCCG CTCAAATGGA GAACACTCGC
    TGCTATCTGC CTGATGCCTA CAAGATTATG GGCTTCAGGT GTAACAACCG GACTCAGTGT
    GCAGTCGTTG CTGGCCCTGA TGTTTTTCCC GATCCGTGTC CTGGAACGTA CAAATACCTG
    GAGGTTCAGT ATGAGTGTGT GCCATACAAA GTGGAACAGA AAGTCTTTCT CTGCCCAGGT
    GTATTGAGAG GCGTGTACCA GAGTGAACAT CTCTTCGAAT CAGACCACCA GGCTGGATCA
    TGGTGTAAGG ACCCCTTACA GTCATCCAAT AAGATCTACT ACATGCCCTG GACACCGTAT
    CGCACAGACA CACTGACTGA GTATTCATCT AAGGAGGACT TTATTGCAGG TCGCCCTACC
    ACCACATACA AACTGCCCCA TCGGGTGGAC GGCACTGGGT TTGTGGTGTA TGATGGCGCG
    CTTTTCTTCA ACAAGGAACG TACACGCAAC ATTGTTAAAT TCGACTTGCG AACTCGTATC
    AAGAGTGGTG AGGCAATTAT CGCTAACGCT AATTACCATG ACACCTCGCC ATATCGCTGG
    GGTGGAAAGT CTGACATTGA TCTCGCAGTG GATGAAAATG GACTATGGGT GATTTATGCC
    ACCGAACAGA ACAATGGCCG AATCGTGGTC AGTCAGCTCA ACCCCTACAC ACTCAGAGTG
    GAGGGCTCAT GGGATACATC ATACGATAAG AGATCAGCCT CCAATGCCTT CATGATCTGC
    GGAATCCTTT ATGTCGTGAA GAGTGTTTAC GAAGATGACG ATAATGAAGC TCTAGGGAAT
    AAAATTGACT ACATGTACAA CACAGAGAAG AGCCGTGAAA CGCATCTTAG CATCCCATTT
    CCAAATTCCT ACCAATACAT CGCAGCCGTG GACTACAATC CCAGAGACAA CTTGCTGTAT
    GTGTGGAACA ACTACCATGT CGTCATATAT TCTCTCGACT TTGGAAACAA TGACAACAGA
    CTGGGCTTTG ATCCGCCTTC TTCAGTCTTG CTACCTGATC CTCTTCCTCC AGTACGCAGC
    TCCACGACTC CTCCACGCCC ATATACAGGC ACGCTCCGCC CCTCTCTCAC CACTACCACG
    ACGACCACCA TGGTTCCTCC TCGCCGCCAT AACAACGTCC TCCCAGAAGC CCTGACTCGA
    GCGCCTCCCT CCCCGCAGAC TCCCGTCACT GTTGACTATT GTGCCCCACG TCTCACTGCT
    GAAATCTCCT GGCCACGGAC ACACCAGGGA CAAGTTGCTA AGCAACCGTG CCCACCTGGC
    ACCATAGGTG TAGCCACGTT TAATTGTTTG CTTGGCTACT GGGACCCGAA GGGACCAGAT
    CTGAGCAACT GCACCTCACC GTGGACCAAT CATATCACTC AAAGAATGAG ATCGGGCGAA
    ACTGCTGCTA TAGTAGCCCG GGAATTGGCT GAACAGACAA AGGGAGAGTT GAGACCCGGA
    GATGTCCCAT CAACAGTCAA AGCCATGGCA CAGCTGGTGG AACTACTGGA CGTGCAGCTG
    CGAAACCTCA CCCCTGGGGG AAAAGACACC GCCGCACGCA GTTTAAACAA GCTCCAGAAG
    AGAGAACGGT CGTGCCGCTT CTTCATACAG GCCATGGTGG AGACGGTGAA TAACCTTCTG
    CAGGTGCGAT CTCAGGCGGC GTGGAGAGAG CTTTCTGTAG CCGAGCAGCT GCGATGCGCA
    ACCATGCTCC TGGACACGGT GGAGACGGGA GCCTTCATGC TCGCAGACAA CCTGTTAAAA
    ACAGACACCA TACAGGAGAG CACAGACAAC ATCCAACTGG AGGTGGCTCG GCTAAGTACA
    GATGTTAATC TGGCGGATCT AAGCTTCCCC CAATCTGGAC TAACCGGCAA CTCCATTCAT
    CTCTCAGCCA ACACACTCAA ACAGCAAGGA CGCAATGGTG AGATCCGTAT GGCGCTGGTT
    CTTTATAAGA ACCTCGGCCA ATACTTGTCC ACAGAGAATG CAAGCGTGCG TCTTGGCAGC
    GAAGCCGTCT ATCCAAACTA TTCCCTGATA GTCAACTCAC CTGTTATTAC AGCAGCCATT
    AATAAAGACA GTAACAAGGT CTACTTGTCT GAACCTGTGG TCTTCACTGT CAAGCACATA
    CAGCAGTCAG AAGAGAACTT CAATCCAAAC TGCTCTTTCT GGAGTTACTC TAAACGCACC
    ATGACAGGAT TCTGGTCCAC TCAGGACTGC AGACTGCTGG GCACCAACCG CACCCACACT
    TCTTGCTCCT GCACACACCT CACCAACTTT GCTGTGCTTA TGGCCCATGT GGAGGTGAAG
    AAAGCAGACC AGGTGCATGA GCTGCTATTG GACGTCATAA CATGGGTGGG GATCCTGCTG
    TCTCTGGTCT GCCTGCTCAT CTGCATCTTC ACCTTCTGTT TCTTCCGTGG TCTGCAAAGC
    GACAGGAACA CCATCCACAA AAACCTCTGC ATCTCCCTCT TTATTGCCGA AACCCTCTTC
    CTCACCGGGA TCAACCGTGC AGACCAGCCT ATCGTCTGCG CTGTGTTTGC GGCCCTGCTG
    CATTTCTTCT TCTTGGCTGC GTTTACGTGG ATGTTTCTGG AAGGCGTACA GCTGTACATC
    ATGCTGGTGG AAGTGTTCGA GAGCGAGTAC TCGCGCACCA AGTACTTCTA TCTCACAGGA
    TATGGAGTGC CAGCTGTCAT AGTAGCTGTA TCGGCTGCTG TGGACTACCG TAGCTACGGC
    ACTGAAAGAG TGTGCTGGCT CAGGTTAGAT ACTTACTTTA TCTGGAGTTT CATTGGGCCT
    GCTACTCTCA TCATCATGCT GAATGTTATT TTTCTGGGCA TTGCACTGTA TAAGATGTTT
    CACCATACAG CCATTCTCAA GCCTGACTCC GGTTGCCTGG ACAACATCAA GTCCTGGGTT
    ATAGGCGCTA TTGCTCTGCT GTGTCTGCTG GGTTTGACCT GGGCATTCGG GCTCATGTAT
    ATCAATGAGA GCACTGTCAT CATGGCCTAC CTCTTCACTA TCTTCAACTC GCTGCAGGGA
    ATGTTCATCT TCATATTTCA CTGCATCCTG CAGAAAAAGG TGCGTAAGGA ATATGGCCGA
    TGTCTCCGCA CACACTGCTG CAGTGGGAAG AGTGTGGAGT CAACCATCTC CACCTCAACA
    AAGACAAGCA CAGCCCGCAC ACCTGGACGC TACTCCACCA ACTCACAAAG TCGTATTCGT
    AGGATGTGGA ATGACACCGT CAGGAAGCAG TCAGAATCGT CTTTCATCAC CGCTGATATG
    AACAGCTCAG CGACTCTCAA TAGAGCCTCC TACAGAGATT CAAAGGGCAT TCTCAACAAC
    GCACGGGACT CCAGCGTCAT GGATACTCTG CCTCTTAATG GCAACCATGG CAACAGCTAT
    GGTGTGGCAG CAGGAGATTA CCTTACCTAC AGTTCCCGTG GCAGCGAGCC ACCAACTACG
    CTTGAGAAGA AGATCCTGAA AGAGCTGACG GCGAACTACG CTCCTTCATA CCTGAACACA
    CAGGAGCGAC AGGGAAAAGC CCACCAGGGC ACCCTGACAA ATAAACTCAA CAACCATCTG
    GCCAACGGAG GCGTCGCCGG ATCTTCGTCC ATCCCCAAAG ACGATGTCAT GGTGCTCGAC
    AACCCTGGAG CGTTTCACCG GCATGATGAC GGGGGTGGGT TAAGTCTGGA ACTCATTCGG
    GAGGAGTCAC AAGCTCCGCT CTTGCCACCG CGACCGCCCC CTCCTGAAAA CCACGCCCCC
    TTGCACACGT TCACTGCCCA TCGGCGCCTC CCACAGGAGA ACAGCGAGAG CTTTTTCCCC
    CTTCTCCCCA ATGACACACA CTCTTCCCAC ACACACACTC CCCGTGCGCA CACACACTCT
    CCCCTCAGAG ACTCGCTTTA TACCAGCATG CCCACGCTCA CCGACCTCCC GCACGGCACT
    GATGACCTCA TCAACGGTCT CCATGACGAT GAAGACGAAG AGGAGGAAGA AGACGGTGAG
    GAGGAAGAGG GCAGCGAGCT GCACTTGGCC AACGGCAAAG GGGTCATCAT GGAGTCGGAC
    GACGTGTACT ACAAAAGCAT GCCCAACCTG GGCTCCAGGA ACCACATACA GGAACTAGAG
    AGCTACTATC AGATGGGACG TGGCGGCAGT GACGGGTTCA TCGCCCCACC TGAGAAAGAA
    GACTCGTCGC CTGAAGAACA GCCACCAGAT CCTTCACAAC TGGTCACCAG CCTATAG

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

    RefSeq XP_021332021.1
    CDS583..5079
    Translation

    Target ORF information:

    RefSeq Version XM_021476346.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio adhesion G protein-coupled receptor L3.1 (adgrl3.1), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021476346.1

    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
    ATGGCTTTAA CGTGTCCGAG ACGCAGCTTC AGCGAGTCAG TGCAGAGGTC AACAGGGTCA 
    TCGGCGGTCA TGTGGTCCAC ACGCCTACTT TTCTTCTTCA CCCTCTTCAC ACCCGTCACG
    CTCGTTTTGA GTCGGGCTCC AGTGCCGATG GCTGTGGTGC GTCGAGAGCT GTCGTGTGAG
    GGTTATCCTA TCGAACTGCG CTGCCCGGGC ACTGATGTCA TTATGATCGA GAGCGCCAAT
    TATGGGCGCA CAGATGACAA GATCTGTGAC TCGGACCCCG CTCAAATGGA GAACACTCGC
    TGCTATCTGC CTGATGCCTA CAAGATTATG GGCTTCAGGT GTAACAACCG GACTCAGTGT
    GCAGTCGTTG CTGGCCCTGA TGTTTTTCCC GATCCGTGTC CTGGAACGTA CAAATACCTG
    GAGGTTCAGT ATGAGTGTGT GCCATACAAA GTGGAACAGA AAGTCTTTCT CTGCCCAGGT
    GTATTGAGAG GCGTGTACCA GAGTGAACAT CTCTTCGAAT CAGACCACCA GGCTGGATCA
    TGGTGTAAGG ACCCCTTACA GTCATCCAAT AAGATCTACT ACATGCCCTG GACACCGTAT
    CGCACAGACA CACTGACTGA GTATTCATCT AAGGAGGACT TTATTGCAGG TCGCCCTACC
    ACCACATACA AACTGCCCCA TCGGGTGGAC GGCACTGGGT TTGTGGTGTA TGATGGCGCG
    CTTTTCTTCA ACAAGGAACG TACACGCAAC ATTGTTAAAT TCGACTTGCG AACTCGTATC
    AAGAGTGGTG AGGCAATTAT CGCTAACGCT AATTACCATG ACACCTCGCC ATATCGCTGG
    GGTGGAAAGT CTGACATTGA TCTCGCAGTG GATGAAAATG GACTATGGGT GATTTATGCC
    ACCGAACAGA ACAATGGCCG AATCGTGGTC AGTCAGCTCA ACCCCTACAC ACTCAGAGTG
    GAGGGCTCAT GGGATACATC ATACGATAAG AGATCAGCCT CCAATGCCTT CATGATCTGC
    GGAATCCTTT ATGTCGTGAA GAGTGTTTAC GAAGATGACG ATAATGAAGC TCTAGGGAAT
    AAAATTGACT ACATGTACAA CACAGAGAAG AGCCGTGAAA CGCATCTTAG CATCCCATTT
    CCAAATTCCT ACCAATACAT CGCAGCCGTG GACTACAATC CCAGAGACAA CTTGCTGTAT
    GTGTGGAACA ACTACCATGT CGTCATATAT TCTCTCGACT TTGGAAACAA TGACAACAGA
    CTGGGCTTTG ATCCGCCTTC TTCAGTCTTG CTACCTGATC CTCTTCCTCC AGTACGCAGC
    TCCACGACTC CTCCACGCCC ATATACAGGC ACGCTCCGCC CCTCTCTCAC CACTACCACG
    ACGACCACCA TGGTTCCTCC TCGCCGCCAT AACAACGTCC TCCCAGAAGC CCTGACTCGA
    GCGCCTCCCT CCCCGCAGAC TCCCGTCACT GTTGACTATT GTGCCCCACG TCTCACTGCT
    GAAATCTCCT GGCCACGGAC ACACCAGGGA CAAGTTGCTA AGCAACCGTG CCCACCTGGC
    ACCATAGGTG TAGCCACGTT TAATTGTTTG CTTGGCTACT GGGACCCGAA GGGACCAGAT
    CTGAGCAACT GCACCTCACC GTGGACCAAT CATATCACTC AAAGAATGAG ATCGGGCGAA
    ACTGCTGCTA TAGTAGCCCG GGAATTGGCT GAACAGACAA AGGGAGAGTT GAGACCCGGA
    GATGTCCCAT CAACAGTCAA AGCCATGGCA CAGCTGGTGG AACTACTGGA CGTGCAGCTG
    CGAAACCTCA CCCCTGGGGG AAAAGACACC GCCGCACGCA GTTTAAACAA GCTCCAGAAG
    AGAGAACGGT CGTGCCGCTT CTTCATACAG GCCATGGTGG AGACGGTGAA TAACCTTCTG
    CAGGTGCGAT CTCAGGCGGC GTGGAGAGAG CTTTCTGTAG CCGAGCAGCT GCGATGCGCA
    ACCATGCTCC TGGACACGGT GGAGACGGGA GCCTTCATGC TCGCAGACAA CCTGTTAAAA
    ACAGACACCA TACAGGAGAG CACAGACAAC ATCCAACTGG AGGTGGCTCG GCTAAGTACA
    GATGTTAATC TGGCGGATCT AAGCTTCCCC CAATCTGGAC TAACCGGCAA CTCCATTCAT
    CTCTCAGCCA ACACACTCAA ACAGCAAGGA CGCAATGGTG AGATCCGTAT GGCGCTGGTT
    CTTTATAAGA ACCTCGGCCA ATACTTGTCC ACAGAGAATG CAAGCGTGCG TCTTGGCAGC
    GAAGCCGTCT ATCCAAACTA TTCCCTGATA GTCAACTCAC CTGTTATTAC AGCAGCCATT
    AATAAAGACA GTAACAAGGT CTACTTGTCT GAACCTGTGG TCTTCACTGT CAAGCACATA
    CAGCAGTCAG AAGAGAACTT CAATCCAAAC TGCTCTTTCT GGAGTTACTC TAAACGCACC
    ATGACAGGAT TCTGGTCCAC TCAGGACTGC AGACTGCTGG GCACCAACCG CACCCACACT
    TCTTGCTCCT GCACACACCT CACCAACTTT GCTGTGCTTA TGGCCCATGT GGAGGTGAAG
    AAAGCAGACC AGGTGCATGA GCTGCTATTG GACGTCATAA CATGGGTGGG GATCCTGCTG
    TCTCTGGTCT GCCTGCTCAT CTGCATCTTC ACCTTCTGTT TCTTCCGTGG TCTGCAAAGC
    GACAGGAACA CCATCCACAA AAACCTCTGC ATCTCCCTCT TTATTGCCGA AACCCTCTTC
    CTCACCGGGA TCAACCGTGC AGACCAGCCT ATCGTCTGCG CTGTGTTTGC GGCCCTGCTG
    CATTTCTTCT TCTTGGCTGC GTTTACGTGG ATGTTTCTGG AAGGCGTACA GCTGTACATC
    ATGCTGGTGG AAGTGTTCGA GAGCGAGTAC TCGCGCACCA AGTACTTCTA TCTCACAGGA
    TATGGAGTGC CAGCTGTCAT AGTAGCTGTA TCGGCTGCTG TGGACTACCG TAGCTACGGC
    ACTGAAAGAG TGTGCTGGCT CAGGTTAGAT ACTTACTTTA TCTGGAGTTT CATTGGGCCT
    GCTACTCTCA TCATCATGCT GAATGTTATT TTTCTGGGCA TTGCACTGTA TAAGATGTTT
    CACCATACAG CCATTCTCAA GCCTGACTCC GGTTGCCTGG ACAACATCAA GTCCTGGGTT
    ATAGGCGCTA TTGCTCTGCT GTGTCTGCTG GGTTTGACCT GGGCATTCGG GCTCATGTAT
    ATCAATGAGA GCACTGTCAT CATGGCCTAC CTCTTCACTA TCTTCAACTC GCTGCAGGGA
    ATGTTCATCT TCATATTTCA CTGCATCCTG CAGAAAAAGG TGCGTAAGGA ATATGGCCGA
    TGTCTCCGCA CACACTGCTG CAGTGGGAAG AGTGTGGAGT CAACCATCTC CACCTCAACA
    AAGACAAGCA CAGCCCGCAC ACCTGGACGC TACTCCACCA ACTCACAAAG TCGTATTCGT
    AGGATGTGGA ATGACACCGT CAGGAAGCAG TCAGAATCGT CTTTCATCAC CGCTGATATG
    AACAGCTCAG CGACTCTCAA TAGAGCCTCC TACAGAGATT CAAAGGGCAT TCTCAACAAC
    GCACGGGACT CCAGCGTCAT GGATACTCTG CCTCTTAATG GCAACCATGG CAACAGCTAT
    GGTGTGGCAG CAGGAGATTA CCTTACCTAC AGTTCCCGTG GCAGCGAGCC ACCAACTACG
    CTTGAGAAGA AGATCCTGAA AGAGCTGACG GCGAACTACG CTCCTTCATA CCTGAACACA
    CAGGAGCGAC AGGGAAAAGC CCACCAGGGC ACCCTGACAA ATAAACTCAA CAACCATCTG
    GCCAACGGAG GCGTCGCCGG ATCTTCGTCC ATCCCCAAAG ACGATGTCAT GGTGCTCGAC
    AACCCTGGAG CGTTTCACCG GCATGATGAC GGGGGTGGGT TAAGTCTGGA ACTCATTCGG
    GAGGAGTCAC AAGCTCCGCT CTTGCCACCG CGACCGCCCC CTCCTGAAAA CCACGCCCCC
    TTGCACACGT TCACTGCCCA TCGGCGCCTC CCACAGGAGA ACAGCGAGAG CTTTTTCCCC
    CTTCTCCCCA ATGACACACA CTCTTCCCAC ACACACACTC CCCGTGCGCA CACACACTCT
    CCCCTCAGAG ACTCGCTTTA TACCAGCATG CCCACGCTCA CCGACCTCCC GCACGGCACT
    GATGACCTCA TCAACGGTCT CCATGACGAT GAAGACGAAG AGGAGGAAGA AGACGGTGAG
    GAGGAAGAGG GCAGCGAGCT GCACTTGGCC AACGGCAAAG GGGTCATCAT GGAGTCGGAC
    GACGTGTACT ACAAAAGCAT GCCCAACCTG GGCTCCAGGA ACCACATACA GGAACTAGAG
    AGCTACTATC AGATGGGACG TGGCGGCAGT GACGGGTTCA TCGCCCCACC TGAGAAAGAA
    GACTCGTCGC CTGAAGAACA GCCACCAGAT CCTTCACAAC TGGTCACCAG CCTATAG

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

    CloneID ODa05706
    Clone ID Related Accession (Same CDS sequence) XM_005170940.4 , XM_005170940.3
    Accession Version XM_005170940.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4623bp)
    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 2017-06-14
    Organism Danio rerio(zebrafish)
    Product adhesion G protein-coupled receptor L3 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007112.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_005170940.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    ATGGCTTTAA CGTGTCCGAG ACGCAGCTTC AGCGAGTCAG TGCAGAGGTC AACAGGGTCA 
    TCGGCGGTCA TGTGGTCCAC ACGCCTACTT TTCTTCTTCA CCCTCTTCAC ACCCGTCACG
    CTCGTTTTGA GTCGGGCTCC AGTGCCGATG GCTGTGGTGC GTCGAGAGCT GTCGTGTGAG
    GGTTATCCTA TCGAACTGCG CTGCCCGGGC ACTGATGTCA TTATGATCGA GAGCGCCAAT
    TATGGGCGCA CAGATGACAA GATCTGTGAC TCGGACCCCG CTCAAATGGA GAACACTCGC
    TGCTATCTGC CTGATGCCTA CAAGATTATG GGCTTCAGGT GTAACAACCG GACTCAGTGT
    GCAGTCGTTG CTGGCCCTGA TGTTTTTCCC GATCCGTGTC CTGGAACGTA CAAATACCTG
    GAGGTTCAGT ATGAGTGTGT GCCATACAAA GTGGAACAGA AAGTCTTTCT CTGCCCAGGT
    GTATTGAGAG GCGTGTACCA GAGTGAACAT CTCTTCGAAT CAGACCACCA GGCTGGATCA
    TGGTGTAAGG ACCCCTTACA GTCATCCAAT AAGATCTACT ACATGCCCTG GACACCGTAT
    CGCACAGACA CACTGACTGA GTATTCATCT AAGGAGGACT TTATTGCAGG TCGCCCTACC
    ACCACATACA AACTGCCCCA TCGGGTGGAC GGCACTGGGT TTGTGGTGTA TGATGGCGCG
    CTTTTCTTCA ACAAGGAACG TACACGCAAC ATTGTTAAAT TCGACTTGCG AACTCGTATC
    AAGAGTGGTG AGGCAATTAT CGCTAACGCT AATTACCATG ACACCTCGCC ATATCGCTGG
    GGTGGAAAGT CTGACATTGA TCTCGCAGTG GATGAAAATG GACTATGGGT GATTTATGCC
    ACCGAACAGA ACAATGGCCG AATCGTGGTC AGTCAGCTCA ACCCCTACAC ACTCAGAGTG
    GAGGGCTCAT GGGATACATC ATACGATAAG AGATCAGCCT CCAATGCCTT CATGATCTGC
    GGAATCCTTT ATGTCGTGAA GAGTGTTTAC GAAGATGACG ATAATGAAGC TCTAGGGAAT
    AAAATTGACT ACATGTACAA CACAGAGAAG AGCCGTGAAA CGCATCTTAG CATCCCATTT
    CCAAATTCCT ACCAATACAT CGCAGCCGTG GACTACAATC CCAGAGACAA CTTGCTGTAT
    GTGTGGAACA ACTACCATGT CGTCATATAT TCTCTCGACT TTGGAAACAA TGACAACAGA
    CTGGGCTTTG ATCCGCCTTC TTCAGTCTTG CTACCTGATC CTCTTCCTCC AGTACGCAGC
    TCCACGACTC CTCCACGCCC ATATACAGGC ACGCTCCGCC CCTCTCTCAC CACTACCACG
    ACGACCACCA TGGTTCCTCC TCGCCGCCAT AACAACGTCC TCCCAGAAGC CCTGACTCGA
    GCGCCTCCCT CCCCGCAGAC TCCCGTCACT GTTGACTATT GTGCCCCACG TCTCACTGCT
    GAAATCTCCT GGCCACGGAC ACACCAGGGA CAAGTTGCTA AGCAACCGTG CCCACCTGGC
    ACCATAGGTG TAGCCACGTT TAATTGTTTG CTTGGCTACT GGGACCCGAA GGGACCAGAT
    CTGAGCAACT GCACCTCACC GTGGACCAAT CATATCACTC AAAGAATGAG ATCGGGCGAA
    ACTGCTGCTA TAGTAGCCCG GGAATTGGCT GAACAGACAA AGGGAGAGTT GAGACCCGGA
    GATGTCCCAT CAACAGTCAA AGCCATGGCA CAGCTGGTGG AACTACTGGA CGTGCAGCTG
    CGAAACCTCA CCCCTGGGGG AAAAGACACC GCCGCACGCA GTTTAAACAA GCTCCAGAAG
    AGAGAACGGT CGTGCCGCTT CTTCATACAG GCCATGGTGG AGACGGTGAA TAACCTTCTG
    CAGGTGCGAT CTCAGGCGGC GTGGAGAGAG CTTTCTGTAG CCGAGCAGCT GCGATGCGCA
    ACCATGCTCC TGGACACGGT GGAGACGGGA GCCTTCATGC TCGCAGACAA CCTGTTAAAA
    ACAGACACCA TACAGGAGAG CACAGACAAC ATCCAACTGG AGGTGGCTCG GCTAAGTACA
    GATGTTAATC TGGCGGATCT AAGCTTCCCC CAATCTGGAC TAACCGGCAA CTCCATTCAT
    CTCTCAGCCA ACACACTCAA ACAGCAAGGA CGCAATGGTG AGATCCGTAT GGCGCTGGTT
    CTTTATAAGA ACCTCGGCCA ATACTTGTCC ACAGAGAATG CAAGCGTGCG TCTTGGCAGC
    GAAGCCGTCT ATCCAAACTA TTCCCTGATA GTCAACTCAC CTGTTATTAC AGCAGCCATT
    AATAAAGACA GTAACAAGGT CTACTTGTCT GAACCTGTGG TCTTCACTGT CAAGCACATA
    CAGCAGTCAG AAGAGAACTT CAATCCAAAC TGCTCTTTCT GGAGTTACTC TAAACGCACC
    ATGACAGGAT TCTGGTCCAC TCAGGACTGC AGACTGCTGG GCACCAACCG CACCCACACT
    TCTTGCTCCT GCACACACCT CACCAACTTT GCTGTGCTTA TGGCCCATGT GGAGGTGAAG
    AAAGCAGACC AGGTGCATGA GCTGCTATTG GACGTCATAA CATGGGTGGG GATCCTGCTG
    TCTCTGGTCT GCCTGCTCAT CTGCATCTTC ACCTTCTGTT TCTTCCGTGG TCTGCAAAGC
    GACAGGAACA CCATCCACAA AAACCTCTGC ATCTCCCTCT TTATTGCCGA AACCCTCTTC
    CTCACCGGGA TCAACCGTGC AGACCAGCCT ATCGTCTGCG CTGTGTTTGC GGCCCTGCTG
    CATTTCTTCT TCTTGGCTGC GTTTACGTGG ATGTTTCTGG AAGGCGTACA GCTGTACATC
    ATGCTGGTGG AAGTGTTCGA GAGCGAGTAC TCGCGCACCA AGTACTTCTA TCTCACAGGA
    TATGGAGTGC CAGCTGTCAT AGTAGCTGTA TCGGCTGCTG TGGACTACCG TAGCTACGGC
    ACTGAAAGAG TGTGCTGGCT CAGGTTAGAT ACTTACTTTA TCTGGAGTTT CATTGGGCCT
    GCTACTCTCA TCATCATGCT GAATGTTATT TTTCTGGGCA TTGCACTGTA TAAGATGTTT
    CACCATACAG CCATTCTCAA GCCTGACTCC GGTTGCCTGG ACAACATCAA GTCCTGGGTT
    ATAGGCGCTA TTGCTCTGCT GTGTCTGCTG GGTTTGACCT GGGCATTCGG GCTCATGTAT
    ATCAATGAGA GCACTGTCAT CATGGCCTAC CTCTTCACTA TCTTCAACTC GCTGCAGGGA
    ATGTTCATCT TCATATTTCA CTGCATCCTG CAGAAAAAGG TGCGTAAGGA ATATGGCCGA
    TGTCTCCGCA CACACTGCTG CAGTGGGAAG AGTGTGGAGT CAACCATCTC CACCTCAACA
    AAGACAAGCA CAGCCCGCAC ACCTGGACGC TACTCCACCA ACTCACAAAG TCGTATTCGT
    AGGATGTGGA ATGACACCGT CAGGAAGCAG TCAGAATCGT CTTTCATCAC CGCTGATATG
    AACAGCTCAG CGACTCTCAA TAGAGGTACC ATGGCTAACC ATCTCATCTC CAATGCTTTG
    TTACGTCCTC ATGGCACTAA TCCTTATAAC ACACTACTGG GAGAGTCTGC TGTGTACAAT
    AACCCTACTG CCAACATGTT CAACACCCAA GCCTCCTACA GAGATTCAAA GGGCATTCTC
    AACAACGCAC GGGACTCCAG CGTCATGGAT ACTCTGCCTC TTAATGGCAA CCATGGCAAC
    AGCTATGGTG TGGCAGCAGG AGATTACCTT ACCTACAGTT CCCGTGGCAG CGAGCCACCA
    ACTACGCTTG AGAAGAAGAT CCTGAAAGAG CTGACGGCGA ACTACGCTCC TTCATACCTG
    AACACACAGG AGCGACAGGG AAAAGCCCAC CAGGGCACCC TGACAAATAA ACTCAACAAC
    CATCTGGCCA ACGGAGGCGT CGCCGGATCT TCGTCCATCC CCAAAGACGA TGTCATGGTG
    CTCGACAACC CTGGAGCGTT TCACCGGCAT GATGACGGGG GTGGGTTAAG TCTGGAACTC
    ATTCGGGAGG AGTCACAAGC TCCGCTCTTG CCACCGCGAC CGCCCCCTCC TGAAAACCAC
    GCCCCCTTGC ACACGTTCAC TGCCCATCGG CGCCTCCCAC AGGAGAACAG CGAGAGCTTT
    TTCCCCCTTC TCCCCAATGA CACACACTCT TCCCACACAC ACACTCCCCG TGCGCACACA
    CACTCTCCCC TCAGAGACTC GCTTTATACC AGCATGCCCA CGCTCACCGA CCTCCCGCAC
    GGCACTGATG ACCTCATCAA CGGTCTCCAT GACGATGAAG ACGAAGAGGA GGAAGAAGAC
    GGTGAGGAGG AAGAGGGCAG CGAGCTGCAC TTGGCCAACG GCAAAGGGGT CATCATGGAG
    TCGGACGACG TGTACTACAA AAGCATGCCC AACCTGGGCT CCAGGAACCA CATACAGGAA
    CTAGAGAGCT ACTATCAGAT GGGACGTGGC GGCAGTGACG GGTTCATCGC CCCACCTGAG
    AAAGAAGACT CGTCGCCTGA AGAACAGCCA CCAGATCCTT CACAACTGGT CACCAGCCTA
    TAG

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

    RefSeq XP_005170997.1
    CDS583..5205
    Translation

    Target ORF information:

    RefSeq Version XM_005170940.4
    Organism Danio rerio(zebrafish)
    Definition Danio rerio adhesion G protein-coupled receptor L3.1 (adgrl3.1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005170940.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGGCTTTAA CGTGTCCGAG ACGCAGCTTC AGCGAGTCAG TGCAGAGGTC AACAGGGTCA 
    TCGGCGGTCA TGTGGTCCAC ACGCCTACTT TTCTTCTTCA CCCTCTTCAC ACCCGTCACG
    CTCGTTTTGA GTCGGGCTCC AGTGCCGATG GCTGTGGTGC GTCGAGAGCT GTCGTGTGAG
    GGTTATCCTA TCGAACTGCG CTGCCCGGGC ACTGATGTCA TTATGATCGA GAGCGCCAAT
    TATGGGCGCA CAGATGACAA GATCTGTGAC TCGGACCCCG CTCAAATGGA GAACACTCGC
    TGCTATCTGC CTGATGCCTA CAAGATTATG GGCTTCAGGT GTAACAACCG GACTCAGTGT
    GCAGTCGTTG CTGGCCCTGA TGTTTTTCCC GATCCGTGTC CTGGAACGTA CAAATACCTG
    GAGGTTCAGT ATGAGTGTGT GCCATACAAA GTGGAACAGA AAGTCTTTCT CTGCCCAGGT
    GTATTGAGAG GCGTGTACCA GAGTGAACAT CTCTTCGAAT CAGACCACCA GGCTGGATCA
    TGGTGTAAGG ACCCCTTACA GTCATCCAAT AAGATCTACT ACATGCCCTG GACACCGTAT
    CGCACAGACA CACTGACTGA GTATTCATCT AAGGAGGACT TTATTGCAGG TCGCCCTACC
    ACCACATACA AACTGCCCCA TCGGGTGGAC GGCACTGGGT TTGTGGTGTA TGATGGCGCG
    CTTTTCTTCA ACAAGGAACG TACACGCAAC ATTGTTAAAT TCGACTTGCG AACTCGTATC
    AAGAGTGGTG AGGCAATTAT CGCTAACGCT AATTACCATG ACACCTCGCC ATATCGCTGG
    GGTGGAAAGT CTGACATTGA TCTCGCAGTG GATGAAAATG GACTATGGGT GATTTATGCC
    ACCGAACAGA ACAATGGCCG AATCGTGGTC AGTCAGCTCA ACCCCTACAC ACTCAGAGTG
    GAGGGCTCAT GGGATACATC ATACGATAAG AGATCAGCCT CCAATGCCTT CATGATCTGC
    GGAATCCTTT ATGTCGTGAA GAGTGTTTAC GAAGATGACG ATAATGAAGC TCTAGGGAAT
    AAAATTGACT ACATGTACAA CACAGAGAAG AGCCGTGAAA CGCATCTTAG CATCCCATTT
    CCAAATTCCT ACCAATACAT CGCAGCCGTG GACTACAATC CCAGAGACAA CTTGCTGTAT
    GTGTGGAACA ACTACCATGT CGTCATATAT TCTCTCGACT TTGGAAACAA TGACAACAGA
    CTGGGCTTTG ATCCGCCTTC TTCAGTCTTG CTACCTGATC CTCTTCCTCC AGTACGCAGC
    TCCACGACTC CTCCACGCCC ATATACAGGC ACGCTCCGCC CCTCTCTCAC CACTACCACG
    ACGACCACCA TGGTTCCTCC TCGCCGCCAT AACAACGTCC TCCCAGAAGC CCTGACTCGA
    GCGCCTCCCT CCCCGCAGAC TCCCGTCACT GTTGACTATT GTGCCCCACG TCTCACTGCT
    GAAATCTCCT GGCCACGGAC ACACCAGGGA CAAGTTGCTA AGCAACCGTG CCCACCTGGC
    ACCATAGGTG TAGCCACGTT TAATTGTTTG CTTGGCTACT GGGACCCGAA GGGACCAGAT
    CTGAGCAACT GCACCTCACC GTGGACCAAT CATATCACTC AAAGAATGAG ATCGGGCGAA
    ACTGCTGCTA TAGTAGCCCG GGAATTGGCT GAACAGACAA AGGGAGAGTT GAGACCCGGA
    GATGTCCCAT CAACAGTCAA AGCCATGGCA CAGCTGGTGG AACTACTGGA CGTGCAGCTG
    CGAAACCTCA CCCCTGGGGG AAAAGACACC GCCGCACGCA GTTTAAACAA GCTCCAGAAG
    AGAGAACGGT CGTGCCGCTT CTTCATACAG GCCATGGTGG AGACGGTGAA TAACCTTCTG
    CAGGTGCGAT CTCAGGCGGC GTGGAGAGAG CTTTCTGTAG CCGAGCAGCT GCGATGCGCA
    ACCATGCTCC TGGACACGGT GGAGACGGGA GCCTTCATGC TCGCAGACAA CCTGTTAAAA
    ACAGACACCA TACAGGAGAG CACAGACAAC ATCCAACTGG AGGTGGCTCG GCTAAGTACA
    GATGTTAATC TGGCGGATCT AAGCTTCCCC CAATCTGGAC TAACCGGCAA CTCCATTCAT
    CTCTCAGCCA ACACACTCAA ACAGCAAGGA CGCAATGGTG AGATCCGTAT GGCGCTGGTT
    CTTTATAAGA ACCTCGGCCA ATACTTGTCC ACAGAGAATG CAAGCGTGCG TCTTGGCAGC
    GAAGCCGTCT ATCCAAACTA TTCCCTGATA GTCAACTCAC CTGTTATTAC AGCAGCCATT
    AATAAAGACA GTAACAAGGT CTACTTGTCT GAACCTGTGG TCTTCACTGT CAAGCACATA
    CAGCAGTCAG AAGAGAACTT CAATCCAAAC TGCTCTTTCT GGAGTTACTC TAAACGCACC
    ATGACAGGAT TCTGGTCCAC TCAGGACTGC AGACTGCTGG GCACCAACCG CACCCACACT
    TCTTGCTCCT GCACACACCT CACCAACTTT GCTGTGCTTA TGGCCCATGT GGAGGTGAAG
    AAAGCAGACC AGGTGCATGA GCTGCTATTG GACGTCATAA CATGGGTGGG GATCCTGCTG
    TCTCTGGTCT GCCTGCTCAT CTGCATCTTC ACCTTCTGTT TCTTCCGTGG TCTGCAAAGC
    GACAGGAACA CCATCCACAA AAACCTCTGC ATCTCCCTCT TTATTGCCGA AACCCTCTTC
    CTCACCGGGA TCAACCGTGC AGACCAGCCT ATCGTCTGCG CTGTGTTTGC GGCCCTGCTG
    CATTTCTTCT TCTTGGCTGC GTTTACGTGG ATGTTTCTGG AAGGCGTACA GCTGTACATC
    ATGCTGGTGG AAGTGTTCGA GAGCGAGTAC TCGCGCACCA AGTACTTCTA TCTCACAGGA
    TATGGAGTGC CAGCTGTCAT AGTAGCTGTA TCGGCTGCTG TGGACTACCG TAGCTACGGC
    ACTGAAAGAG TGTGCTGGCT CAGGTTAGAT ACTTACTTTA TCTGGAGTTT CATTGGGCCT
    GCTACTCTCA TCATCATGCT GAATGTTATT TTTCTGGGCA TTGCACTGTA TAAGATGTTT
    CACCATACAG CCATTCTCAA GCCTGACTCC GGTTGCCTGG ACAACATCAA GTCCTGGGTT
    ATAGGCGCTA TTGCTCTGCT GTGTCTGCTG GGTTTGACCT GGGCATTCGG GCTCATGTAT
    ATCAATGAGA GCACTGTCAT CATGGCCTAC CTCTTCACTA TCTTCAACTC GCTGCAGGGA
    ATGTTCATCT TCATATTTCA CTGCATCCTG CAGAAAAAGG TGCGTAAGGA ATATGGCCGA
    TGTCTCCGCA CACACTGCTG CAGTGGGAAG AGTGTGGAGT CAACCATCTC CACCTCAACA
    AAGACAAGCA CAGCCCGCAC ACCTGGACGC TACTCCACCA ACTCACAAAG TCGTATTCGT
    AGGATGTGGA ATGACACCGT CAGGAAGCAG TCAGAATCGT CTTTCATCAC CGCTGATATG
    AACAGCTCAG CGACTCTCAA TAGAGGTACC ATGGCTAACC ATCTCATCTC CAATGCTTTG
    TTACGTCCTC ATGGCACTAA TCCTTATAAC ACACTACTGG GAGAGTCTGC TGTGTACAAT
    AACCCTACTG CCAACATGTT CAACACCCAA GCCTCCTACA GAGATTCAAA GGGCATTCTC
    AACAACGCAC GGGACTCCAG CGTCATGGAT ACTCTGCCTC TTAATGGCAA CCATGGCAAC
    AGCTATGGTG TGGCAGCAGG AGATTACCTT ACCTACAGTT CCCGTGGCAG CGAGCCACCA
    ACTACGCTTG AGAAGAAGAT CCTGAAAGAG CTGACGGCGA ACTACGCTCC TTCATACCTG
    AACACACAGG AGCGACAGGG AAAAGCCCAC CAGGGCACCC TGACAAATAA ACTCAACAAC
    CATCTGGCCA ACGGAGGCGT CGCCGGATCT TCGTCCATCC CCAAAGACGA TGTCATGGTG
    CTCGACAACC CTGGAGCGTT TCACCGGCAT GATGACGGGG GTGGGTTAAG TCTGGAACTC
    ATTCGGGAGG AGTCACAAGC TCCGCTCTTG CCACCGCGAC CGCCCCCTCC TGAAAACCAC
    GCCCCCTTGC ACACGTTCAC TGCCCATCGG CGCCTCCCAC AGGAGAACAG CGAGAGCTTT
    TTCCCCCTTC TCCCCAATGA CACACACTCT TCCCACACAC ACACTCCCCG TGCGCACACA
    CACTCTCCCC TCAGAGACTC GCTTTATACC AGCATGCCCA CGCTCACCGA CCTCCCGCAC
    GGCACTGATG ACCTCATCAA CGGTCTCCAT GACGATGAAG ACGAAGAGGA GGAAGAAGAC
    GGTGAGGAGG AAGAGGGCAG CGAGCTGCAC TTGGCCAACG GCAAAGGGGT CATCATGGAG
    TCGGACGACG TGTACTACAA AAGCATGCCC AACCTGGGCT CCAGGAACCA CATACAGGAA
    CTAGAGAGCT ACTATCAGAT GGGACGTGGC GGCAGTGACG GGTTCATCGC CCCACCTGAG
    AAAGAAGACT CGTCGCCTGA AGAACAGCCA CCAGATCCTT CACAACTGGT CACCAGCCTA
    TAG

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

    CloneID ODa05706
    Clone ID Related Accession (Same CDS sequence) XM_005170940.4 , XM_005170940.3
    Accession Version XM_005170940.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4623bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product adhesion G protein-coupled receptor L3 isoform X1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007112.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_005170940.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGGCTTTAA CGTGTCCGAG ACGCAGCTTC AGCGAGTCAG TGCAGAGGTC AACAGGGTCA 
    TCGGCGGTCA TGTGGTCCAC ACGCCTACTT TTCTTCTTCA CCCTCTTCAC ACCCGTCACG
    CTCGTTTTGA GTCGGGCTCC AGTGCCGATG GCTGTGGTGC GTCGAGAGCT GTCGTGTGAG
    GGTTATCCTA TCGAACTGCG CTGCCCGGGC ACTGATGTCA TTATGATCGA GAGCGCCAAT
    TATGGGCGCA CAGATGACAA GATCTGTGAC TCGGACCCCG CTCAAATGGA GAACACTCGC
    TGCTATCTGC CTGATGCCTA CAAGATTATG GGCTTCAGGT GTAACAACCG GACTCAGTGT
    GCAGTCGTTG CTGGCCCTGA TGTTTTTCCC GATCCGTGTC CTGGAACGTA CAAATACCTG
    GAGGTTCAGT ATGAGTGTGT GCCATACAAA GTGGAACAGA AAGTCTTTCT CTGCCCAGGT
    GTATTGAGAG GCGTGTACCA GAGTGAACAT CTCTTCGAAT CAGACCACCA GGCTGGATCA
    TGGTGTAAGG ACCCCTTACA GTCATCCAAT AAGATCTACT ACATGCCCTG GACACCGTAT
    CGCACAGACA CACTGACTGA GTATTCATCT AAGGAGGACT TTATTGCAGG TCGCCCTACC
    ACCACATACA AACTGCCCCA TCGGGTGGAC GGCACTGGGT TTGTGGTGTA TGATGGCGCG
    CTTTTCTTCA ACAAGGAACG TACACGCAAC ATTGTTAAAT TCGACTTGCG AACTCGTATC
    AAGAGTGGTG AGGCAATTAT CGCTAACGCT AATTACCATG ACACCTCGCC ATATCGCTGG
    GGTGGAAAGT CTGACATTGA TCTCGCAGTG GATGAAAATG GACTATGGGT GATTTATGCC
    ACCGAACAGA ACAATGGCCG AATCGTGGTC AGTCAGCTCA ACCCCTACAC ACTCAGAGTG
    GAGGGCTCAT GGGATACATC ATACGATAAG AGATCAGCCT CCAATGCCTT CATGATCTGC
    GGAATCCTTT ATGTCGTGAA GAGTGTTTAC GAAGATGACG ATAATGAAGC TCTAGGGAAT
    AAAATTGACT ACATGTACAA CACAGAGAAG AGCCGTGAAA CGCATCTTAG CATCCCATTT
    CCAAATTCCT ACCAATACAT CGCAGCCGTG GACTACAATC CCAGAGACAA CTTGCTGTAT
    GTGTGGAACA ACTACCATGT CGTCATATAT TCTCTCGACT TTGGAAACAA TGACAACAGA
    CTGGGCTTTG ATCCGCCTTC TTCAGTCTTG CTACCTGATC CTCTTCCTCC AGTACGCAGC
    TCCACGACTC CTCCACGCCC ATATACAGGC ACGCTCCGCC CCTCTCTCAC CACTACCACG
    ACGACCACCA TGGTTCCTCC TCGCCGCCAT AACAACGTCC TCCCAGAAGC CCTGACTCGA
    GCGCCTCCCT CCCCGCAGAC TCCCGTCACT GTTGACTATT GTGCCCCACG TCTCACTGCT
    GAAATCTCCT GGCCACGGAC ACACCAGGGA CAAGTTGCTA AGCAACCGTG CCCACCTGGC
    ACCATAGGTG TAGCCACGTT TAATTGTTTG CTTGGCTACT GGGACCCGAA GGGACCAGAT
    CTGAGCAACT GCACCTCACC GTGGACCAAT CATATCACTC AAAGAATGAG ATCGGGCGAA
    ACTGCTGCTA TAGTAGCCCG GGAATTGGCT GAACAGACAA AGGGAGAGTT GAGACCCGGA
    GATGTCCCAT CAACAGTCAA AGCCATGGCA CAGCTGGTGG AACTACTGGA CGTGCAGCTG
    CGAAACCTCA CCCCTGGGGG AAAAGACACC GCCGCACGCA GTTTAAACAA GCTCCAGAAG
    AGAGAACGGT CGTGCCGCTT CTTCATACAG GCCATGGTGG AGACGGTGAA TAACCTTCTG
    CAGGTGCGAT CTCAGGCGGC GTGGAGAGAG CTTTCTGTAG CCGAGCAGCT GCGATGCGCA
    ACCATGCTCC TGGACACGGT GGAGACGGGA GCCTTCATGC TCGCAGACAA CCTGTTAAAA
    ACAGACACCA TACAGGAGAG CACAGACAAC ATCCAACTGG AGGTGGCTCG GCTAAGTACA
    GATGTTAATC TGGCGGATCT AAGCTTCCCC CAATCTGGAC TAACCGGCAA CTCCATTCAT
    CTCTCAGCCA ACACACTCAA ACAGCAAGGA CGCAATGGTG AGATCCGTAT GGCGCTGGTT
    CTTTATAAGA ACCTCGGCCA ATACTTGTCC ACAGAGAATG CAAGCGTGCG TCTTGGCAGC
    GAAGCCGTCT ATCCAAACTA TTCCCTGATA GTCAACTCAC CTGTTATTAC AGCAGCCATT
    AATAAAGACA GTAACAAGGT CTACTTGTCT GAACCTGTGG TCTTCACTGT CAAGCACATA
    CAGCAGTCAG AAGAGAACTT CAATCCAAAC TGCTCTTTCT GGAGTTACTC TAAACGCACC
    ATGACAGGAT TCTGGTCCAC TCAGGACTGC AGACTGCTGG GCACCAACCG CACCCACACT
    TCTTGCTCCT GCACACACCT CACCAACTTT GCTGTGCTTA TGGCCCATGT GGAGGTGAAG
    AAAGCAGACC AGGTGCATGA GCTGCTATTG GACGTCATAA CATGGGTGGG GATCCTGCTG
    TCTCTGGTCT GCCTGCTCAT CTGCATCTTC ACCTTCTGTT TCTTCCGTGG TCTGCAAAGC
    GACAGGAACA CCATCCACAA AAACCTCTGC ATCTCCCTCT TTATTGCCGA AACCCTCTTC
    CTCACCGGGA TCAACCGTGC AGACCAGCCT ATCGTCTGCG CTGTGTTTGC GGCCCTGCTG
    CATTTCTTCT TCTTGGCTGC GTTTACGTGG ATGTTTCTGG AAGGCGTACA GCTGTACATC
    ATGCTGGTGG AAGTGTTCGA GAGCGAGTAC TCGCGCACCA AGTACTTCTA TCTCACAGGA
    TATGGAGTGC CAGCTGTCAT AGTAGCTGTA TCGGCTGCTG TGGACTACCG TAGCTACGGC
    ACTGAAAGAG TGTGCTGGCT CAGGTTAGAT ACTTACTTTA TCTGGAGTTT CATTGGGCCT
    GCTACTCTCA TCATCATGCT GAATGTTATT TTTCTGGGCA TTGCACTGTA TAAGATGTTT
    CACCATACAG CCATTCTCAA GCCTGACTCC GGTTGCCTGG ACAACATCAA GTCCTGGGTT
    ATAGGCGCTA TTGCTCTGCT GTGTCTGCTG GGTTTGACCT GGGCATTCGG GCTCATGTAT
    ATCAATGAGA GCACTGTCAT CATGGCCTAC CTCTTCACTA TCTTCAACTC GCTGCAGGGA
    ATGTTCATCT TCATATTTCA CTGCATCCTG CAGAAAAAGG TGCGTAAGGA ATATGGCCGA
    TGTCTCCGCA CACACTGCTG CAGTGGGAAG AGTGTGGAGT CAACCATCTC CACCTCAACA
    AAGACAAGCA CAGCCCGCAC ACCTGGACGC TACTCCACCA ACTCACAAAG TCGTATTCGT
    AGGATGTGGA ATGACACCGT CAGGAAGCAG TCAGAATCGT CTTTCATCAC CGCTGATATG
    AACAGCTCAG CGACTCTCAA TAGAGGTACC ATGGCTAACC ATCTCATCTC CAATGCTTTG
    TTACGTCCTC ATGGCACTAA TCCTTATAAC ACACTACTGG GAGAGTCTGC TGTGTACAAT
    AACCCTACTG CCAACATGTT CAACACCCAA GCCTCCTACA GAGATTCAAA GGGCATTCTC
    AACAACGCAC GGGACTCCAG CGTCATGGAT ACTCTGCCTC TTAATGGCAA CCATGGCAAC
    AGCTATGGTG TGGCAGCAGG AGATTACCTT ACCTACAGTT CCCGTGGCAG CGAGCCACCA
    ACTACGCTTG AGAAGAAGAT CCTGAAAGAG CTGACGGCGA ACTACGCTCC TTCATACCTG
    AACACACAGG AGCGACAGGG AAAAGCCCAC CAGGGCACCC TGACAAATAA ACTCAACAAC
    CATCTGGCCA ACGGAGGCGT CGCCGGATCT TCGTCCATCC CCAAAGACGA TGTCATGGTG
    CTCGACAACC CTGGAGCGTT TCACCGGCAT GATGACGGGG GTGGGTTAAG TCTGGAACTC
    ATTCGGGAGG AGTCACAAGC TCCGCTCTTG CCACCGCGAC CGCCCCCTCC TGAAAACCAC
    GCCCCCTTGC ACACGTTCAC TGCCCATCGG CGCCTCCCAC AGGAGAACAG CGAGAGCTTT
    TTCCCCCTTC TCCCCAATGA CACACACTCT TCCCACACAC ACACTCCCCG TGCGCACACA
    CACTCTCCCC TCAGAGACTC GCTTTATACC AGCATGCCCA CGCTCACCGA CCTCCCGCAC
    GGCACTGATG ACCTCATCAA CGGTCTCCAT GACGATGAAG ACGAAGAGGA GGAAGAAGAC
    GGTGAGGAGG AAGAGGGCAG CGAGCTGCAC TTGGCCAACG GCAAAGGGGT CATCATGGAG
    TCGGACGACG TGTACTACAA AAGCATGCCC AACCTGGGCT CCAGGAACCA CATACAGGAA
    CTAGAGAGCT ACTATCAGAT GGGACGTGGC GGCAGTGACG GGTTCATCGC CCCACCTGAG
    AAAGAAGACT CGTCGCCTGA AGAACAGCCA CCAGATCCTT CACAACTGGT CACCAGCCTA
    TAG

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

    RefSeq XP_005170997.1
    CDS616..5238
    Translation

    Target ORF information:

    RefSeq Version XM_005170940.3
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio adhesion G protein-coupled receptor L3.1 (adgrl3.1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005170940.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGGCTTTAA CGTGTCCGAG ACGCAGCTTC AGCGAGTCAG TGCAGAGGTC AACAGGGTCA 
    TCGGCGGTCA TGTGGTCCAC ACGCCTACTT TTCTTCTTCA CCCTCTTCAC ACCCGTCACG
    CTCGTTTTGA GTCGGGCTCC AGTGCCGATG GCTGTGGTGC GTCGAGAGCT GTCGTGTGAG
    GGTTATCCTA TCGAACTGCG CTGCCCGGGC ACTGATGTCA TTATGATCGA GAGCGCCAAT
    TATGGGCGCA CAGATGACAA GATCTGTGAC TCGGACCCCG CTCAAATGGA GAACACTCGC
    TGCTATCTGC CTGATGCCTA CAAGATTATG GGCTTCAGGT GTAACAACCG GACTCAGTGT
    GCAGTCGTTG CTGGCCCTGA TGTTTTTCCC GATCCGTGTC CTGGAACGTA CAAATACCTG
    GAGGTTCAGT ATGAGTGTGT GCCATACAAA GTGGAACAGA AAGTCTTTCT CTGCCCAGGT
    GTATTGAGAG GCGTGTACCA GAGTGAACAT CTCTTCGAAT CAGACCACCA GGCTGGATCA
    TGGTGTAAGG ACCCCTTACA GTCATCCAAT AAGATCTACT ACATGCCCTG GACACCGTAT
    CGCACAGACA CACTGACTGA GTATTCATCT AAGGAGGACT TTATTGCAGG TCGCCCTACC
    ACCACATACA AACTGCCCCA TCGGGTGGAC GGCACTGGGT TTGTGGTGTA TGATGGCGCG
    CTTTTCTTCA ACAAGGAACG TACACGCAAC ATTGTTAAAT TCGACTTGCG AACTCGTATC
    AAGAGTGGTG AGGCAATTAT CGCTAACGCT AATTACCATG ACACCTCGCC ATATCGCTGG
    GGTGGAAAGT CTGACATTGA TCTCGCAGTG GATGAAAATG GACTATGGGT GATTTATGCC
    ACCGAACAGA ACAATGGCCG AATCGTGGTC AGTCAGCTCA ACCCCTACAC ACTCAGAGTG
    GAGGGCTCAT GGGATACATC ATACGATAAG AGATCAGCCT CCAATGCCTT CATGATCTGC
    GGAATCCTTT ATGTCGTGAA GAGTGTTTAC GAAGATGACG ATAATGAAGC TCTAGGGAAT
    AAAATTGACT ACATGTACAA CACAGAGAAG AGCCGTGAAA CGCATCTTAG CATCCCATTT
    CCAAATTCCT ACCAATACAT CGCAGCCGTG GACTACAATC CCAGAGACAA CTTGCTGTAT
    GTGTGGAACA ACTACCATGT CGTCATATAT TCTCTCGACT TTGGAAACAA TGACAACAGA
    CTGGGCTTTG ATCCGCCTTC TTCAGTCTTG CTACCTGATC CTCTTCCTCC AGTACGCAGC
    TCCACGACTC CTCCACGCCC ATATACAGGC ACGCTCCGCC CCTCTCTCAC CACTACCACG
    ACGACCACCA TGGTTCCTCC TCGCCGCCAT AACAACGTCC TCCCAGAAGC CCTGACTCGA
    GCGCCTCCCT CCCCGCAGAC TCCCGTCACT GTTGACTATT GTGCCCCACG TCTCACTGCT
    GAAATCTCCT GGCCACGGAC ACACCAGGGA CAAGTTGCTA AGCAACCGTG CCCACCTGGC
    ACCATAGGTG TAGCCACGTT TAATTGTTTG CTTGGCTACT GGGACCCGAA GGGACCAGAT
    CTGAGCAACT GCACCTCACC GTGGACCAAT CATATCACTC AAAGAATGAG ATCGGGCGAA
    ACTGCTGCTA TAGTAGCCCG GGAATTGGCT GAACAGACAA AGGGAGAGTT GAGACCCGGA
    GATGTCCCAT CAACAGTCAA AGCCATGGCA CAGCTGGTGG AACTACTGGA CGTGCAGCTG
    CGAAACCTCA CCCCTGGGGG AAAAGACACC GCCGCACGCA GTTTAAACAA GCTCCAGAAG
    AGAGAACGGT CGTGCCGCTT CTTCATACAG GCCATGGTGG AGACGGTGAA TAACCTTCTG
    CAGGTGCGAT CTCAGGCGGC GTGGAGAGAG CTTTCTGTAG CCGAGCAGCT GCGATGCGCA
    ACCATGCTCC TGGACACGGT GGAGACGGGA GCCTTCATGC TCGCAGACAA CCTGTTAAAA
    ACAGACACCA TACAGGAGAG CACAGACAAC ATCCAACTGG AGGTGGCTCG GCTAAGTACA
    GATGTTAATC TGGCGGATCT AAGCTTCCCC CAATCTGGAC TAACCGGCAA CTCCATTCAT
    CTCTCAGCCA ACACACTCAA ACAGCAAGGA CGCAATGGTG AGATCCGTAT GGCGCTGGTT
    CTTTATAAGA ACCTCGGCCA ATACTTGTCC ACAGAGAATG CAAGCGTGCG TCTTGGCAGC
    GAAGCCGTCT ATCCAAACTA TTCCCTGATA GTCAACTCAC CTGTTATTAC AGCAGCCATT
    AATAAAGACA GTAACAAGGT CTACTTGTCT GAACCTGTGG TCTTCACTGT CAAGCACATA
    CAGCAGTCAG AAGAGAACTT CAATCCAAAC TGCTCTTTCT GGAGTTACTC TAAACGCACC
    ATGACAGGAT TCTGGTCCAC TCAGGACTGC AGACTGCTGG GCACCAACCG CACCCACACT
    TCTTGCTCCT GCACACACCT CACCAACTTT GCTGTGCTTA TGGCCCATGT GGAGGTGAAG
    AAAGCAGACC AGGTGCATGA GCTGCTATTG GACGTCATAA CATGGGTGGG GATCCTGCTG
    TCTCTGGTCT GCCTGCTCAT CTGCATCTTC ACCTTCTGTT TCTTCCGTGG TCTGCAAAGC
    GACAGGAACA CCATCCACAA AAACCTCTGC ATCTCCCTCT TTATTGCCGA AACCCTCTTC
    CTCACCGGGA TCAACCGTGC AGACCAGCCT ATCGTCTGCG CTGTGTTTGC GGCCCTGCTG
    CATTTCTTCT TCTTGGCTGC GTTTACGTGG ATGTTTCTGG AAGGCGTACA GCTGTACATC
    ATGCTGGTGG AAGTGTTCGA GAGCGAGTAC TCGCGCACCA AGTACTTCTA TCTCACAGGA
    TATGGAGTGC CAGCTGTCAT AGTAGCTGTA TCGGCTGCTG TGGACTACCG TAGCTACGGC
    ACTGAAAGAG TGTGCTGGCT CAGGTTAGAT ACTTACTTTA TCTGGAGTTT CATTGGGCCT
    GCTACTCTCA TCATCATGCT GAATGTTATT TTTCTGGGCA TTGCACTGTA TAAGATGTTT
    CACCATACAG CCATTCTCAA GCCTGACTCC GGTTGCCTGG ACAACATCAA GTCCTGGGTT
    ATAGGCGCTA TTGCTCTGCT GTGTCTGCTG GGTTTGACCT GGGCATTCGG GCTCATGTAT
    ATCAATGAGA GCACTGTCAT CATGGCCTAC CTCTTCACTA TCTTCAACTC GCTGCAGGGA
    ATGTTCATCT TCATATTTCA CTGCATCCTG CAGAAAAAGG TGCGTAAGGA ATATGGCCGA
    TGTCTCCGCA CACACTGCTG CAGTGGGAAG AGTGTGGAGT CAACCATCTC CACCTCAACA
    AAGACAAGCA CAGCCCGCAC ACCTGGACGC TACTCCACCA ACTCACAAAG TCGTATTCGT
    AGGATGTGGA ATGACACCGT CAGGAAGCAG TCAGAATCGT CTTTCATCAC CGCTGATATG
    AACAGCTCAG CGACTCTCAA TAGAGGTACC ATGGCTAACC ATCTCATCTC CAATGCTTTG
    TTACGTCCTC ATGGCACTAA TCCTTATAAC ACACTACTGG GAGAGTCTGC TGTGTACAAT
    AACCCTACTG CCAACATGTT CAACACCCAA GCCTCCTACA GAGATTCAAA GGGCATTCTC
    AACAACGCAC GGGACTCCAG CGTCATGGAT ACTCTGCCTC TTAATGGCAA CCATGGCAAC
    AGCTATGGTG TGGCAGCAGG AGATTACCTT ACCTACAGTT CCCGTGGCAG CGAGCCACCA
    ACTACGCTTG AGAAGAAGAT CCTGAAAGAG CTGACGGCGA ACTACGCTCC TTCATACCTG
    AACACACAGG AGCGACAGGG AAAAGCCCAC CAGGGCACCC TGACAAATAA ACTCAACAAC
    CATCTGGCCA ACGGAGGCGT CGCCGGATCT TCGTCCATCC CCAAAGACGA TGTCATGGTG
    CTCGACAACC CTGGAGCGTT TCACCGGCAT GATGACGGGG GTGGGTTAAG TCTGGAACTC
    ATTCGGGAGG AGTCACAAGC TCCGCTCTTG CCACCGCGAC CGCCCCCTCC TGAAAACCAC
    GCCCCCTTGC ACACGTTCAC TGCCCATCGG CGCCTCCCAC AGGAGAACAG CGAGAGCTTT
    TTCCCCCTTC TCCCCAATGA CACACACTCT TCCCACACAC ACACTCCCCG TGCGCACACA
    CACTCTCCCC TCAGAGACTC GCTTTATACC AGCATGCCCA CGCTCACCGA CCTCCCGCAC
    GGCACTGATG ACCTCATCAA CGGTCTCCAT GACGATGAAG ACGAAGAGGA GGAAGAAGAC
    GGTGAGGAGG AAGAGGGCAG CGAGCTGCAC TTGGCCAACG GCAAAGGGGT CATCATGGAG
    TCGGACGACG TGTACTACAA AAGCATGCCC AACCTGGGCT CCAGGAACCA CATACAGGAA
    CTAGAGAGCT ACTATCAGAT GGGACGTGGC GGCAGTGACG GGTTCATCGC CCCACCTGAG
    AAAGAAGACT CGTCGCCTGA AGAACAGCCA CCAGATCCTT CACAACTGGT CACCAGCCTA
    TAG

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

    CloneID ODa05707
    Clone ID Related Accession (Same CDS sequence) XM_005170941.3 , XM_005170941.4
    Accession Version XM_005170941.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4620bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product adhesion G protein-coupled receptor L3 isoform X2
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007112.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_005170941.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGGCTTTAA CGTGTCCGAG ACGCAGCTTC AGCGAGTCAG TGCAGAGGTC AACAGGGTCA 
    TCGGCGGTCA TGTGGTCCAC ACGCCTACTT TTCTTCTTCA CCCTCTTCAC ACCCGTCACG
    CTCGTTTTGA GTCGGGCTCC AGTGCCGATG GCTGTGGTGC GTCGAGAGCT GTCGTGTGAG
    GGTTATCCTA TCGAACTGCG CTGCCCGGGC ACTGATGTCA TTATGATCGA GAGCGCCAAT
    TATGGGCGCA CAGATGACAA GATCTGTGAC TCGGACCCCG CTCAAATGGA GAACACTCGC
    TGCTATCTGC CTGATGCCTA CAAGATTATG GGCTTCAGGT GTAACAACCG GACTCAGTGT
    GCAGTCGTTG CTGGCCCTGA TGTTTTTCCC GATCCGTGTC CTGGAACGTA CAAATACCTG
    GAGGTTCAGT ATGAGTGTGT GCCATACAAA GTGGAACAGA AAGTCTTTCT CTGCCCAGGT
    GTATTGAGAG GCGTGTACCA GAGTGAACAT CTCTTCGAAT CAGACCACCA GGCTGGATCA
    TGGTGTAAGG ACCCCTTACA GTCATCCAAT AAGATCTACT ACATGCCCTG GACACCGTAT
    CGCACAGACA CACTGACTGA GTATTCATCT AAGGAGGACT TTATTGCAGG TCGCCCTACC
    ACCACATACA AACTGCCCCA TCGGGTGGAC GGCACTGGGT TTGTGGTGTA TGATGGCGCG
    CTTTTCTTCA ACAAGGAACG TACACGCAAC ATTGTTAAAT TCGACTTGCG AACTCGTATC
    AAGAGTGGTG AGGCAATTAT CGCTAACGCT AATTACCATG ACACCTCGCC ATATCGCTGG
    GGTGGAAAGT CTGACATTGA TCTCGCAGTG GATGAAAATG GACTATGGGT GATTTATGCC
    ACCGAACAGA ACAATGGCCG AATCGTGGTC AGTCAGCTCA ACCCCTACAC ACTCAGAGTG
    GAGGGCTCAT GGGATACATC ATACGATAAG AGATCAGCCT CCAATGCCTT CATGATCTGC
    GGAATCCTTT ATGTCGTGAA GAGTGTTTAC GAAGATGACG ATAATGAAGC TCTAGGGAAT
    AAAATTGACT ACATGTACAA CACAGAGAAG AGCCGTGAAA CGCATCTTAG CATCCCATTT
    CCAAATTCCT ACCAATACAT CGCAGCCGTG GACTACAATC CCAGAGACAA CTTGCTGTAT
    GTGTGGAACA ACTACCATGT CGTCATATAT TCTCTCGACT TTGGAAACAA TGACAACAGA
    CTGGGCTTTG ATCCGCCTTC TTCAGTCTTG CTACCTGATC CTCTTCCTCC AGTACGCAGC
    TCCACGACTC CTCCACGCCC ATATACAGGC ACGCTCCGCC CCTCTCTCAC CACTACCACG
    ACGACCACCA TGGTTCCTCC TCGCCGCCAT AACAACGTCC TCCCAGAAGC CCTGACTCGA
    GCGCCTCCCT CCCCGCAGAC TCCCGTCACT GTTGACTATT GTGCCCCACG TCTCACTGCT
    GAAATCTCCT GGCCACGGAC ACACCAGGGA CAAGTTGCTA AGCAACCGTG CCCACCTGGC
    ACCATAGGTG TAGCCACGTT TAATTGTTTG CTTGGCTACT GGGACCCGAA GGGACCAGAT
    CTGAGCAACT GCACCTCACC GTGGACCAAT CATATCACTC AAAGAATGAG ATCGGGCGAA
    ACTGCTGCTA TAGTAGCCCG GGAATTGGCT GAACAGACAA AGGGAGAGTT GAGACCCGGA
    GATGTCCCAT CAACAGTCAA AGCCATGGCA CAGCTGGTGG AACTACTGGA CGTGCAGCTG
    CGAAACCTCA CCCCTGGGGG AAAAGACACC GCCGCACGCA GTTTAAACAA GCTCCAGAAG
    AGAGAACGGT CGTGCCGCTT CTTCATACAG GCCATGGTGG AGACGGTGAA TAACCTTCTG
    CAGGTGCGAT CTCAGGCGGC GTGGAGAGAG CTTTCTGTAG CCGAGCAGCT GCGATGCGCA
    ACCATGCTCC TGGACACGGT GGAGACGGGA GCCTTCATGC TCGCAGACAA CCTGTTAAAA
    ACAGACACCA TACAGGAGAG CACAGACAAC ATCCAACTGG AGGTGGCTCG GCTAAGTACA
    GATGTTAATC TGGCGGATCT AAGCTTCCCC CAATCTGGAC TAACCGGCAA CTCCATTCAT
    CTCTCAGCCA ACACACTCAA ACAGCAAGGA CGCAATGGTG AGATCCGTAT GGCGCTGGTT
    CTTTATAAGA ACCTCGGCCA ATACTTGTCC ACAGAGAATG CAAGCGTGCG TCTTGGCAGC
    GAAGCCGTCT ATCCAAACTA TTCCCTGATA GTCAACTCAC CTGTTATTAC AGCAGCCATT
    AATAAAGACA GTAACAAGGT CTACTTGTCT GAACCTGTGG TCTTCACTGT CAAGCACATA
    CAGTCAGAAG AGAACTTCAA TCCAAACTGC TCTTTCTGGA GTTACTCTAA ACGCACCATG
    ACAGGATTCT GGTCCACTCA GGACTGCAGA CTGCTGGGCA CCAACCGCAC CCACACTTCT
    TGCTCCTGCA CACACCTCAC CAACTTTGCT GTGCTTATGG CCCATGTGGA GGTGAAGAAA
    GCAGACCAGG TGCATGAGCT GCTATTGGAC GTCATAACAT GGGTGGGGAT CCTGCTGTCT
    CTGGTCTGCC TGCTCATCTG CATCTTCACC TTCTGTTTCT TCCGTGGTCT GCAAAGCGAC
    AGGAACACCA TCCACAAAAA CCTCTGCATC TCCCTCTTTA TTGCCGAAAC CCTCTTCCTC
    ACCGGGATCA ACCGTGCAGA CCAGCCTATC GTCTGCGCTG TGTTTGCGGC CCTGCTGCAT
    TTCTTCTTCT TGGCTGCGTT TACGTGGATG TTTCTGGAAG GCGTACAGCT GTACATCATG
    CTGGTGGAAG TGTTCGAGAG CGAGTACTCG CGCACCAAGT ACTTCTATCT CACAGGATAT
    GGAGTGCCAG CTGTCATAGT AGCTGTATCG GCTGCTGTGG ACTACCGTAG CTACGGCACT
    GAAAGAGTGT GCTGGCTCAG GTTAGATACT TACTTTATCT GGAGTTTCAT TGGGCCTGCT
    ACTCTCATCA TCATGCTGAA TGTTATTTTT CTGGGCATTG CACTGTATAA GATGTTTCAC
    CATACAGCCA TTCTCAAGCC TGACTCCGGT TGCCTGGACA ACATCAAGTC CTGGGTTATA
    GGCGCTATTG CTCTGCTGTG TCTGCTGGGT TTGACCTGGG CATTCGGGCT CATGTATATC
    AATGAGAGCA CTGTCATCAT GGCCTACCTC TTCACTATCT TCAACTCGCT GCAGGGAATG
    TTCATCTTCA TATTTCACTG CATCCTGCAG AAAAAGGTGC GTAAGGAATA TGGCCGATGT
    CTCCGCACAC ACTGCTGCAG TGGGAAGAGT GTGGAGTCAA CCATCTCCAC CTCAACAAAG
    ACAAGCACAG CCCGCACACC TGGACGCTAC TCCACCAACT CACAAAGTCG TATTCGTAGG
    ATGTGGAATG ACACCGTCAG GAAGCAGTCA GAATCGTCTT TCATCACCGC TGATATGAAC
    AGCTCAGCGA CTCTCAATAG AGGTACCATG GCTAACCATC TCATCTCCAA TGCTTTGTTA
    CGTCCTCATG GCACTAATCC TTATAACACA CTACTGGGAG AGTCTGCTGT GTACAATAAC
    CCTACTGCCA ACATGTTCAA CACCCAAGCC TCCTACAGAG ATTCAAAGGG CATTCTCAAC
    AACGCACGGG ACTCCAGCGT CATGGATACT CTGCCTCTTA ATGGCAACCA TGGCAACAGC
    TATGGTGTGG CAGCAGGAGA TTACCTTACC TACAGTTCCC GTGGCAGCGA GCCACCAACT
    ACGCTTGAGA AGAAGATCCT GAAAGAGCTG ACGGCGAACT ACGCTCCTTC ATACCTGAAC
    ACACAGGAGC GACAGGGAAA AGCCCACCAG GGCACCCTGA CAAATAAACT CAACAACCAT
    CTGGCCAACG GAGGCGTCGC CGGATCTTCG TCCATCCCCA AAGACGATGT CATGGTGCTC
    GACAACCCTG GAGCGTTTCA CCGGCATGAT GACGGGGGTG GGTTAAGTCT GGAACTCATT
    CGGGAGGAGT CACAAGCTCC GCTCTTGCCA CCGCGACCGC CCCCTCCTGA AAACCACGCC
    CCCTTGCACA CGTTCACTGC CCATCGGCGC CTCCCACAGG AGAACAGCGA GAGCTTTTTC
    CCCCTTCTCC CCAATGACAC ACACTCTTCC CACACACACA CTCCCCGTGC GCACACACAC
    TCTCCCCTCA GAGACTCGCT TTATACCAGC ATGCCCACGC TCACCGACCT CCCGCACGGC
    ACTGATGACC TCATCAACGG TCTCCATGAC GATGAAGACG AAGAGGAGGA AGAAGACGGT
    GAGGAGGAAG AGGGCAGCGA GCTGCACTTG GCCAACGGCA AAGGGGTCAT CATGGAGTCG
    GACGACGTGT ACTACAAAAG CATGCCCAAC CTGGGCTCCA GGAACCACAT ACAGGAACTA
    GAGAGCTACT ATCAGATGGG ACGTGGCGGC AGTGACGGGT TCATCGCCCC ACCTGAGAAA
    GAAGACTCGT CGCCTGAAGA ACAGCCACCA GATCCTTCAC AACTGGTCAC CAGCCTATAG

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

    RefSeq XP_005170998.1
    CDS616..5235
    Translation

    Target ORF information:

    RefSeq Version XM_005170941.3
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio adhesion G protein-coupled receptor L3.1 (adgrl3.1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005170941.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGGCTTTAA CGTGTCCGAG ACGCAGCTTC AGCGAGTCAG TGCAGAGGTC AACAGGGTCA 
    TCGGCGGTCA TGTGGTCCAC ACGCCTACTT TTCTTCTTCA CCCTCTTCAC ACCCGTCACG
    CTCGTTTTGA GTCGGGCTCC AGTGCCGATG GCTGTGGTGC GTCGAGAGCT GTCGTGTGAG
    GGTTATCCTA TCGAACTGCG CTGCCCGGGC ACTGATGTCA TTATGATCGA GAGCGCCAAT
    TATGGGCGCA CAGATGACAA GATCTGTGAC TCGGACCCCG CTCAAATGGA GAACACTCGC
    TGCTATCTGC CTGATGCCTA CAAGATTATG GGCTTCAGGT GTAACAACCG GACTCAGTGT
    GCAGTCGTTG CTGGCCCTGA TGTTTTTCCC GATCCGTGTC CTGGAACGTA CAAATACCTG
    GAGGTTCAGT ATGAGTGTGT GCCATACAAA GTGGAACAGA AAGTCTTTCT CTGCCCAGGT
    GTATTGAGAG GCGTGTACCA GAGTGAACAT CTCTTCGAAT CAGACCACCA GGCTGGATCA
    TGGTGTAAGG ACCCCTTACA GTCATCCAAT AAGATCTACT ACATGCCCTG GACACCGTAT
    CGCACAGACA CACTGACTGA GTATTCATCT AAGGAGGACT TTATTGCAGG TCGCCCTACC
    ACCACATACA AACTGCCCCA TCGGGTGGAC GGCACTGGGT TTGTGGTGTA TGATGGCGCG
    CTTTTCTTCA ACAAGGAACG TACACGCAAC ATTGTTAAAT TCGACTTGCG AACTCGTATC
    AAGAGTGGTG AGGCAATTAT CGCTAACGCT AATTACCATG ACACCTCGCC ATATCGCTGG
    GGTGGAAAGT CTGACATTGA TCTCGCAGTG GATGAAAATG GACTATGGGT GATTTATGCC
    ACCGAACAGA ACAATGGCCG AATCGTGGTC AGTCAGCTCA ACCCCTACAC ACTCAGAGTG
    GAGGGCTCAT GGGATACATC ATACGATAAG AGATCAGCCT CCAATGCCTT CATGATCTGC
    GGAATCCTTT ATGTCGTGAA GAGTGTTTAC GAAGATGACG ATAATGAAGC TCTAGGGAAT
    AAAATTGACT ACATGTACAA CACAGAGAAG AGCCGTGAAA CGCATCTTAG CATCCCATTT
    CCAAATTCCT ACCAATACAT CGCAGCCGTG GACTACAATC CCAGAGACAA CTTGCTGTAT
    GTGTGGAACA ACTACCATGT CGTCATATAT TCTCTCGACT TTGGAAACAA TGACAACAGA
    CTGGGCTTTG ATCCGCCTTC TTCAGTCTTG CTACCTGATC CTCTTCCTCC AGTACGCAGC
    TCCACGACTC CTCCACGCCC ATATACAGGC ACGCTCCGCC CCTCTCTCAC CACTACCACG
    ACGACCACCA TGGTTCCTCC TCGCCGCCAT AACAACGTCC TCCCAGAAGC CCTGACTCGA
    GCGCCTCCCT CCCCGCAGAC TCCCGTCACT GTTGACTATT GTGCCCCACG TCTCACTGCT
    GAAATCTCCT GGCCACGGAC ACACCAGGGA CAAGTTGCTA AGCAACCGTG CCCACCTGGC
    ACCATAGGTG TAGCCACGTT TAATTGTTTG CTTGGCTACT GGGACCCGAA GGGACCAGAT
    CTGAGCAACT GCACCTCACC GTGGACCAAT CATATCACTC AAAGAATGAG ATCGGGCGAA
    ACTGCTGCTA TAGTAGCCCG GGAATTGGCT GAACAGACAA AGGGAGAGTT GAGACCCGGA
    GATGTCCCAT CAACAGTCAA AGCCATGGCA CAGCTGGTGG AACTACTGGA CGTGCAGCTG
    CGAAACCTCA CCCCTGGGGG AAAAGACACC GCCGCACGCA GTTTAAACAA GCTCCAGAAG
    AGAGAACGGT CGTGCCGCTT CTTCATACAG GCCATGGTGG AGACGGTGAA TAACCTTCTG
    CAGGTGCGAT CTCAGGCGGC GTGGAGAGAG CTTTCTGTAG CCGAGCAGCT GCGATGCGCA
    ACCATGCTCC TGGACACGGT GGAGACGGGA GCCTTCATGC TCGCAGACAA CCTGTTAAAA
    ACAGACACCA TACAGGAGAG CACAGACAAC ATCCAACTGG AGGTGGCTCG GCTAAGTACA
    GATGTTAATC TGGCGGATCT AAGCTTCCCC CAATCTGGAC TAACCGGCAA CTCCATTCAT
    CTCTCAGCCA ACACACTCAA ACAGCAAGGA CGCAATGGTG AGATCCGTAT GGCGCTGGTT
    CTTTATAAGA ACCTCGGCCA ATACTTGTCC ACAGAGAATG CAAGCGTGCG TCTTGGCAGC
    GAAGCCGTCT ATCCAAACTA TTCCCTGATA GTCAACTCAC CTGTTATTAC AGCAGCCATT
    AATAAAGACA GTAACAAGGT CTACTTGTCT GAACCTGTGG TCTTCACTGT CAAGCACATA
    CAGTCAGAAG AGAACTTCAA TCCAAACTGC TCTTTCTGGA GTTACTCTAA ACGCACCATG
    ACAGGATTCT GGTCCACTCA GGACTGCAGA CTGCTGGGCA CCAACCGCAC CCACACTTCT
    TGCTCCTGCA CACACCTCAC CAACTTTGCT GTGCTTATGG CCCATGTGGA GGTGAAGAAA
    GCAGACCAGG TGCATGAGCT GCTATTGGAC GTCATAACAT GGGTGGGGAT CCTGCTGTCT
    CTGGTCTGCC TGCTCATCTG CATCTTCACC TTCTGTTTCT TCCGTGGTCT GCAAAGCGAC
    AGGAACACCA TCCACAAAAA CCTCTGCATC TCCCTCTTTA TTGCCGAAAC CCTCTTCCTC
    ACCGGGATCA ACCGTGCAGA CCAGCCTATC GTCTGCGCTG TGTTTGCGGC CCTGCTGCAT
    TTCTTCTTCT TGGCTGCGTT TACGTGGATG TTTCTGGAAG GCGTACAGCT GTACATCATG
    CTGGTGGAAG TGTTCGAGAG CGAGTACTCG CGCACCAAGT ACTTCTATCT CACAGGATAT
    GGAGTGCCAG CTGTCATAGT AGCTGTATCG GCTGCTGTGG ACTACCGTAG CTACGGCACT
    GAAAGAGTGT GCTGGCTCAG GTTAGATACT TACTTTATCT GGAGTTTCAT TGGGCCTGCT
    ACTCTCATCA TCATGCTGAA TGTTATTTTT CTGGGCATTG CACTGTATAA GATGTTTCAC
    CATACAGCCA TTCTCAAGCC TGACTCCGGT TGCCTGGACA ACATCAAGTC CTGGGTTATA
    GGCGCTATTG CTCTGCTGTG TCTGCTGGGT TTGACCTGGG CATTCGGGCT CATGTATATC
    AATGAGAGCA CTGTCATCAT GGCCTACCTC TTCACTATCT TCAACTCGCT GCAGGGAATG
    TTCATCTTCA TATTTCACTG CATCCTGCAG AAAAAGGTGC GTAAGGAATA TGGCCGATGT
    CTCCGCACAC ACTGCTGCAG TGGGAAGAGT GTGGAGTCAA CCATCTCCAC CTCAACAAAG
    ACAAGCACAG CCCGCACACC TGGACGCTAC TCCACCAACT CACAAAGTCG TATTCGTAGG
    ATGTGGAATG ACACCGTCAG GAAGCAGTCA GAATCGTCTT TCATCACCGC TGATATGAAC
    AGCTCAGCGA CTCTCAATAG AGGTACCATG GCTAACCATC TCATCTCCAA TGCTTTGTTA
    CGTCCTCATG GCACTAATCC TTATAACACA CTACTGGGAG AGTCTGCTGT GTACAATAAC
    CCTACTGCCA ACATGTTCAA CACCCAAGCC TCCTACAGAG ATTCAAAGGG CATTCTCAAC
    AACGCACGGG ACTCCAGCGT CATGGATACT CTGCCTCTTA ATGGCAACCA TGGCAACAGC
    TATGGTGTGG CAGCAGGAGA TTACCTTACC TACAGTTCCC GTGGCAGCGA GCCACCAACT
    ACGCTTGAGA AGAAGATCCT GAAAGAGCTG ACGGCGAACT ACGCTCCTTC ATACCTGAAC
    ACACAGGAGC GACAGGGAAA AGCCCACCAG GGCACCCTGA CAAATAAACT CAACAACCAT
    CTGGCCAACG GAGGCGTCGC CGGATCTTCG TCCATCCCCA AAGACGATGT CATGGTGCTC
    GACAACCCTG GAGCGTTTCA CCGGCATGAT GACGGGGGTG GGTTAAGTCT GGAACTCATT
    CGGGAGGAGT CACAAGCTCC GCTCTTGCCA CCGCGACCGC CCCCTCCTGA AAACCACGCC
    CCCTTGCACA CGTTCACTGC CCATCGGCGC CTCCCACAGG AGAACAGCGA GAGCTTTTTC
    CCCCTTCTCC CCAATGACAC ACACTCTTCC CACACACACA CTCCCCGTGC GCACACACAC
    TCTCCCCTCA GAGACTCGCT TTATACCAGC ATGCCCACGC TCACCGACCT CCCGCACGGC
    ACTGATGACC TCATCAACGG TCTCCATGAC GATGAAGACG AAGAGGAGGA AGAAGACGGT
    GAGGAGGAAG AGGGCAGCGA GCTGCACTTG GCCAACGGCA AAGGGGTCAT CATGGAGTCG
    GACGACGTGT ACTACAAAAG CATGCCCAAC CTGGGCTCCA GGAACCACAT ACAGGAACTA
    GAGAGCTACT ATCAGATGGG ACGTGGCGGC AGTGACGGGT TCATCGCCCC ACCTGAGAAA
    GAAGACTCGT CGCCTGAAGA ACAGCCACCA GATCCTTCAC AACTGGTCAC CAGCCTATAG

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

    CloneID ODa05707
    Clone ID Related Accession (Same CDS sequence) XM_005170941.3 , XM_005170941.4
    Accession Version XM_005170941.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4620bp)
    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 2017-06-14
    Organism Danio rerio(zebrafish)
    Product adhesion G protein-coupled receptor L3 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007112.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_005170941.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    ATGGCTTTAA CGTGTCCGAG ACGCAGCTTC AGCGAGTCAG TGCAGAGGTC AACAGGGTCA 
    TCGGCGGTCA TGTGGTCCAC ACGCCTACTT TTCTTCTTCA CCCTCTTCAC ACCCGTCACG
    CTCGTTTTGA GTCGGGCTCC AGTGCCGATG GCTGTGGTGC GTCGAGAGCT GTCGTGTGAG
    GGTTATCCTA TCGAACTGCG CTGCCCGGGC ACTGATGTCA TTATGATCGA GAGCGCCAAT
    TATGGGCGCA CAGATGACAA GATCTGTGAC TCGGACCCCG CTCAAATGGA GAACACTCGC
    TGCTATCTGC CTGATGCCTA CAAGATTATG GGCTTCAGGT GTAACAACCG GACTCAGTGT
    GCAGTCGTTG CTGGCCCTGA TGTTTTTCCC GATCCGTGTC CTGGAACGTA CAAATACCTG
    GAGGTTCAGT ATGAGTGTGT GCCATACAAA GTGGAACAGA AAGTCTTTCT CTGCCCAGGT
    GTATTGAGAG GCGTGTACCA GAGTGAACAT CTCTTCGAAT CAGACCACCA GGCTGGATCA
    TGGTGTAAGG ACCCCTTACA GTCATCCAAT AAGATCTACT ACATGCCCTG GACACCGTAT
    CGCACAGACA CACTGACTGA GTATTCATCT AAGGAGGACT TTATTGCAGG TCGCCCTACC
    ACCACATACA AACTGCCCCA TCGGGTGGAC GGCACTGGGT TTGTGGTGTA TGATGGCGCG
    CTTTTCTTCA ACAAGGAACG TACACGCAAC ATTGTTAAAT TCGACTTGCG AACTCGTATC
    AAGAGTGGTG AGGCAATTAT CGCTAACGCT AATTACCATG ACACCTCGCC ATATCGCTGG
    GGTGGAAAGT CTGACATTGA TCTCGCAGTG GATGAAAATG GACTATGGGT GATTTATGCC
    ACCGAACAGA ACAATGGCCG AATCGTGGTC AGTCAGCTCA ACCCCTACAC ACTCAGAGTG
    GAGGGCTCAT GGGATACATC ATACGATAAG AGATCAGCCT CCAATGCCTT CATGATCTGC
    GGAATCCTTT ATGTCGTGAA GAGTGTTTAC GAAGATGACG ATAATGAAGC TCTAGGGAAT
    AAAATTGACT ACATGTACAA CACAGAGAAG AGCCGTGAAA CGCATCTTAG CATCCCATTT
    CCAAATTCCT ACCAATACAT CGCAGCCGTG GACTACAATC CCAGAGACAA CTTGCTGTAT
    GTGTGGAACA ACTACCATGT CGTCATATAT TCTCTCGACT TTGGAAACAA TGACAACAGA
    CTGGGCTTTG ATCCGCCTTC TTCAGTCTTG CTACCTGATC CTCTTCCTCC AGTACGCAGC
    TCCACGACTC CTCCACGCCC ATATACAGGC ACGCTCCGCC CCTCTCTCAC CACTACCACG
    ACGACCACCA TGGTTCCTCC TCGCCGCCAT AACAACGTCC TCCCAGAAGC CCTGACTCGA
    GCGCCTCCCT CCCCGCAGAC TCCCGTCACT GTTGACTATT GTGCCCCACG TCTCACTGCT
    GAAATCTCCT GGCCACGGAC ACACCAGGGA CAAGTTGCTA AGCAACCGTG CCCACCTGGC
    ACCATAGGTG TAGCCACGTT TAATTGTTTG CTTGGCTACT GGGACCCGAA GGGACCAGAT
    CTGAGCAACT GCACCTCACC GTGGACCAAT CATATCACTC AAAGAATGAG ATCGGGCGAA
    ACTGCTGCTA TAGTAGCCCG GGAATTGGCT GAACAGACAA AGGGAGAGTT GAGACCCGGA
    GATGTCCCAT CAACAGTCAA AGCCATGGCA CAGCTGGTGG AACTACTGGA CGTGCAGCTG
    CGAAACCTCA CCCCTGGGGG AAAAGACACC GCCGCACGCA GTTTAAACAA GCTCCAGAAG
    AGAGAACGGT CGTGCCGCTT CTTCATACAG GCCATGGTGG AGACGGTGAA TAACCTTCTG
    CAGGTGCGAT CTCAGGCGGC GTGGAGAGAG CTTTCTGTAG CCGAGCAGCT GCGATGCGCA
    ACCATGCTCC TGGACACGGT GGAGACGGGA GCCTTCATGC TCGCAGACAA CCTGTTAAAA
    ACAGACACCA TACAGGAGAG CACAGACAAC ATCCAACTGG AGGTGGCTCG GCTAAGTACA
    GATGTTAATC TGGCGGATCT AAGCTTCCCC CAATCTGGAC TAACCGGCAA CTCCATTCAT
    CTCTCAGCCA ACACACTCAA ACAGCAAGGA CGCAATGGTG AGATCCGTAT GGCGCTGGTT
    CTTTATAAGA ACCTCGGCCA ATACTTGTCC ACAGAGAATG CAAGCGTGCG TCTTGGCAGC
    GAAGCCGTCT ATCCAAACTA TTCCCTGATA GTCAACTCAC CTGTTATTAC AGCAGCCATT
    AATAAAGACA GTAACAAGGT CTACTTGTCT GAACCTGTGG TCTTCACTGT CAAGCACATA
    CAGTCAGAAG AGAACTTCAA TCCAAACTGC TCTTTCTGGA GTTACTCTAA ACGCACCATG
    ACAGGATTCT GGTCCACTCA GGACTGCAGA CTGCTGGGCA CCAACCGCAC CCACACTTCT
    TGCTCCTGCA CACACCTCAC CAACTTTGCT GTGCTTATGG CCCATGTGGA GGTGAAGAAA
    GCAGACCAGG TGCATGAGCT GCTATTGGAC GTCATAACAT GGGTGGGGAT CCTGCTGTCT
    CTGGTCTGCC TGCTCATCTG CATCTTCACC TTCTGTTTCT TCCGTGGTCT GCAAAGCGAC
    AGGAACACCA TCCACAAAAA CCTCTGCATC TCCCTCTTTA TTGCCGAAAC CCTCTTCCTC
    ACCGGGATCA ACCGTGCAGA CCAGCCTATC GTCTGCGCTG TGTTTGCGGC CCTGCTGCAT
    TTCTTCTTCT TGGCTGCGTT TACGTGGATG TTTCTGGAAG GCGTACAGCT GTACATCATG
    CTGGTGGAAG TGTTCGAGAG CGAGTACTCG CGCACCAAGT ACTTCTATCT CACAGGATAT
    GGAGTGCCAG CTGTCATAGT AGCTGTATCG GCTGCTGTGG ACTACCGTAG CTACGGCACT
    GAAAGAGTGT GCTGGCTCAG GTTAGATACT TACTTTATCT GGAGTTTCAT TGGGCCTGCT
    ACTCTCATCA TCATGCTGAA TGTTATTTTT CTGGGCATTG CACTGTATAA GATGTTTCAC
    CATACAGCCA TTCTCAAGCC TGACTCCGGT TGCCTGGACA ACATCAAGTC CTGGGTTATA
    GGCGCTATTG CTCTGCTGTG TCTGCTGGGT TTGACCTGGG CATTCGGGCT CATGTATATC
    AATGAGAGCA CTGTCATCAT GGCCTACCTC TTCACTATCT TCAACTCGCT GCAGGGAATG
    TTCATCTTCA TATTTCACTG CATCCTGCAG AAAAAGGTGC GTAAGGAATA TGGCCGATGT
    CTCCGCACAC ACTGCTGCAG TGGGAAGAGT GTGGAGTCAA CCATCTCCAC CTCAACAAAG
    ACAAGCACAG CCCGCACACC TGGACGCTAC TCCACCAACT CACAAAGTCG TATTCGTAGG
    ATGTGGAATG ACACCGTCAG GAAGCAGTCA GAATCGTCTT TCATCACCGC TGATATGAAC
    AGCTCAGCGA CTCTCAATAG AGGTACCATG GCTAACCATC TCATCTCCAA TGCTTTGTTA
    CGTCCTCATG GCACTAATCC TTATAACACA CTACTGGGAG AGTCTGCTGT GTACAATAAC
    CCTACTGCCA ACATGTTCAA CACCCAAGCC TCCTACAGAG ATTCAAAGGG CATTCTCAAC
    AACGCACGGG ACTCCAGCGT CATGGATACT CTGCCTCTTA ATGGCAACCA TGGCAACAGC
    TATGGTGTGG CAGCAGGAGA TTACCTTACC TACAGTTCCC GTGGCAGCGA GCCACCAACT
    ACGCTTGAGA AGAAGATCCT GAAAGAGCTG ACGGCGAACT ACGCTCCTTC ATACCTGAAC
    ACACAGGAGC GACAGGGAAA AGCCCACCAG GGCACCCTGA CAAATAAACT CAACAACCAT
    CTGGCCAACG GAGGCGTCGC CGGATCTTCG TCCATCCCCA AAGACGATGT CATGGTGCTC
    GACAACCCTG GAGCGTTTCA CCGGCATGAT GACGGGGGTG GGTTAAGTCT GGAACTCATT
    CGGGAGGAGT CACAAGCTCC GCTCTTGCCA CCGCGACCGC CCCCTCCTGA AAACCACGCC
    CCCTTGCACA CGTTCACTGC CCATCGGCGC CTCCCACAGG AGAACAGCGA GAGCTTTTTC
    CCCCTTCTCC CCAATGACAC ACACTCTTCC CACACACACA CTCCCCGTGC GCACACACAC
    TCTCCCCTCA GAGACTCGCT TTATACCAGC ATGCCCACGC TCACCGACCT CCCGCACGGC
    ACTGATGACC TCATCAACGG TCTCCATGAC GATGAAGACG AAGAGGAGGA AGAAGACGGT
    GAGGAGGAAG AGGGCAGCGA GCTGCACTTG GCCAACGGCA AAGGGGTCAT CATGGAGTCG
    GACGACGTGT ACTACAAAAG CATGCCCAAC CTGGGCTCCA GGAACCACAT ACAGGAACTA
    GAGAGCTACT ATCAGATGGG ACGTGGCGGC AGTGACGGGT TCATCGCCCC ACCTGAGAAA
    GAAGACTCGT CGCCTGAAGA ACAGCCACCA GATCCTTCAC AACTGGTCAC CAGCCTATAG

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

    RefSeq XP_005170998.1
    CDS583..5202
    Translation

    Target ORF information:

    RefSeq Version XM_005170941.4
    Organism Danio rerio(zebrafish)
    Definition Danio rerio adhesion G protein-coupled receptor L3.1 (adgrl3.1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005170941.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGGCTTTAA CGTGTCCGAG ACGCAGCTTC AGCGAGTCAG TGCAGAGGTC AACAGGGTCA 
    TCGGCGGTCA TGTGGTCCAC ACGCCTACTT TTCTTCTTCA CCCTCTTCAC ACCCGTCACG
    CTCGTTTTGA GTCGGGCTCC AGTGCCGATG GCTGTGGTGC GTCGAGAGCT GTCGTGTGAG
    GGTTATCCTA TCGAACTGCG CTGCCCGGGC ACTGATGTCA TTATGATCGA GAGCGCCAAT
    TATGGGCGCA CAGATGACAA GATCTGTGAC TCGGACCCCG CTCAAATGGA GAACACTCGC
    TGCTATCTGC CTGATGCCTA CAAGATTATG GGCTTCAGGT GTAACAACCG GACTCAGTGT
    GCAGTCGTTG CTGGCCCTGA TGTTTTTCCC GATCCGTGTC CTGGAACGTA CAAATACCTG
    GAGGTTCAGT ATGAGTGTGT GCCATACAAA GTGGAACAGA AAGTCTTTCT CTGCCCAGGT
    GTATTGAGAG GCGTGTACCA GAGTGAACAT CTCTTCGAAT CAGACCACCA GGCTGGATCA
    TGGTGTAAGG ACCCCTTACA GTCATCCAAT AAGATCTACT ACATGCCCTG GACACCGTAT
    CGCACAGACA CACTGACTGA GTATTCATCT AAGGAGGACT TTATTGCAGG TCGCCCTACC
    ACCACATACA AACTGCCCCA TCGGGTGGAC GGCACTGGGT TTGTGGTGTA TGATGGCGCG
    CTTTTCTTCA ACAAGGAACG TACACGCAAC ATTGTTAAAT TCGACTTGCG AACTCGTATC
    AAGAGTGGTG AGGCAATTAT CGCTAACGCT AATTACCATG ACACCTCGCC ATATCGCTGG
    GGTGGAAAGT CTGACATTGA TCTCGCAGTG GATGAAAATG GACTATGGGT GATTTATGCC
    ACCGAACAGA ACAATGGCCG AATCGTGGTC AGTCAGCTCA ACCCCTACAC ACTCAGAGTG
    GAGGGCTCAT GGGATACATC ATACGATAAG AGATCAGCCT CCAATGCCTT CATGATCTGC
    GGAATCCTTT ATGTCGTGAA GAGTGTTTAC GAAGATGACG ATAATGAAGC TCTAGGGAAT
    AAAATTGACT ACATGTACAA CACAGAGAAG AGCCGTGAAA CGCATCTTAG CATCCCATTT
    CCAAATTCCT ACCAATACAT CGCAGCCGTG GACTACAATC CCAGAGACAA CTTGCTGTAT
    GTGTGGAACA ACTACCATGT CGTCATATAT TCTCTCGACT TTGGAAACAA TGACAACAGA
    CTGGGCTTTG ATCCGCCTTC TTCAGTCTTG CTACCTGATC CTCTTCCTCC AGTACGCAGC
    TCCACGACTC CTCCACGCCC ATATACAGGC ACGCTCCGCC CCTCTCTCAC CACTACCACG
    ACGACCACCA TGGTTCCTCC TCGCCGCCAT AACAACGTCC TCCCAGAAGC CCTGACTCGA
    GCGCCTCCCT CCCCGCAGAC TCCCGTCACT GTTGACTATT GTGCCCCACG TCTCACTGCT
    GAAATCTCCT GGCCACGGAC ACACCAGGGA CAAGTTGCTA AGCAACCGTG CCCACCTGGC
    ACCATAGGTG TAGCCACGTT TAATTGTTTG CTTGGCTACT GGGACCCGAA GGGACCAGAT
    CTGAGCAACT GCACCTCACC GTGGACCAAT CATATCACTC AAAGAATGAG ATCGGGCGAA
    ACTGCTGCTA TAGTAGCCCG GGAATTGGCT GAACAGACAA AGGGAGAGTT GAGACCCGGA
    GATGTCCCAT CAACAGTCAA AGCCATGGCA CAGCTGGTGG AACTACTGGA CGTGCAGCTG
    CGAAACCTCA CCCCTGGGGG AAAAGACACC GCCGCACGCA GTTTAAACAA GCTCCAGAAG
    AGAGAACGGT CGTGCCGCTT CTTCATACAG GCCATGGTGG AGACGGTGAA TAACCTTCTG
    CAGGTGCGAT CTCAGGCGGC GTGGAGAGAG CTTTCTGTAG CCGAGCAGCT GCGATGCGCA
    ACCATGCTCC TGGACACGGT GGAGACGGGA GCCTTCATGC TCGCAGACAA CCTGTTAAAA
    ACAGACACCA TACAGGAGAG CACAGACAAC ATCCAACTGG AGGTGGCTCG GCTAAGTACA
    GATGTTAATC TGGCGGATCT AAGCTTCCCC CAATCTGGAC TAACCGGCAA CTCCATTCAT
    CTCTCAGCCA ACACACTCAA ACAGCAAGGA CGCAATGGTG AGATCCGTAT GGCGCTGGTT
    CTTTATAAGA ACCTCGGCCA ATACTTGTCC ACAGAGAATG CAAGCGTGCG TCTTGGCAGC
    GAAGCCGTCT ATCCAAACTA TTCCCTGATA GTCAACTCAC CTGTTATTAC AGCAGCCATT
    AATAAAGACA GTAACAAGGT CTACTTGTCT GAACCTGTGG TCTTCACTGT CAAGCACATA
    CAGTCAGAAG AGAACTTCAA TCCAAACTGC TCTTTCTGGA GTTACTCTAA ACGCACCATG
    ACAGGATTCT GGTCCACTCA GGACTGCAGA CTGCTGGGCA CCAACCGCAC CCACACTTCT
    TGCTCCTGCA CACACCTCAC CAACTTTGCT GTGCTTATGG CCCATGTGGA GGTGAAGAAA
    GCAGACCAGG TGCATGAGCT GCTATTGGAC GTCATAACAT GGGTGGGGAT CCTGCTGTCT
    CTGGTCTGCC TGCTCATCTG CATCTTCACC TTCTGTTTCT TCCGTGGTCT GCAAAGCGAC
    AGGAACACCA TCCACAAAAA CCTCTGCATC TCCCTCTTTA TTGCCGAAAC CCTCTTCCTC
    ACCGGGATCA ACCGTGCAGA CCAGCCTATC GTCTGCGCTG TGTTTGCGGC CCTGCTGCAT
    TTCTTCTTCT TGGCTGCGTT TACGTGGATG TTTCTGGAAG GCGTACAGCT GTACATCATG
    CTGGTGGAAG TGTTCGAGAG CGAGTACTCG CGCACCAAGT ACTTCTATCT CACAGGATAT
    GGAGTGCCAG CTGTCATAGT AGCTGTATCG GCTGCTGTGG ACTACCGTAG CTACGGCACT
    GAAAGAGTGT GCTGGCTCAG GTTAGATACT TACTTTATCT GGAGTTTCAT TGGGCCTGCT
    ACTCTCATCA TCATGCTGAA TGTTATTTTT CTGGGCATTG CACTGTATAA GATGTTTCAC
    CATACAGCCA TTCTCAAGCC TGACTCCGGT TGCCTGGACA ACATCAAGTC CTGGGTTATA
    GGCGCTATTG CTCTGCTGTG TCTGCTGGGT TTGACCTGGG CATTCGGGCT CATGTATATC
    AATGAGAGCA CTGTCATCAT GGCCTACCTC TTCACTATCT TCAACTCGCT GCAGGGAATG
    TTCATCTTCA TATTTCACTG CATCCTGCAG AAAAAGGTGC GTAAGGAATA TGGCCGATGT
    CTCCGCACAC ACTGCTGCAG TGGGAAGAGT GTGGAGTCAA CCATCTCCAC CTCAACAAAG
    ACAAGCACAG CCCGCACACC TGGACGCTAC TCCACCAACT CACAAAGTCG TATTCGTAGG
    ATGTGGAATG ACACCGTCAG GAAGCAGTCA GAATCGTCTT TCATCACCGC TGATATGAAC
    AGCTCAGCGA CTCTCAATAG AGGTACCATG GCTAACCATC TCATCTCCAA TGCTTTGTTA
    CGTCCTCATG GCACTAATCC TTATAACACA CTACTGGGAG AGTCTGCTGT GTACAATAAC
    CCTACTGCCA ACATGTTCAA CACCCAAGCC TCCTACAGAG ATTCAAAGGG CATTCTCAAC
    AACGCACGGG ACTCCAGCGT CATGGATACT CTGCCTCTTA ATGGCAACCA TGGCAACAGC
    TATGGTGTGG CAGCAGGAGA TTACCTTACC TACAGTTCCC GTGGCAGCGA GCCACCAACT
    ACGCTTGAGA AGAAGATCCT GAAAGAGCTG ACGGCGAACT ACGCTCCTTC ATACCTGAAC
    ACACAGGAGC GACAGGGAAA AGCCCACCAG GGCACCCTGA CAAATAAACT CAACAACCAT
    CTGGCCAACG GAGGCGTCGC CGGATCTTCG TCCATCCCCA AAGACGATGT CATGGTGCTC
    GACAACCCTG GAGCGTTTCA CCGGCATGAT GACGGGGGTG GGTTAAGTCT GGAACTCATT
    CGGGAGGAGT CACAAGCTCC GCTCTTGCCA CCGCGACCGC CCCCTCCTGA AAACCACGCC
    CCCTTGCACA CGTTCACTGC CCATCGGCGC CTCCCACAGG AGAACAGCGA GAGCTTTTTC
    CCCCTTCTCC CCAATGACAC ACACTCTTCC CACACACACA CTCCCCGTGC GCACACACAC
    TCTCCCCTCA GAGACTCGCT TTATACCAGC ATGCCCACGC TCACCGACCT CCCGCACGGC
    ACTGATGACC TCATCAACGG TCTCCATGAC GATGAAGACG AAGAGGAGGA AGAAGACGGT
    GAGGAGGAAG AGGGCAGCGA GCTGCACTTG GCCAACGGCA AAGGGGTCAT CATGGAGTCG
    GACGACGTGT ACTACAAAAG CATGCCCAAC CTGGGCTCCA GGAACCACAT ACAGGAACTA
    GAGAGCTACT ATCAGATGGG ACGTGGCGGC AGTGACGGGT TCATCGCCCC ACCTGAGAAA
    GAAGACTCGT CGCCTGAAGA ACAGCCACCA GATCCTTCAC AACTGGTCAC CAGCCTATAG

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

    CloneID ODa05708
    Clone ID Related Accession (Same CDS sequence) XM_005170942.4 , XM_005170942.3
    Accession Version XM_005170942.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4605bp)
    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 2017-06-14
    Organism Danio rerio(zebrafish)
    Product adhesion G protein-coupled receptor L3 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007112.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_005170942.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    ATGGCTTTAA CGTGTCCGAG ACGCAGCTTC AGCGAGTCAG TGCAGAGGTC AACAGGGTCA 
    TCGGCGGTCA TGTGGTCCAC ACGCCTACTT TTCTTCTTCA CCCTCTTCAC ACCCGTCACG
    CTCGTTTTGA GTCGGGCTCC AGTGCCGATG GCTGTGGTGC GTCGAGAGCT GTCGTGTGAG
    GGTTATCCTA TCGAACTGCG CTGCCCGGGC ACTGATGTCA TTATGATCGA GAGCGCCAAT
    TATGGGCGCA CAGATGACAA GATCTGTGAC TCGGACCCCG CTCAAATGGA GAACACTCGC
    TGCTATCTGC CTGATGCCTA CAAGATTATG GGCTTCAGGT GTAACAACCG GACTCAGTGT
    GCAGTCGTTG CTGGCCCTGA TGTTTTTCCC GATCCGTGTC CTGGAACGTA CAAATACCTG
    GAGGTTCAGT ATGAGTGTGT GCCATACAAA GTGGAACAGA AAGTCTTTCT CTGCCCAGGT
    GTATTGAGAG GCGTGTACCA GAGTGAACAT CTCTTCGAAT CAGACCACCA GGCTGGATCA
    TGGTGTAAGG ACCCCTTACA GTCATCCAAT AAGATCTACT ACATGCCCTG GACACCGTAT
    CGCACAGACA CACTGACTGA GTATTCATCT AAGGAGGACT TTATTGCAGG TCGCCCTACC
    ACCACATACA AACTGCCCCA TCGGGTGGAC GGCACTGGGT TTGTGGTGTA TGATGGCGCG
    CTTTTCTTCA ACAAGGAACG TACACGCAAC ATTGTTAAAT TCGACTTGCG AACTCGTATC
    AAGAGTGGTG AGGCAATTAT CGCTAACGCT AATTACCATG ACACCTCGCC ATATCGCTGG
    GGTGGAAAGT CTGACATTGA TCTCGCAGTG GATGAAAATG GACTATGGGT GATTTATGCC
    ACCGAACAGA ACAATGGCCG AATCGTGGTC AGTCAGCTCA ACCCCTACAC ACTCAGAGTG
    GAGGGCTCAT GGGATACATC ATACGATAAG AGATCAGCCT CCAATGCCTT CATGATCTGC
    GGAATCCTTT ATGTCGTGAA GAGTGTTTAC GAAGATGACG ATAATGAAGC TCTAGGGAAT
    AAAATTGACT ACATGTACAA CACAGAGAAG AGCCGTGAAA CGCATCTTAG CATCCCATTT
    CCAAATTCCT ACCAATACAT CGCAGCCGTG GACTACAATC CCAGAGACAA CTTGCTGTAT
    GTGTGGAACA ACTACCATGT CGTCATATAT TCTCTCGACT TTGGAAACAA TGACAACAGA
    CTGGGCTTTG ATCCGCCTTC TTCAGTCTTG CTACCTGATC CTCTTCCTCC AGTACGCAGC
    TCCACGACTC CTCCACGCCC ATATACAGGC ACGCTCCGCC CCTCTCTCAC CACTACCACG
    ACGACCACCA TGGTTCCTCC TCGCCGCCAT AACAACGTCC TCCCAGAAGC CCTGACTCGA
    GCGCCTCCCT CCCCGCAGAC TCCCGTCACT GTTGACTATT GTGCCCCACG TCTCACTGCT
    GAAATCTCCT GGCCACGGAC ACACCAGGGA CAAGTTGCTA AGCAACCGTG CCCACCTGGC
    ACCATAGGTG TAGCCACGTT TAATTGTTTG CTTGGCTACT GGGACCCGAA GGGACCAGAT
    CTGAGCAACT GCACCTCACC GTGGACCAAT CATATCACTC AAAGAATGAG ATCGGGCGAA
    ACTGCTGCTA TAGTAGCCCG GGAATTGGCT GAACAGACAA AGGGAGAGTT GAGACCCGGA
    GATGTCCCAT CAACAGTCAA AGCCATGGCA CAGCTGGTGG AACTACTGGA CGTGCAGCTG
    CGAAACCTCA CCCCTGGGGG AAAAGACACC GCCGCACGCA GTTTAAACAA GCTCCAGAAG
    AGAGAACGGT CGTGCCGCTT CTTCATACAG GCCATGGTGG AGACGGTGAA TAACCTTCTG
    CAGGTGCGAT CTCAGGCGGC GTGGAGAGAG CTTTCTGTAG CCGAGCAGCT GCGATGCGCA
    ACCATGCTCC TGGACACGGT GGAGACGGGA GCCTTCATGC TCGCAGACAA CCTGTTAAAA
    ACAGACACCA TACAGGAGAG CACAGACAAC ATCCAACTGG AGGTGGCTCG GCTAAGTACA
    GATGTTAATC TGGCGGATCT AAGCTTCCCC CAATCTGGAC TAACCGGCAA CTCCATTCAT
    CTCTCAGCCA ACACACTCAA ACAGCAAGGA CGCAATGGTG AGATCCGTAT GGCGCTGGTT
    CTTTATAAGA ACCTCGGCCA ATACTTGTCC ACAGAGAATG CAAGCGTGCG TCTTGGCAGC
    GAAGCCGTCT ATCCAAACTA TTCCCTGATA GTCAACTCAC CTGTTATTAC AGCAGCCATT
    AATAAAGACA GTAACAAGGT CTACTTGTCT GAACCTGTGG TCTTCACTGT CAAGCACATA
    CAGCAGTCAG AAGAGAACTT CAATCCAAAC TGCTCTTTCT GGAGTTACTC TAAACGCACC
    ATGACAGGAT TCTGGTCCAC TCAGGACTGC AGACTGCTGG GCACCAACCG CACCCACACT
    TCTTGCTCCT GCACACACCT CACCAACTTT GCTGTGCTTA TGGCCCATGT GGAGGTGAAG
    AAAGCAGACC AGGTGCATGA GCTGCTATTG GACGTCATAA CATGGGTGGG GATCCTGCTG
    TCTCTGGTCT GCCTGCTCAT CTGCATCTTC ACCTTCTGTT TCTTCCGTGG TCTGCAAAGC
    GACAGGAACA CCATCCACAA AAACCTCTGC ATCTCCCTCT TTATTGCCGA AACCCTCTTC
    CTCACCGGGA TCAACCGTGC AGACCAGCCT ATCGTCTGCG CTGTGTTTGC GGCCCTGCTG
    CATTTCTTCT TCTTGGCTGC GTTTACGTGG ATGTTTCTGG AAGGCGTACA GCTGTACATC
    ATGCTGGTGG AAGTGTTCGA GAGCGAGTAC TCGCGCACCA AGTACTTCTA TCTCACAGGA
    TATGGAGTGC CAGCTGTCAT AGTAGCTGTA TCGGCTGCTG TGGACTACCG TAGCTACGGC
    ACTGAAAGAG TGTGCTGGCT CAGGTTAGAT ACTTACTTTA TCTGGAGTTT CATTGGGCCT
    GCTACTCTCA TCATCATGCT GAATGTTATT TTTCTGGGCA TTGCACTGTA TAAGATGTTT
    CACCATACAG CCATTCTCAA GCCTGACTCC GGTTGCCTGG ACAACATCAA GTCCTGGGTT
    ATAGGCGCTA TTGCTCTGCT GTGTCTGCTG GGTTTGACCT GGGCATTCGG GCTCATGTAT
    ATCAATGAGA GCACTGTCAT CATGGCCTAC CTCTTCACTA TCTTCAACTC GCTGCAGGGA
    ATGTTCATCT TCATATTTCA CTGCATCCTG CAGAAAAAGG TGCGTAAGGA ATATGGCCGA
    TGTCTCCGCA CACACTGCTG CAGTGGGAAG AGTGTGGAGT CAACCATCTC CACCTCAACA
    AAGACAAGCA CAGCCCGCAC ACCTGGACGC TACTCCACCA ACTCACAAAG TCGTATTCGT
    AGGATGTGGA ATGACACCGT CAGGAAGCAG TCAGAATCGT CTTTCATCAC CGCTGATATG
    AACAGCTCAG CGACTCTCAA TAGAGGTACC ATGGCTAACC ATCTCATCTC CAATGCTTTG
    TTACGTCCTC ATGGCACTAA TCCTTATAAC ACACTACTGG GAGAGTCTGC TGTGTACAAT
    AACCCTACTG CCAACATGTT CAACACCCAA GAGGGCATTC TCAACAACGC ACGGGACTCC
    AGCGTCATGG ATACTCTGCC TCTTAATGGC AACCATGGCA ACAGCTATGG TGTGGCAGCA
    GGAGATTACC TTACCTACAG TTCCCGTGGC AGCGAGCCAC CAACTACGCT TGAGAAGAAG
    ATCCTGAAAG AGCTGACGGC GAACTACGCT CCTTCATACC TGAACACACA GGAGCGACAG
    GGAAAAGCCC ACCAGGGCAC CCTGACAAAT AAACTCAACA ACCATCTGGC CAACGGAGGC
    GTCGCCGGAT CTTCGTCCAT CCCCAAAGAC GATGTCATGG TGCTCGACAA CCCTGGAGCG
    TTTCACCGGC ATGATGACGG GGGTGGGTTA AGTCTGGAAC TCATTCGGGA GGAGTCACAA
    GCTCCGCTCT TGCCACCGCG ACCGCCCCCT CCTGAAAACC ACGCCCCCTT GCACACGTTC
    ACTGCCCATC GGCGCCTCCC ACAGGAGAAC AGCGAGAGCT TTTTCCCCCT TCTCCCCAAT
    GACACACACT CTTCCCACAC ACACACTCCC CGTGCGCACA CACACTCTCC CCTCAGAGAC
    TCGCTTTATA CCAGCATGCC CACGCTCACC GACCTCCCGC ACGGCACTGA TGACCTCATC
    AACGGTCTCC ATGACGATGA AGACGAAGAG GAGGAAGAAG ACGGTGAGGA GGAAGAGGGC
    AGCGAGCTGC ACTTGGCCAA CGGCAAAGGG GTCATCATGG AGTCGGACGA CGTGTACTAC
    AAAAGCATGC CCAACCTGGG CTCCAGGAAC CACATACAGG AACTAGAGAG CTACTATCAG
    ATGGGACGTG GCGGCAGTGA CGGGTTCATC GCCCCACCTG AGAAAGAAGA CTCGTCGCCT
    GAAGAACAGC CACCAGATCC TTCACAACTG GTCACCAGCC TATAG

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

    RefSeq XP_005170999.1
    CDS583..5187
    Translation

    Target ORF information:

    RefSeq Version XM_005170942.4
    Organism Danio rerio(zebrafish)
    Definition Danio rerio adhesion G protein-coupled receptor L3.1 (adgrl3.1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005170942.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGGCTTTAA CGTGTCCGAG ACGCAGCTTC AGCGAGTCAG TGCAGAGGTC AACAGGGTCA 
    TCGGCGGTCA TGTGGTCCAC ACGCCTACTT TTCTTCTTCA CCCTCTTCAC ACCCGTCACG
    CTCGTTTTGA GTCGGGCTCC AGTGCCGATG GCTGTGGTGC GTCGAGAGCT GTCGTGTGAG
    GGTTATCCTA TCGAACTGCG CTGCCCGGGC ACTGATGTCA TTATGATCGA GAGCGCCAAT
    TATGGGCGCA CAGATGACAA GATCTGTGAC TCGGACCCCG CTCAAATGGA GAACACTCGC
    TGCTATCTGC CTGATGCCTA CAAGATTATG GGCTTCAGGT GTAACAACCG GACTCAGTGT
    GCAGTCGTTG CTGGCCCTGA TGTTTTTCCC GATCCGTGTC CTGGAACGTA CAAATACCTG
    GAGGTTCAGT ATGAGTGTGT GCCATACAAA GTGGAACAGA AAGTCTTTCT CTGCCCAGGT
    GTATTGAGAG GCGTGTACCA GAGTGAACAT CTCTTCGAAT CAGACCACCA GGCTGGATCA
    TGGTGTAAGG ACCCCTTACA GTCATCCAAT AAGATCTACT ACATGCCCTG GACACCGTAT
    CGCACAGACA CACTGACTGA GTATTCATCT AAGGAGGACT TTATTGCAGG TCGCCCTACC
    ACCACATACA AACTGCCCCA TCGGGTGGAC GGCACTGGGT TTGTGGTGTA TGATGGCGCG
    CTTTTCTTCA ACAAGGAACG TACACGCAAC ATTGTTAAAT TCGACTTGCG AACTCGTATC
    AAGAGTGGTG AGGCAATTAT CGCTAACGCT AATTACCATG ACACCTCGCC ATATCGCTGG
    GGTGGAAAGT CTGACATTGA TCTCGCAGTG GATGAAAATG GACTATGGGT GATTTATGCC
    ACCGAACAGA ACAATGGCCG AATCGTGGTC AGTCAGCTCA ACCCCTACAC ACTCAGAGTG
    GAGGGCTCAT GGGATACATC ATACGATAAG AGATCAGCCT CCAATGCCTT CATGATCTGC
    GGAATCCTTT ATGTCGTGAA GAGTGTTTAC GAAGATGACG ATAATGAAGC TCTAGGGAAT
    AAAATTGACT ACATGTACAA CACAGAGAAG AGCCGTGAAA CGCATCTTAG CATCCCATTT
    CCAAATTCCT ACCAATACAT CGCAGCCGTG GACTACAATC CCAGAGACAA CTTGCTGTAT
    GTGTGGAACA ACTACCATGT CGTCATATAT TCTCTCGACT TTGGAAACAA TGACAACAGA
    CTGGGCTTTG ATCCGCCTTC TTCAGTCTTG CTACCTGATC CTCTTCCTCC AGTACGCAGC
    TCCACGACTC CTCCACGCCC ATATACAGGC ACGCTCCGCC CCTCTCTCAC CACTACCACG
    ACGACCACCA TGGTTCCTCC TCGCCGCCAT AACAACGTCC TCCCAGAAGC CCTGACTCGA
    GCGCCTCCCT CCCCGCAGAC TCCCGTCACT GTTGACTATT GTGCCCCACG TCTCACTGCT
    GAAATCTCCT GGCCACGGAC ACACCAGGGA CAAGTTGCTA AGCAACCGTG CCCACCTGGC
    ACCATAGGTG TAGCCACGTT TAATTGTTTG CTTGGCTACT GGGACCCGAA GGGACCAGAT
    CTGAGCAACT GCACCTCACC GTGGACCAAT CATATCACTC AAAGAATGAG ATCGGGCGAA
    ACTGCTGCTA TAGTAGCCCG GGAATTGGCT GAACAGACAA AGGGAGAGTT GAGACCCGGA
    GATGTCCCAT CAACAGTCAA AGCCATGGCA CAGCTGGTGG AACTACTGGA CGTGCAGCTG
    CGAAACCTCA CCCCTGGGGG AAAAGACACC GCCGCACGCA GTTTAAACAA GCTCCAGAAG
    AGAGAACGGT CGTGCCGCTT CTTCATACAG GCCATGGTGG AGACGGTGAA TAACCTTCTG
    CAGGTGCGAT CTCAGGCGGC GTGGAGAGAG CTTTCTGTAG CCGAGCAGCT GCGATGCGCA
    ACCATGCTCC TGGACACGGT GGAGACGGGA GCCTTCATGC TCGCAGACAA CCTGTTAAAA
    ACAGACACCA TACAGGAGAG CACAGACAAC ATCCAACTGG AGGTGGCTCG GCTAAGTACA
    GATGTTAATC TGGCGGATCT AAGCTTCCCC CAATCTGGAC TAACCGGCAA CTCCATTCAT
    CTCTCAGCCA ACACACTCAA ACAGCAAGGA CGCAATGGTG AGATCCGTAT GGCGCTGGTT
    CTTTATAAGA ACCTCGGCCA ATACTTGTCC ACAGAGAATG CAAGCGTGCG TCTTGGCAGC
    GAAGCCGTCT ATCCAAACTA TTCCCTGATA GTCAACTCAC CTGTTATTAC AGCAGCCATT
    AATAAAGACA GTAACAAGGT CTACTTGTCT GAACCTGTGG TCTTCACTGT CAAGCACATA
    CAGCAGTCAG AAGAGAACTT CAATCCAAAC TGCTCTTTCT GGAGTTACTC TAAACGCACC
    ATGACAGGAT TCTGGTCCAC TCAGGACTGC AGACTGCTGG GCACCAACCG CACCCACACT
    TCTTGCTCCT GCACACACCT CACCAACTTT GCTGTGCTTA TGGCCCATGT GGAGGTGAAG
    AAAGCAGACC AGGTGCATGA GCTGCTATTG GACGTCATAA CATGGGTGGG GATCCTGCTG
    TCTCTGGTCT GCCTGCTCAT CTGCATCTTC ACCTTCTGTT TCTTCCGTGG TCTGCAAAGC
    GACAGGAACA CCATCCACAA AAACCTCTGC ATCTCCCTCT TTATTGCCGA AACCCTCTTC
    CTCACCGGGA TCAACCGTGC AGACCAGCCT ATCGTCTGCG CTGTGTTTGC GGCCCTGCTG
    CATTTCTTCT TCTTGGCTGC GTTTACGTGG ATGTTTCTGG AAGGCGTACA GCTGTACATC
    ATGCTGGTGG AAGTGTTCGA GAGCGAGTAC TCGCGCACCA AGTACTTCTA TCTCACAGGA
    TATGGAGTGC CAGCTGTCAT AGTAGCTGTA TCGGCTGCTG TGGACTACCG TAGCTACGGC
    ACTGAAAGAG TGTGCTGGCT CAGGTTAGAT ACTTACTTTA TCTGGAGTTT CATTGGGCCT
    GCTACTCTCA TCATCATGCT GAATGTTATT TTTCTGGGCA TTGCACTGTA TAAGATGTTT
    CACCATACAG CCATTCTCAA GCCTGACTCC GGTTGCCTGG ACAACATCAA GTCCTGGGTT
    ATAGGCGCTA TTGCTCTGCT GTGTCTGCTG GGTTTGACCT GGGCATTCGG GCTCATGTAT
    ATCAATGAGA GCACTGTCAT CATGGCCTAC CTCTTCACTA TCTTCAACTC GCTGCAGGGA
    ATGTTCATCT TCATATTTCA CTGCATCCTG CAGAAAAAGG TGCGTAAGGA ATATGGCCGA
    TGTCTCCGCA CACACTGCTG CAGTGGGAAG AGTGTGGAGT CAACCATCTC CACCTCAACA
    AAGACAAGCA CAGCCCGCAC ACCTGGACGC TACTCCACCA ACTCACAAAG TCGTATTCGT
    AGGATGTGGA ATGACACCGT CAGGAAGCAG TCAGAATCGT CTTTCATCAC CGCTGATATG
    AACAGCTCAG CGACTCTCAA TAGAGGTACC ATGGCTAACC ATCTCATCTC CAATGCTTTG
    TTACGTCCTC ATGGCACTAA TCCTTATAAC ACACTACTGG GAGAGTCTGC TGTGTACAAT
    AACCCTACTG CCAACATGTT CAACACCCAA GAGGGCATTC TCAACAACGC ACGGGACTCC
    AGCGTCATGG ATACTCTGCC TCTTAATGGC AACCATGGCA ACAGCTATGG TGTGGCAGCA
    GGAGATTACC TTACCTACAG TTCCCGTGGC AGCGAGCCAC CAACTACGCT TGAGAAGAAG
    ATCCTGAAAG AGCTGACGGC GAACTACGCT CCTTCATACC TGAACACACA GGAGCGACAG
    GGAAAAGCCC ACCAGGGCAC CCTGACAAAT AAACTCAACA ACCATCTGGC CAACGGAGGC
    GTCGCCGGAT CTTCGTCCAT CCCCAAAGAC GATGTCATGG TGCTCGACAA CCCTGGAGCG
    TTTCACCGGC ATGATGACGG GGGTGGGTTA AGTCTGGAAC TCATTCGGGA GGAGTCACAA
    GCTCCGCTCT TGCCACCGCG ACCGCCCCCT CCTGAAAACC ACGCCCCCTT GCACACGTTC
    ACTGCCCATC GGCGCCTCCC ACAGGAGAAC AGCGAGAGCT TTTTCCCCCT TCTCCCCAAT
    GACACACACT CTTCCCACAC ACACACTCCC CGTGCGCACA CACACTCTCC CCTCAGAGAC
    TCGCTTTATA CCAGCATGCC CACGCTCACC GACCTCCCGC ACGGCACTGA TGACCTCATC
    AACGGTCTCC ATGACGATGA AGACGAAGAG GAGGAAGAAG ACGGTGAGGA GGAAGAGGGC
    AGCGAGCTGC ACTTGGCCAA CGGCAAAGGG GTCATCATGG AGTCGGACGA CGTGTACTAC
    AAAAGCATGC CCAACCTGGG CTCCAGGAAC CACATACAGG AACTAGAGAG CTACTATCAG
    ATGGGACGTG GCGGCAGTGA CGGGTTCATC GCCCCACCTG AGAAAGAAGA CTCGTCGCCT
    GAAGAACAGC CACCAGATCC TTCACAACTG GTCACCAGCC TATAG

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

    CloneID ODa05708
    Clone ID Related Accession (Same CDS sequence) XM_005170942.4 , XM_005170942.3
    Accession Version XM_005170942.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4605bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product adhesion G protein-coupled receptor L3 isoform X3
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007112.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_005170942.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGGCTTTAA CGTGTCCGAG ACGCAGCTTC AGCGAGTCAG TGCAGAGGTC AACAGGGTCA 
    TCGGCGGTCA TGTGGTCCAC ACGCCTACTT TTCTTCTTCA CCCTCTTCAC ACCCGTCACG
    CTCGTTTTGA GTCGGGCTCC AGTGCCGATG GCTGTGGTGC GTCGAGAGCT GTCGTGTGAG
    GGTTATCCTA TCGAACTGCG CTGCCCGGGC ACTGATGTCA TTATGATCGA GAGCGCCAAT
    TATGGGCGCA CAGATGACAA GATCTGTGAC TCGGACCCCG CTCAAATGGA GAACACTCGC
    TGCTATCTGC CTGATGCCTA CAAGATTATG GGCTTCAGGT GTAACAACCG GACTCAGTGT
    GCAGTCGTTG CTGGCCCTGA TGTTTTTCCC GATCCGTGTC CTGGAACGTA CAAATACCTG
    GAGGTTCAGT ATGAGTGTGT GCCATACAAA GTGGAACAGA AAGTCTTTCT CTGCCCAGGT
    GTATTGAGAG GCGTGTACCA GAGTGAACAT CTCTTCGAAT CAGACCACCA GGCTGGATCA
    TGGTGTAAGG ACCCCTTACA GTCATCCAAT AAGATCTACT ACATGCCCTG GACACCGTAT
    CGCACAGACA CACTGACTGA GTATTCATCT AAGGAGGACT TTATTGCAGG TCGCCCTACC
    ACCACATACA AACTGCCCCA TCGGGTGGAC GGCACTGGGT TTGTGGTGTA TGATGGCGCG
    CTTTTCTTCA ACAAGGAACG TACACGCAAC ATTGTTAAAT TCGACTTGCG AACTCGTATC
    AAGAGTGGTG AGGCAATTAT CGCTAACGCT AATTACCATG ACACCTCGCC ATATCGCTGG
    GGTGGAAAGT CTGACATTGA TCTCGCAGTG GATGAAAATG GACTATGGGT GATTTATGCC
    ACCGAACAGA ACAATGGCCG AATCGTGGTC AGTCAGCTCA ACCCCTACAC ACTCAGAGTG
    GAGGGCTCAT GGGATACATC ATACGATAAG AGATCAGCCT CCAATGCCTT CATGATCTGC
    GGAATCCTTT ATGTCGTGAA GAGTGTTTAC GAAGATGACG ATAATGAAGC TCTAGGGAAT
    AAAATTGACT ACATGTACAA CACAGAGAAG AGCCGTGAAA CGCATCTTAG CATCCCATTT
    CCAAATTCCT ACCAATACAT CGCAGCCGTG GACTACAATC CCAGAGACAA CTTGCTGTAT
    GTGTGGAACA ACTACCATGT CGTCATATAT TCTCTCGACT TTGGAAACAA TGACAACAGA
    CTGGGCTTTG ATCCGCCTTC TTCAGTCTTG CTACCTGATC CTCTTCCTCC AGTACGCAGC
    TCCACGACTC CTCCACGCCC ATATACAGGC ACGCTCCGCC CCTCTCTCAC CACTACCACG
    ACGACCACCA TGGTTCCTCC TCGCCGCCAT AACAACGTCC TCCCAGAAGC CCTGACTCGA
    GCGCCTCCCT CCCCGCAGAC TCCCGTCACT GTTGACTATT GTGCCCCACG TCTCACTGCT
    GAAATCTCCT GGCCACGGAC ACACCAGGGA CAAGTTGCTA AGCAACCGTG CCCACCTGGC
    ACCATAGGTG TAGCCACGTT TAATTGTTTG CTTGGCTACT GGGACCCGAA GGGACCAGAT
    CTGAGCAACT GCACCTCACC GTGGACCAAT CATATCACTC AAAGAATGAG ATCGGGCGAA
    ACTGCTGCTA TAGTAGCCCG GGAATTGGCT GAACAGACAA AGGGAGAGTT GAGACCCGGA
    GATGTCCCAT CAACAGTCAA AGCCATGGCA CAGCTGGTGG AACTACTGGA CGTGCAGCTG
    CGAAACCTCA CCCCTGGGGG AAAAGACACC GCCGCACGCA GTTTAAACAA GCTCCAGAAG
    AGAGAACGGT CGTGCCGCTT CTTCATACAG GCCATGGTGG AGACGGTGAA TAACCTTCTG
    CAGGTGCGAT CTCAGGCGGC GTGGAGAGAG CTTTCTGTAG CCGAGCAGCT GCGATGCGCA
    ACCATGCTCC TGGACACGGT GGAGACGGGA GCCTTCATGC TCGCAGACAA CCTGTTAAAA
    ACAGACACCA TACAGGAGAG CACAGACAAC ATCCAACTGG AGGTGGCTCG GCTAAGTACA
    GATGTTAATC TGGCGGATCT AAGCTTCCCC CAATCTGGAC TAACCGGCAA CTCCATTCAT
    CTCTCAGCCA ACACACTCAA ACAGCAAGGA CGCAATGGTG AGATCCGTAT GGCGCTGGTT
    CTTTATAAGA ACCTCGGCCA ATACTTGTCC ACAGAGAATG CAAGCGTGCG TCTTGGCAGC
    GAAGCCGTCT ATCCAAACTA TTCCCTGATA GTCAACTCAC CTGTTATTAC AGCAGCCATT
    AATAAAGACA GTAACAAGGT CTACTTGTCT GAACCTGTGG TCTTCACTGT CAAGCACATA
    CAGCAGTCAG AAGAGAACTT CAATCCAAAC TGCTCTTTCT GGAGTTACTC TAAACGCACC
    ATGACAGGAT TCTGGTCCAC TCAGGACTGC AGACTGCTGG GCACCAACCG CACCCACACT
    TCTTGCTCCT GCACACACCT CACCAACTTT GCTGTGCTTA TGGCCCATGT GGAGGTGAAG
    AAAGCAGACC AGGTGCATGA GCTGCTATTG GACGTCATAA CATGGGTGGG GATCCTGCTG
    TCTCTGGTCT GCCTGCTCAT CTGCATCTTC ACCTTCTGTT TCTTCCGTGG TCTGCAAAGC
    GACAGGAACA CCATCCACAA AAACCTCTGC ATCTCCCTCT TTATTGCCGA AACCCTCTTC
    CTCACCGGGA TCAACCGTGC AGACCAGCCT ATCGTCTGCG CTGTGTTTGC GGCCCTGCTG
    CATTTCTTCT TCTTGGCTGC GTTTACGTGG ATGTTTCTGG AAGGCGTACA GCTGTACATC
    ATGCTGGTGG AAGTGTTCGA GAGCGAGTAC TCGCGCACCA AGTACTTCTA TCTCACAGGA
    TATGGAGTGC CAGCTGTCAT AGTAGCTGTA TCGGCTGCTG TGGACTACCG TAGCTACGGC
    ACTGAAAGAG TGTGCTGGCT CAGGTTAGAT ACTTACTTTA TCTGGAGTTT CATTGGGCCT
    GCTACTCTCA TCATCATGCT GAATGTTATT TTTCTGGGCA TTGCACTGTA TAAGATGTTT
    CACCATACAG CCATTCTCAA GCCTGACTCC GGTTGCCTGG ACAACATCAA GTCCTGGGTT
    ATAGGCGCTA TTGCTCTGCT GTGTCTGCTG GGTTTGACCT GGGCATTCGG GCTCATGTAT
    ATCAATGAGA GCACTGTCAT CATGGCCTAC CTCTTCACTA TCTTCAACTC GCTGCAGGGA
    ATGTTCATCT TCATATTTCA CTGCATCCTG CAGAAAAAGG TGCGTAAGGA ATATGGCCGA
    TGTCTCCGCA CACACTGCTG CAGTGGGAAG AGTGTGGAGT CAACCATCTC CACCTCAACA
    AAGACAAGCA CAGCCCGCAC ACCTGGACGC TACTCCACCA ACTCACAAAG TCGTATTCGT
    AGGATGTGGA ATGACACCGT CAGGAAGCAG TCAGAATCGT CTTTCATCAC CGCTGATATG
    AACAGCTCAG CGACTCTCAA TAGAGGTACC ATGGCTAACC ATCTCATCTC CAATGCTTTG
    TTACGTCCTC ATGGCACTAA TCCTTATAAC ACACTACTGG GAGAGTCTGC TGTGTACAAT
    AACCCTACTG CCAACATGTT CAACACCCAA GAGGGCATTC TCAACAACGC ACGGGACTCC
    AGCGTCATGG ATACTCTGCC TCTTAATGGC AACCATGGCA ACAGCTATGG TGTGGCAGCA
    GGAGATTACC TTACCTACAG TTCCCGTGGC AGCGAGCCAC CAACTACGCT TGAGAAGAAG
    ATCCTGAAAG AGCTGACGGC GAACTACGCT CCTTCATACC TGAACACACA GGAGCGACAG
    GGAAAAGCCC ACCAGGGCAC CCTGACAAAT AAACTCAACA ACCATCTGGC CAACGGAGGC
    GTCGCCGGAT CTTCGTCCAT CCCCAAAGAC GATGTCATGG TGCTCGACAA CCCTGGAGCG
    TTTCACCGGC ATGATGACGG GGGTGGGTTA AGTCTGGAAC TCATTCGGGA GGAGTCACAA
    GCTCCGCTCT TGCCACCGCG ACCGCCCCCT CCTGAAAACC ACGCCCCCTT GCACACGTTC
    ACTGCCCATC GGCGCCTCCC ACAGGAGAAC AGCGAGAGCT TTTTCCCCCT TCTCCCCAAT
    GACACACACT CTTCCCACAC ACACACTCCC CGTGCGCACA CACACTCTCC CCTCAGAGAC
    TCGCTTTATA CCAGCATGCC CACGCTCACC GACCTCCCGC ACGGCACTGA TGACCTCATC
    AACGGTCTCC ATGACGATGA AGACGAAGAG GAGGAAGAAG ACGGTGAGGA GGAAGAGGGC
    AGCGAGCTGC ACTTGGCCAA CGGCAAAGGG GTCATCATGG AGTCGGACGA CGTGTACTAC
    AAAAGCATGC CCAACCTGGG CTCCAGGAAC CACATACAGG AACTAGAGAG CTACTATCAG
    ATGGGACGTG GCGGCAGTGA CGGGTTCATC GCCCCACCTG AGAAAGAAGA CTCGTCGCCT
    GAAGAACAGC CACCAGATCC TTCACAACTG GTCACCAGCC TATAG

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

    RefSeq XP_005170999.1
    CDS617..5221
    Translation

    Target ORF information:

    RefSeq Version XM_005170942.3
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio adhesion G protein-coupled receptor L3.1 (adgrl3.1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005170942.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGGCTTTAA CGTGTCCGAG ACGCAGCTTC AGCGAGTCAG TGCAGAGGTC AACAGGGTCA 
    TCGGCGGTCA TGTGGTCCAC ACGCCTACTT TTCTTCTTCA CCCTCTTCAC ACCCGTCACG
    CTCGTTTTGA GTCGGGCTCC AGTGCCGATG GCTGTGGTGC GTCGAGAGCT GTCGTGTGAG
    GGTTATCCTA TCGAACTGCG CTGCCCGGGC ACTGATGTCA TTATGATCGA GAGCGCCAAT
    TATGGGCGCA CAGATGACAA GATCTGTGAC TCGGACCCCG CTCAAATGGA GAACACTCGC
    TGCTATCTGC CTGATGCCTA CAAGATTATG GGCTTCAGGT GTAACAACCG GACTCAGTGT
    GCAGTCGTTG CTGGCCCTGA TGTTTTTCCC GATCCGTGTC CTGGAACGTA CAAATACCTG
    GAGGTTCAGT ATGAGTGTGT GCCATACAAA GTGGAACAGA AAGTCTTTCT CTGCCCAGGT
    GTATTGAGAG GCGTGTACCA GAGTGAACAT CTCTTCGAAT CAGACCACCA GGCTGGATCA
    TGGTGTAAGG ACCCCTTACA GTCATCCAAT AAGATCTACT ACATGCCCTG GACACCGTAT
    CGCACAGACA CACTGACTGA GTATTCATCT AAGGAGGACT TTATTGCAGG TCGCCCTACC
    ACCACATACA AACTGCCCCA TCGGGTGGAC GGCACTGGGT TTGTGGTGTA TGATGGCGCG
    CTTTTCTTCA ACAAGGAACG TACACGCAAC ATTGTTAAAT TCGACTTGCG AACTCGTATC
    AAGAGTGGTG AGGCAATTAT CGCTAACGCT AATTACCATG ACACCTCGCC ATATCGCTGG
    GGTGGAAAGT CTGACATTGA TCTCGCAGTG GATGAAAATG GACTATGGGT GATTTATGCC
    ACCGAACAGA ACAATGGCCG AATCGTGGTC AGTCAGCTCA ACCCCTACAC ACTCAGAGTG
    GAGGGCTCAT GGGATACATC ATACGATAAG AGATCAGCCT CCAATGCCTT CATGATCTGC
    GGAATCCTTT ATGTCGTGAA GAGTGTTTAC GAAGATGACG ATAATGAAGC TCTAGGGAAT
    AAAATTGACT ACATGTACAA CACAGAGAAG AGCCGTGAAA CGCATCTTAG CATCCCATTT
    CCAAATTCCT ACCAATACAT CGCAGCCGTG GACTACAATC CCAGAGACAA CTTGCTGTAT
    GTGTGGAACA ACTACCATGT CGTCATATAT TCTCTCGACT TTGGAAACAA TGACAACAGA
    CTGGGCTTTG ATCCGCCTTC TTCAGTCTTG CTACCTGATC CTCTTCCTCC AGTACGCAGC
    TCCACGACTC CTCCACGCCC ATATACAGGC ACGCTCCGCC CCTCTCTCAC CACTACCACG
    ACGACCACCA TGGTTCCTCC TCGCCGCCAT AACAACGTCC TCCCAGAAGC CCTGACTCGA
    GCGCCTCCCT CCCCGCAGAC TCCCGTCACT GTTGACTATT GTGCCCCACG TCTCACTGCT
    GAAATCTCCT GGCCACGGAC ACACCAGGGA CAAGTTGCTA AGCAACCGTG CCCACCTGGC
    ACCATAGGTG TAGCCACGTT TAATTGTTTG CTTGGCTACT GGGACCCGAA GGGACCAGAT
    CTGAGCAACT GCACCTCACC GTGGACCAAT CATATCACTC AAAGAATGAG ATCGGGCGAA
    ACTGCTGCTA TAGTAGCCCG GGAATTGGCT GAACAGACAA AGGGAGAGTT GAGACCCGGA
    GATGTCCCAT CAACAGTCAA AGCCATGGCA CAGCTGGTGG AACTACTGGA CGTGCAGCTG
    CGAAACCTCA CCCCTGGGGG AAAAGACACC GCCGCACGCA GTTTAAACAA GCTCCAGAAG
    AGAGAACGGT CGTGCCGCTT CTTCATACAG GCCATGGTGG AGACGGTGAA TAACCTTCTG
    CAGGTGCGAT CTCAGGCGGC GTGGAGAGAG CTTTCTGTAG CCGAGCAGCT GCGATGCGCA
    ACCATGCTCC TGGACACGGT GGAGACGGGA GCCTTCATGC TCGCAGACAA CCTGTTAAAA
    ACAGACACCA TACAGGAGAG CACAGACAAC ATCCAACTGG AGGTGGCTCG GCTAAGTACA
    GATGTTAATC TGGCGGATCT AAGCTTCCCC CAATCTGGAC TAACCGGCAA CTCCATTCAT
    CTCTCAGCCA ACACACTCAA ACAGCAAGGA CGCAATGGTG AGATCCGTAT GGCGCTGGTT
    CTTTATAAGA ACCTCGGCCA ATACTTGTCC ACAGAGAATG CAAGCGTGCG TCTTGGCAGC
    GAAGCCGTCT ATCCAAACTA TTCCCTGATA GTCAACTCAC CTGTTATTAC AGCAGCCATT
    AATAAAGACA GTAACAAGGT CTACTTGTCT GAACCTGTGG TCTTCACTGT CAAGCACATA
    CAGCAGTCAG AAGAGAACTT CAATCCAAAC TGCTCTTTCT GGAGTTACTC TAAACGCACC
    ATGACAGGAT TCTGGTCCAC TCAGGACTGC AGACTGCTGG GCACCAACCG CACCCACACT
    TCTTGCTCCT GCACACACCT CACCAACTTT GCTGTGCTTA TGGCCCATGT GGAGGTGAAG
    AAAGCAGACC AGGTGCATGA GCTGCTATTG GACGTCATAA CATGGGTGGG GATCCTGCTG
    TCTCTGGTCT GCCTGCTCAT CTGCATCTTC ACCTTCTGTT TCTTCCGTGG TCTGCAAAGC
    GACAGGAACA CCATCCACAA AAACCTCTGC ATCTCCCTCT TTATTGCCGA AACCCTCTTC
    CTCACCGGGA TCAACCGTGC AGACCAGCCT ATCGTCTGCG CTGTGTTTGC GGCCCTGCTG
    CATTTCTTCT TCTTGGCTGC GTTTACGTGG ATGTTTCTGG AAGGCGTACA GCTGTACATC
    ATGCTGGTGG AAGTGTTCGA GAGCGAGTAC TCGCGCACCA AGTACTTCTA TCTCACAGGA
    TATGGAGTGC CAGCTGTCAT AGTAGCTGTA TCGGCTGCTG TGGACTACCG TAGCTACGGC
    ACTGAAAGAG TGTGCTGGCT CAGGTTAGAT ACTTACTTTA TCTGGAGTTT CATTGGGCCT
    GCTACTCTCA TCATCATGCT GAATGTTATT TTTCTGGGCA TTGCACTGTA TAAGATGTTT
    CACCATACAG CCATTCTCAA GCCTGACTCC GGTTGCCTGG ACAACATCAA GTCCTGGGTT
    ATAGGCGCTA TTGCTCTGCT GTGTCTGCTG GGTTTGACCT GGGCATTCGG GCTCATGTAT
    ATCAATGAGA GCACTGTCAT CATGGCCTAC CTCTTCACTA TCTTCAACTC GCTGCAGGGA
    ATGTTCATCT TCATATTTCA CTGCATCCTG CAGAAAAAGG TGCGTAAGGA ATATGGCCGA
    TGTCTCCGCA CACACTGCTG CAGTGGGAAG AGTGTGGAGT CAACCATCTC CACCTCAACA
    AAGACAAGCA CAGCCCGCAC ACCTGGACGC TACTCCACCA ACTCACAAAG TCGTATTCGT
    AGGATGTGGA ATGACACCGT CAGGAAGCAG TCAGAATCGT CTTTCATCAC CGCTGATATG
    AACAGCTCAG CGACTCTCAA TAGAGGTACC ATGGCTAACC ATCTCATCTC CAATGCTTTG
    TTACGTCCTC ATGGCACTAA TCCTTATAAC ACACTACTGG GAGAGTCTGC TGTGTACAAT
    AACCCTACTG CCAACATGTT CAACACCCAA GAGGGCATTC TCAACAACGC ACGGGACTCC
    AGCGTCATGG ATACTCTGCC TCTTAATGGC AACCATGGCA ACAGCTATGG TGTGGCAGCA
    GGAGATTACC TTACCTACAG TTCCCGTGGC AGCGAGCCAC CAACTACGCT TGAGAAGAAG
    ATCCTGAAAG AGCTGACGGC GAACTACGCT CCTTCATACC TGAACACACA GGAGCGACAG
    GGAAAAGCCC ACCAGGGCAC CCTGACAAAT AAACTCAACA ACCATCTGGC CAACGGAGGC
    GTCGCCGGAT CTTCGTCCAT CCCCAAAGAC GATGTCATGG TGCTCGACAA CCCTGGAGCG
    TTTCACCGGC ATGATGACGG GGGTGGGTTA AGTCTGGAAC TCATTCGGGA GGAGTCACAA
    GCTCCGCTCT TGCCACCGCG ACCGCCCCCT CCTGAAAACC ACGCCCCCTT GCACACGTTC
    ACTGCCCATC GGCGCCTCCC ACAGGAGAAC AGCGAGAGCT TTTTCCCCCT TCTCCCCAAT
    GACACACACT CTTCCCACAC ACACACTCCC CGTGCGCACA CACACTCTCC CCTCAGAGAC
    TCGCTTTATA CCAGCATGCC CACGCTCACC GACCTCCCGC ACGGCACTGA TGACCTCATC
    AACGGTCTCC ATGACGATGA AGACGAAGAG GAGGAAGAAG ACGGTGAGGA GGAAGAGGGC
    AGCGAGCTGC ACTTGGCCAA CGGCAAAGGG GTCATCATGG AGTCGGACGA CGTGTACTAC
    AAAAGCATGC CCAACCTGGG CTCCAGGAAC CACATACAGG AACTAGAGAG CTACTATCAG
    ATGGGACGTG GCGGCAGTGA CGGGTTCATC GCCCCACCTG AGAAAGAAGA CTCGTCGCCT
    GAAGAACAGC CACCAGATCC TTCACAACTG GTCACCAGCC TATAG

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

    CloneID ODa05709
    Clone ID Related Accession (Same CDS sequence) XM_684028.9 , XM_684028.8
    Accession Version XM_684028.9 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4479bp)
    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 2017-06-14
    Organism Danio rerio(zebrafish)
    Product adhesion G protein-coupled receptor L3 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007112.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_684028.8. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    ATGGCTTTAA CGTGTCCGAG ACGCAGCTTC AGCGAGTCAG TGCAGAGGTC AACAGGGTCA 
    TCGGCGGTCA TGTGGTCCAC ACGCCTACTT TTCTTCTTCA CCCTCTTCAC ACCCGTCACG
    CTCGTTTTGA GTCGGGCTCC AGTGCCGATG GCTGTGGTGC GTCGAGAGCT GTCGTGTGAG
    GGTTATCCTA TCGAACTGCG CTGCCCGGGC ACTGATGTCA TTATGATCGA GAGCGCCAAT
    TATGGGCGCA CAGATGACAA GATCTGTGAC TCGGACCCCG CTCAAATGGA GAACACTCGC
    TGCTATCTGC CTGATGCCTA CAAGATTATG GGCTTCAGGT GTAACAACCG GACTCAGTGT
    GCAGTCGTTG CTGGCCCTGA TGTTTTTCCC GATCCGTGTC CTGGAACGTA CAAATACCTG
    GAGGTTCAGT ATGAGTGTGT GCCATACAAA GTGGAACAGA AAGTCTTTCT CTGCCCAGGT
    GTATTGAGAG GCGTGTACCA GAGTGAACAT CTCTTCGAAT CAGACCACCA GGCTGGATCA
    TGGTGTAAGG ACCCCTTACA GTCATCCAAT AAGATCTACT ACATGCCCTG GACACCGTAT
    CGCACAGACA CACTGACTGA GTATTCATCT AAGGAGGACT TTATTGCAGG TCGCCCTACC
    ACCACATACA AACTGCCCCA TCGGGTGGAC GGCACTGGGT TTGTGGTGTA TGATGGCGCG
    CTTTTCTTCA ACAAGGAACG TACACGCAAC ATTGTTAAAT TCGACTTGCG AACTCGTATC
    AAGAGTGGTG AGGCAATTAT CGCTAACGCT AATTACCATG ACACCTCGCC ATATCGCTGG
    GGTGGAAAGT CTGACATTGA TCTCGCAGTG GATGAAAATG GACTATGGGT GATTTATGCC
    ACCGAACAGA ACAATGGCCG AATCGTGGTC AGTCAGCTCA ACCCCTACAC ACTCAGAGTG
    GAGGGCTCAT GGGATACATC ATACGATAAG AGATCAGCCT CCAATGCCTT CATGATCTGC
    GGAATCCTTT ATGTCGTGAA GAGTGTTTAC GAAGATGACG ATAATGAAGC TCTAGGGAAT
    AAAATTGACT ACATGTACAA CACAGAGAAG AGCCGTGAAA CGCATCTTAG CATCCCATTT
    CCAAATTCCT ACCAATACAT CGCAGCCGTG GACTACAATC CCAGAGACAA CTTGCTGTAT
    GTGTGGAACA ACTACCATGT CGTCATATAT TCTCTCGACT TTGGAAACAA TGACAACAGA
    CTGGGCTTTG ATCCGCCTTC TTCAGTCTTG CTACCTGATC CTCTTCCTCC AGTACGCAGC
    TCCACGACTC CTCCACGCCC ATATACAGGC ACGCTCCGCC CCTCTCTCAC CACTACCACG
    ACGACCACCA TGGTTCCTCC TCGCCGCCAT AACAACGTCC TCCCAGAAGC CCTGACTCGA
    GCGCCTCCCT CCCCGCAGAC TCCCGTCACT GTTGACTATT GTGCCCCACG TCTCACTGCT
    GAAATCTCCT GGCCACGGAC ACACCAGGGA CAAGTTGCTA AGCAACCGTG CCCACCTGGC
    ACCATAGGTG TAGCCACGTT TAATTGTTTG CTTGGCTACT GGGACCCGAA GGGACCAGAT
    CTGAGCAACT GCACCTCACC GTGGACCAAT CATATCACTC AAAGAATGAG ATCGGGCGAA
    ACTGCTGCTA TAGTAGCCCG GGAATTGGCT GAACAGACAA AGGGAGAGTT GAGACCCGGA
    GATGTCCCAT CAACAGTCAA AGCCATGGCA CAGCTGGTGG AACTACTGGA CGTGCAGCTG
    CGAAACCTCA CCCCTGGGGG AAAAGACACC GCCGCACGCA GTTTAAACAA GCTCCAGAAG
    AGAGAACGGT CGTGCCGCTT CTTCATACAG GCCATGGTGG AGACGGTGAA TAACCTTCTG
    CAGGTGCGAT CTCAGGCGGC GTGGAGAGAG CTTTCTGTAG CCGAGCAGCT GCGATGCGCA
    ACCATGCTCC TGGACACGGT GGAGACGGGA GCCTTCATGC TCGCAGACAA CCTGTTAAAA
    ACAGACACCA TACAGGAGAG CACAGACAAC ATCCAACTGG AGGTGGCTCG GCTAAGTACA
    GATGTTAATC TGGCGGATCT AAGCTTCCCC CAATCTGGAC TAACCGGCAA CTCCATTCAT
    CTCTCAGCCA ACACACTCAA ACAGCAAGGA CGCAATGGTG AGATCCGTAT GGCGCTGGTT
    CTTTATAAGA ACCTCGGCCA ATACTTGTCC ACAGAGAATG CAAGCGTGCG TCTTGGCAGC
    GAAGCCGTCT ATCCAAACTA TTCCCTGATA GTCAACTCAC CTGTTATTAC AGCAGCCATT
    AATAAAGACA GTAACAAGGT CTACTTGTCT GAACCTGTGG TCTTCACTGT CAAGCACATA
    CAGCAGTCAG AAGAGAACTT CAATCCAAAC TGCTCTTTCT GGAGTTACTC TAAACGCACC
    ATGACAGGAT TCTGGTCCAC TCAGGACTGC AGACTGCTGG GCACCAACCG CACCCACACT
    TCTTGCTCCT GCACACACCT CACCAACTTT GCTGTGCTTA TGGCCCATGT GGAGGTGAAG
    AAAGCAGACC AGGTGCATGA GCTGCTATTG GACGTCATAA CATGGGTGGG GATCCTGCTG
    TCTCTGGTCT GCCTGCTCAT CTGCATCTTC ACCTTCTGTT TCTTCCGTGG TCTGCAAAGC
    GACAGGAACA CCATCCACAA AAACCTCTGC ATCTCCCTCT TTATTGCCGA AACCCTCTTC
    CTCACCGGGA TCAACCGTGC AGACCAGCCT ATCGTCTGCG CTGTGTTTGC GGCCCTGCTG
    CATTTCTTCT TCTTGGCTGC GTTTACGTGG ATGTTTCTGG AAGGCGTACA GCTGTACATC
    ATGCTGGTGG AAGTGTTCGA GAGCGAGTAC TCGCGCACCA AGTACTTCTA TCTCACAGGA
    TATGGAGTGC CAGCTGTCAT AGTAGCTGTA TCGGCTGCTG TGGACTACCG TAGCTACGGC
    ACTGAAAGAG TGTGCTGGCT CAGGTTAGAT ACTTACTTTA TCTGGAGTTT CATTGGGCCT
    GCTACTCTCA TCATCATGCT GAATGTTATT TTTCTGGGCA TTGCACTGTA TAAGATGTTT
    CACCATACAG CCATTCTCAA GCCTGACTCC GGTTGCCTGG ACAACATCAA GTCCTGGGTT
    ATAGGCGCTA TTGCTCTGCT GTGTCTGCTG GGTTTGACCT GGGCATTCGG GCTCATGTAT
    ATCAATGAGA GCACTGTCAT CATGGCCTAC CTCTTCACTA TCTTCAACTC GCTGCAGGGA
    ATGTTCATCT TCATATTTCA CTGCATCCTG CAGAAAAAGG TGCGTAAGGA ATATGGCCGA
    TGTCTCCGCA CACACTGCTG CAGTGGGAAG AGTGTGGAGT CAACCATCTC CACCTCAACA
    AAGACAAGCA CAGCCCGCAC ACCTGGACGC TACTCCACCA ACTCACAAAG TCGTATTCGT
    AGGATGTGGA ATGACACCGT CAGGAAGCAG TCAGAATCGT CTTTCATCAC CGCTGATATG
    AACAGCTCAG CGACTCTCAA TAGAGAGGGC ATTCTCAACA ACGCACGGGA CTCCAGCGTC
    ATGGATACTC TGCCTCTTAA TGGCAACCAT GGCAACAGCT ATGGTGTGGC AGCAGGAGAT
    TACCTTACCT ACAGTTCCCG TGGCAGCGAG CCACCAACTA CGCTTGAGAA GAAGATCCTG
    AAAGAGCTGA CGGCGAACTA CGCTCCTTCA TACCTGAACA CACAGGAGCG ACAGGGAAAA
    GCCCACCAGG GCACCCTGAC AAATAAACTC AACAACCATC TGGCCAACGG AGGCGTCGCC
    GGATCTTCGT CCATCCCCAA AGACGATGTC ATGGTGCTCG ACAACCCTGG AGCGTTTCAC
    CGGCATGATG ACGGGGGTGG GTTAAGTCTG GAACTCATTC GGGAGGAGTC ACAAGCTCCG
    CTCTTGCCAC CGCGACCGCC CCCTCCTGAA AACCACGCCC CCTTGCACAC GTTCACTGCC
    CATCGGCGCC TCCCACAGGA GAACAGCGAG AGCTTTTTCC CCCTTCTCCC CAATGACACA
    CACTCTTCCC ACACACACAC TCCCCGTGCG CACACACACT CTCCCCTCAG AGACTCGCTT
    TATACCAGCA TGCCCACGCT CACCGACCTC CCGCACGGCA CTGATGACCT CATCAACGGT
    CTCCATGACG ATGAAGACGA AGAGGAGGAA GAAGACGGTG AGGAGGAAGA GGGCAGCGAG
    CTGCACTTGG CCAACGGCAA AGGGGTCATC ATGGAGTCGG ACGACGTGTA CTACAAAAGC
    ATGCCCAACC TGGGCTCCAG GAACCACATA CAGGAACTAG AGAGCTACTA TCAGATGGGA
    CGTGGCGGCA GTGACGGGTT CATCGCCCCA CCTGAGAAAG AAGACTCGTC GCCTGAAGAA
    CAGCCACCAG ATCCTTCACA ACTGGTCACC AGCCTATAG

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

    RefSeq XP_689120.5
    CDS583..5061
    Translation

    Target ORF information:

    RefSeq Version XM_684028.9
    Organism Danio rerio(zebrafish)
    Definition Danio rerio adhesion G protein-coupled receptor L3.1 (adgrl3.1), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_684028.9

    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
    ATGGCTTTAA CGTGTCCGAG ACGCAGCTTC AGCGAGTCAG TGCAGAGGTC AACAGGGTCA 
    TCGGCGGTCA TGTGGTCCAC ACGCCTACTT TTCTTCTTCA CCCTCTTCAC ACCCGTCACG
    CTCGTTTTGA GTCGGGCTCC AGTGCCGATG GCTGTGGTGC GTCGAGAGCT GTCGTGTGAG
    GGTTATCCTA TCGAACTGCG CTGCCCGGGC ACTGATGTCA TTATGATCGA GAGCGCCAAT
    TATGGGCGCA CAGATGACAA GATCTGTGAC TCGGACCCCG CTCAAATGGA GAACACTCGC
    TGCTATCTGC CTGATGCCTA CAAGATTATG GGCTTCAGGT GTAACAACCG GACTCAGTGT
    GCAGTCGTTG CTGGCCCTGA TGTTTTTCCC GATCCGTGTC CTGGAACGTA CAAATACCTG
    GAGGTTCAGT ATGAGTGTGT GCCATACAAA GTGGAACAGA AAGTCTTTCT CTGCCCAGGT
    GTATTGAGAG GCGTGTACCA GAGTGAACAT CTCTTCGAAT CAGACCACCA GGCTGGATCA
    TGGTGTAAGG ACCCCTTACA GTCATCCAAT AAGATCTACT ACATGCCCTG GACACCGTAT
    CGCACAGACA CACTGACTGA GTATTCATCT AAGGAGGACT TTATTGCAGG TCGCCCTACC
    ACCACATACA AACTGCCCCA TCGGGTGGAC GGCACTGGGT TTGTGGTGTA TGATGGCGCG
    CTTTTCTTCA ACAAGGAACG TACACGCAAC ATTGTTAAAT TCGACTTGCG AACTCGTATC
    AAGAGTGGTG AGGCAATTAT CGCTAACGCT AATTACCATG ACACCTCGCC ATATCGCTGG
    GGTGGAAAGT CTGACATTGA TCTCGCAGTG GATGAAAATG GACTATGGGT GATTTATGCC
    ACCGAACAGA ACAATGGCCG AATCGTGGTC AGTCAGCTCA ACCCCTACAC ACTCAGAGTG
    GAGGGCTCAT GGGATACATC ATACGATAAG AGATCAGCCT CCAATGCCTT CATGATCTGC
    GGAATCCTTT ATGTCGTGAA GAGTGTTTAC GAAGATGACG ATAATGAAGC TCTAGGGAAT
    AAAATTGACT ACATGTACAA CACAGAGAAG AGCCGTGAAA CGCATCTTAG CATCCCATTT
    CCAAATTCCT ACCAATACAT CGCAGCCGTG GACTACAATC CCAGAGACAA CTTGCTGTAT
    GTGTGGAACA ACTACCATGT CGTCATATAT TCTCTCGACT TTGGAAACAA TGACAACAGA
    CTGGGCTTTG ATCCGCCTTC TTCAGTCTTG CTACCTGATC CTCTTCCTCC AGTACGCAGC
    TCCACGACTC CTCCACGCCC ATATACAGGC ACGCTCCGCC CCTCTCTCAC CACTACCACG
    ACGACCACCA TGGTTCCTCC TCGCCGCCAT AACAACGTCC TCCCAGAAGC CCTGACTCGA
    GCGCCTCCCT CCCCGCAGAC TCCCGTCACT GTTGACTATT GTGCCCCACG TCTCACTGCT
    GAAATCTCCT GGCCACGGAC ACACCAGGGA CAAGTTGCTA AGCAACCGTG CCCACCTGGC
    ACCATAGGTG TAGCCACGTT TAATTGTTTG CTTGGCTACT GGGACCCGAA GGGACCAGAT
    CTGAGCAACT GCACCTCACC GTGGACCAAT CATATCACTC AAAGAATGAG ATCGGGCGAA
    ACTGCTGCTA TAGTAGCCCG GGAATTGGCT GAACAGACAA AGGGAGAGTT GAGACCCGGA
    GATGTCCCAT CAACAGTCAA AGCCATGGCA CAGCTGGTGG AACTACTGGA CGTGCAGCTG
    CGAAACCTCA CCCCTGGGGG AAAAGACACC GCCGCACGCA GTTTAAACAA GCTCCAGAAG
    AGAGAACGGT CGTGCCGCTT CTTCATACAG GCCATGGTGG AGACGGTGAA TAACCTTCTG
    CAGGTGCGAT CTCAGGCGGC GTGGAGAGAG CTTTCTGTAG CCGAGCAGCT GCGATGCGCA
    ACCATGCTCC TGGACACGGT GGAGACGGGA GCCTTCATGC TCGCAGACAA CCTGTTAAAA
    ACAGACACCA TACAGGAGAG CACAGACAAC ATCCAACTGG AGGTGGCTCG GCTAAGTACA
    GATGTTAATC TGGCGGATCT AAGCTTCCCC CAATCTGGAC TAACCGGCAA CTCCATTCAT
    CTCTCAGCCA ACACACTCAA ACAGCAAGGA CGCAATGGTG AGATCCGTAT GGCGCTGGTT
    CTTTATAAGA ACCTCGGCCA ATACTTGTCC ACAGAGAATG CAAGCGTGCG TCTTGGCAGC
    GAAGCCGTCT ATCCAAACTA TTCCCTGATA GTCAACTCAC CTGTTATTAC AGCAGCCATT
    AATAAAGACA GTAACAAGGT CTACTTGTCT GAACCTGTGG TCTTCACTGT CAAGCACATA
    CAGCAGTCAG AAGAGAACTT CAATCCAAAC TGCTCTTTCT GGAGTTACTC TAAACGCACC
    ATGACAGGAT TCTGGTCCAC TCAGGACTGC AGACTGCTGG GCACCAACCG CACCCACACT
    TCTTGCTCCT GCACACACCT CACCAACTTT GCTGTGCTTA TGGCCCATGT GGAGGTGAAG
    AAAGCAGACC AGGTGCATGA GCTGCTATTG GACGTCATAA CATGGGTGGG GATCCTGCTG
    TCTCTGGTCT GCCTGCTCAT CTGCATCTTC ACCTTCTGTT TCTTCCGTGG TCTGCAAAGC
    GACAGGAACA CCATCCACAA AAACCTCTGC ATCTCCCTCT TTATTGCCGA AACCCTCTTC
    CTCACCGGGA TCAACCGTGC AGACCAGCCT ATCGTCTGCG CTGTGTTTGC GGCCCTGCTG
    CATTTCTTCT TCTTGGCTGC GTTTACGTGG ATGTTTCTGG AAGGCGTACA GCTGTACATC
    ATGCTGGTGG AAGTGTTCGA GAGCGAGTAC TCGCGCACCA AGTACTTCTA TCTCACAGGA
    TATGGAGTGC CAGCTGTCAT AGTAGCTGTA TCGGCTGCTG TGGACTACCG TAGCTACGGC
    ACTGAAAGAG TGTGCTGGCT CAGGTTAGAT ACTTACTTTA TCTGGAGTTT CATTGGGCCT
    GCTACTCTCA TCATCATGCT GAATGTTATT TTTCTGGGCA TTGCACTGTA TAAGATGTTT
    CACCATACAG CCATTCTCAA GCCTGACTCC GGTTGCCTGG ACAACATCAA GTCCTGGGTT
    ATAGGCGCTA TTGCTCTGCT GTGTCTGCTG GGTTTGACCT GGGCATTCGG GCTCATGTAT
    ATCAATGAGA GCACTGTCAT CATGGCCTAC CTCTTCACTA TCTTCAACTC GCTGCAGGGA
    ATGTTCATCT TCATATTTCA CTGCATCCTG CAGAAAAAGG TGCGTAAGGA ATATGGCCGA
    TGTCTCCGCA CACACTGCTG CAGTGGGAAG AGTGTGGAGT CAACCATCTC CACCTCAACA
    AAGACAAGCA CAGCCCGCAC ACCTGGACGC TACTCCACCA ACTCACAAAG TCGTATTCGT
    AGGATGTGGA ATGACACCGT CAGGAAGCAG TCAGAATCGT CTTTCATCAC CGCTGATATG
    AACAGCTCAG CGACTCTCAA TAGAGAGGGC ATTCTCAACA ACGCACGGGA CTCCAGCGTC
    ATGGATACTC TGCCTCTTAA TGGCAACCAT GGCAACAGCT ATGGTGTGGC AGCAGGAGAT
    TACCTTACCT ACAGTTCCCG TGGCAGCGAG CCACCAACTA CGCTTGAGAA GAAGATCCTG
    AAAGAGCTGA CGGCGAACTA CGCTCCTTCA TACCTGAACA CACAGGAGCG ACAGGGAAAA
    GCCCACCAGG GCACCCTGAC AAATAAACTC AACAACCATC TGGCCAACGG AGGCGTCGCC
    GGATCTTCGT CCATCCCCAA AGACGATGTC ATGGTGCTCG ACAACCCTGG AGCGTTTCAC
    CGGCATGATG ACGGGGGTGG GTTAAGTCTG GAACTCATTC GGGAGGAGTC ACAAGCTCCG
    CTCTTGCCAC CGCGACCGCC CCCTCCTGAA AACCACGCCC CCTTGCACAC GTTCACTGCC
    CATCGGCGCC TCCCACAGGA GAACAGCGAG AGCTTTTTCC CCCTTCTCCC CAATGACACA
    CACTCTTCCC ACACACACAC TCCCCGTGCG CACACACACT CTCCCCTCAG AGACTCGCTT
    TATACCAGCA TGCCCACGCT CACCGACCTC CCGCACGGCA CTGATGACCT CATCAACGGT
    CTCCATGACG ATGAAGACGA AGAGGAGGAA GAAGACGGTG AGGAGGAAGA GGGCAGCGAG
    CTGCACTTGG CCAACGGCAA AGGGGTCATC ATGGAGTCGG ACGACGTGTA CTACAAAAGC
    ATGCCCAACC TGGGCTCCAG GAACCACATA CAGGAACTAG AGAGCTACTA TCAGATGGGA
    CGTGGCGGCA GTGACGGGTT CATCGCCCCA CCTGAGAAAG AAGACTCGTC GCCTGAAGAA
    CAGCCACCAG ATCCTTCACA ACTGGTCACC AGCCTATAG

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

    CloneID ODa05709
    Clone ID Related Accession (Same CDS sequence) XM_684028.9 , XM_684028.8
    Accession Version XM_684028.8 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4479bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-23
    Organism Danio rerio(Zebrafish)
    Product adhesion G protein-coupled receptor L3 isoform X4
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007112.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_684028.7. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGCTTTAA CGTGTCCGAG ACGCAGCTTC AGCGAGTCAG TGCAGAGGTC AACAGGGTCA 
    TCGGCGGTCA TGTGGTCCAC ACGCCTACTT TTCTTCTTCA CCCTCTTCAC ACCCGTCACG
    CTCGTTTTGA GTCGGGCTCC AGTGCCGATG GCTGTGGTGC GTCGAGAGCT GTCGTGTGAG
    GGTTATCCTA TCGAACTGCG CTGCCCGGGC ACTGATGTCA TTATGATCGA GAGCGCCAAT
    TATGGGCGCA CAGATGACAA GATCTGTGAC TCGGACCCCG CTCAAATGGA GAACACTCGC
    TGCTATCTGC CTGATGCCTA CAAGATTATG GGCTTCAGGT GTAACAACCG GACTCAGTGT
    GCAGTCGTTG CTGGCCCTGA TGTTTTTCCC GATCCGTGTC CTGGAACGTA CAAATACCTG
    GAGGTTCAGT ATGAGTGTGT GCCATACAAA GTGGAACAGA AAGTCTTTCT CTGCCCAGGT
    GTATTGAGAG GCGTGTACCA GAGTGAACAT CTCTTCGAAT CAGACCACCA GGCTGGATCA
    TGGTGTAAGG ACCCCTTACA GTCATCCAAT AAGATCTACT ACATGCCCTG GACACCGTAT
    CGCACAGACA CACTGACTGA GTATTCATCT AAGGAGGACT TTATTGCAGG TCGCCCTACC
    ACCACATACA AACTGCCCCA TCGGGTGGAC GGCACTGGGT TTGTGGTGTA TGATGGCGCG
    CTTTTCTTCA ACAAGGAACG TACACGCAAC ATTGTTAAAT TCGACTTGCG AACTCGTATC
    AAGAGTGGTG AGGCAATTAT CGCTAACGCT AATTACCATG ACACCTCGCC ATATCGCTGG
    GGTGGAAAGT CTGACATTGA TCTCGCAGTG GATGAAAATG GACTATGGGT GATTTATGCC
    ACCGAACAGA ACAATGGCCG AATCGTGGTC AGTCAGCTCA ACCCCTACAC ACTCAGAGTG
    GAGGGCTCAT GGGATACATC ATACGATAAG AGATCAGCCT CCAATGCCTT CATGATCTGC
    GGAATCCTTT ATGTCGTGAA GAGTGTTTAC GAAGATGACG ATAATGAAGC TCTAGGGAAT
    AAAATTGACT ACATGTACAA CACAGAGAAG AGCCGTGAAA CGCATCTTAG CATCCCATTT
    CCAAATTCCT ACCAATACAT CGCAGCCGTG GACTACAATC CCAGAGACAA CTTGCTGTAT
    GTGTGGAACA ACTACCATGT CGTCATATAT TCTCTCGACT TTGGAAACAA TGACAACAGA
    CTGGGCTTTG ATCCGCCTTC TTCAGTCTTG CTACCTGATC CTCTTCCTCC AGTACGCAGC
    TCCACGACTC CTCCACGCCC ATATACAGGC ACGCTCCGCC CCTCTCTCAC CACTACCACG
    ACGACCACCA TGGTTCCTCC TCGCCGCCAT AACAACGTCC TCCCAGAAGC CCTGACTCGA
    GCGCCTCCCT CCCCGCAGAC TCCCGTCACT GTTGACTATT GTGCCCCACG TCTCACTGCT
    GAAATCTCCT GGCCACGGAC ACACCAGGGA CAAGTTGCTA AGCAACCGTG CCCACCTGGC
    ACCATAGGTG TAGCCACGTT TAATTGTTTG CTTGGCTACT GGGACCCGAA GGGACCAGAT
    CTGAGCAACT GCACCTCACC GTGGACCAAT CATATCACTC AAAGAATGAG ATCGGGCGAA
    ACTGCTGCTA TAGTAGCCCG GGAATTGGCT GAACAGACAA AGGGAGAGTT GAGACCCGGA
    GATGTCCCAT CAACAGTCAA AGCCATGGCA CAGCTGGTGG AACTACTGGA CGTGCAGCTG
    CGAAACCTCA CCCCTGGGGG AAAAGACACC GCCGCACGCA GTTTAAACAA GCTCCAGAAG
    AGAGAACGGT CGTGCCGCTT CTTCATACAG GCCATGGTGG AGACGGTGAA TAACCTTCTG
    CAGGTGCGAT CTCAGGCGGC GTGGAGAGAG CTTTCTGTAG CCGAGCAGCT GCGATGCGCA
    ACCATGCTCC TGGACACGGT GGAGACGGGA GCCTTCATGC TCGCAGACAA CCTGTTAAAA
    ACAGACACCA TACAGGAGAG CACAGACAAC ATCCAACTGG AGGTGGCTCG GCTAAGTACA
    GATGTTAATC TGGCGGATCT AAGCTTCCCC CAATCTGGAC TAACCGGCAA CTCCATTCAT
    CTCTCAGCCA ACACACTCAA ACAGCAAGGA CGCAATGGTG AGATCCGTAT GGCGCTGGTT
    CTTTATAAGA ACCTCGGCCA ATACTTGTCC ACAGAGAATG CAAGCGTGCG TCTTGGCAGC
    GAAGCCGTCT ATCCAAACTA TTCCCTGATA GTCAACTCAC CTGTTATTAC AGCAGCCATT
    AATAAAGACA GTAACAAGGT CTACTTGTCT GAACCTGTGG TCTTCACTGT CAAGCACATA
    CAGCAGTCAG AAGAGAACTT CAATCCAAAC TGCTCTTTCT GGAGTTACTC TAAACGCACC
    ATGACAGGAT TCTGGTCCAC TCAGGACTGC AGACTGCTGG GCACCAACCG CACCCACACT
    TCTTGCTCCT GCACACACCT CACCAACTTT GCTGTGCTTA TGGCCCATGT GGAGGTGAAG
    AAAGCAGACC AGGTGCATGA GCTGCTATTG GACGTCATAA CATGGGTGGG GATCCTGCTG
    TCTCTGGTCT GCCTGCTCAT CTGCATCTTC ACCTTCTGTT TCTTCCGTGG TCTGCAAAGC
    GACAGGAACA CCATCCACAA AAACCTCTGC ATCTCCCTCT TTATTGCCGA AACCCTCTTC
    CTCACCGGGA TCAACCGTGC AGACCAGCCT ATCGTCTGCG CTGTGTTTGC GGCCCTGCTG
    CATTTCTTCT TCTTGGCTGC GTTTACGTGG ATGTTTCTGG AAGGCGTACA GCTGTACATC
    ATGCTGGTGG AAGTGTTCGA GAGCGAGTAC TCGCGCACCA AGTACTTCTA TCTCACAGGA
    TATGGAGTGC CAGCTGTCAT AGTAGCTGTA TCGGCTGCTG TGGACTACCG TAGCTACGGC
    ACTGAAAGAG TGTGCTGGCT CAGGTTAGAT ACTTACTTTA TCTGGAGTTT CATTGGGCCT
    GCTACTCTCA TCATCATGCT GAATGTTATT TTTCTGGGCA TTGCACTGTA TAAGATGTTT
    CACCATACAG CCATTCTCAA GCCTGACTCC GGTTGCCTGG ACAACATCAA GTCCTGGGTT
    ATAGGCGCTA TTGCTCTGCT GTGTCTGCTG GGTTTGACCT GGGCATTCGG GCTCATGTAT
    ATCAATGAGA GCACTGTCAT CATGGCCTAC CTCTTCACTA TCTTCAACTC GCTGCAGGGA
    ATGTTCATCT TCATATTTCA CTGCATCCTG CAGAAAAAGG TGCGTAAGGA ATATGGCCGA
    TGTCTCCGCA CACACTGCTG CAGTGGGAAG AGTGTGGAGT CAACCATCTC CACCTCAACA
    AAGACAAGCA CAGCCCGCAC ACCTGGACGC TACTCCACCA ACTCACAAAG TCGTATTCGT
    AGGATGTGGA ATGACACCGT CAGGAAGCAG TCAGAATCGT CTTTCATCAC CGCTGATATG
    AACAGCTCAG CGACTCTCAA TAGAGAGGGC ATTCTCAACA ACGCACGGGA CTCCAGCGTC
    ATGGATACTC TGCCTCTTAA TGGCAACCAT GGCAACAGCT ATGGTGTGGC AGCAGGAGAT
    TACCTTACCT ACAGTTCCCG TGGCAGCGAG CCACCAACTA CGCTTGAGAA GAAGATCCTG
    AAAGAGCTGA CGGCGAACTA CGCTCCTTCA TACCTGAACA CACAGGAGCG ACAGGGAAAA
    GCCCACCAGG GCACCCTGAC AAATAAACTC AACAACCATC TGGCCAACGG AGGCGTCGCC
    GGATCTTCGT CCATCCCCAA AGACGATGTC ATGGTGCTCG ACAACCCTGG AGCGTTTCAC
    CGGCATGATG ACGGGGGTGG GTTAAGTCTG GAACTCATTC GGGAGGAGTC ACAAGCTCCG
    CTCTTGCCAC CGCGACCGCC CCCTCCTGAA AACCACGCCC CCTTGCACAC GTTCACTGCC
    CATCGGCGCC TCCCACAGGA GAACAGCGAG AGCTTTTTCC CCCTTCTCCC CAATGACACA
    CACTCTTCCC ACACACACAC TCCCCGTGCG CACACACACT CTCCCCTCAG AGACTCGCTT
    TATACCAGCA TGCCCACGCT CACCGACCTC CCGCACGGCA CTGATGACCT CATCAACGGT
    CTCCATGACG ATGAAGACGA AGAGGAGGAA GAAGACGGTG AGGAGGAAGA GGGCAGCGAG
    CTGCACTTGG CCAACGGCAA AGGGGTCATC ATGGAGTCGG ACGACGTGTA CTACAAAAGC
    ATGCCCAACC TGGGCTCCAG GAACCACATA CAGGAACTAG AGAGCTACTA TCAGATGGGA
    CGTGGCGGCA GTGACGGGTT CATCGCCCCA CCTGAGAAAG AAGACTCGTC GCCTGAAGAA
    CAGCCACCAG ATCCTTCACA ACTGGTCACC AGCCTATAG

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

    RefSeq XP_689120.5
    CDS618..5096
    Translation

    Target ORF information:

    RefSeq Version XM_684028.8
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio adhesion G protein-coupled receptor L3.1 (adgrl3.1), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_684028.8

    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
    ATGGCTTTAA CGTGTCCGAG ACGCAGCTTC AGCGAGTCAG TGCAGAGGTC AACAGGGTCA 
    TCGGCGGTCA TGTGGTCCAC ACGCCTACTT TTCTTCTTCA CCCTCTTCAC ACCCGTCACG
    CTCGTTTTGA GTCGGGCTCC AGTGCCGATG GCTGTGGTGC GTCGAGAGCT GTCGTGTGAG
    GGTTATCCTA TCGAACTGCG CTGCCCGGGC ACTGATGTCA TTATGATCGA GAGCGCCAAT
    TATGGGCGCA CAGATGACAA GATCTGTGAC TCGGACCCCG CTCAAATGGA GAACACTCGC
    TGCTATCTGC CTGATGCCTA CAAGATTATG GGCTTCAGGT GTAACAACCG GACTCAGTGT
    GCAGTCGTTG CTGGCCCTGA TGTTTTTCCC GATCCGTGTC CTGGAACGTA CAAATACCTG
    GAGGTTCAGT ATGAGTGTGT GCCATACAAA GTGGAACAGA AAGTCTTTCT CTGCCCAGGT
    GTATTGAGAG GCGTGTACCA GAGTGAACAT CTCTTCGAAT CAGACCACCA GGCTGGATCA
    TGGTGTAAGG ACCCCTTACA GTCATCCAAT AAGATCTACT ACATGCCCTG GACACCGTAT
    CGCACAGACA CACTGACTGA GTATTCATCT AAGGAGGACT TTATTGCAGG TCGCCCTACC
    ACCACATACA AACTGCCCCA TCGGGTGGAC GGCACTGGGT TTGTGGTGTA TGATGGCGCG
    CTTTTCTTCA ACAAGGAACG TACACGCAAC ATTGTTAAAT TCGACTTGCG AACTCGTATC
    AAGAGTGGTG AGGCAATTAT CGCTAACGCT AATTACCATG ACACCTCGCC ATATCGCTGG
    GGTGGAAAGT CTGACATTGA TCTCGCAGTG GATGAAAATG GACTATGGGT GATTTATGCC
    ACCGAACAGA ACAATGGCCG AATCGTGGTC AGTCAGCTCA ACCCCTACAC ACTCAGAGTG
    GAGGGCTCAT GGGATACATC ATACGATAAG AGATCAGCCT CCAATGCCTT CATGATCTGC
    GGAATCCTTT ATGTCGTGAA GAGTGTTTAC GAAGATGACG ATAATGAAGC TCTAGGGAAT
    AAAATTGACT ACATGTACAA CACAGAGAAG AGCCGTGAAA CGCATCTTAG CATCCCATTT
    CCAAATTCCT ACCAATACAT CGCAGCCGTG GACTACAATC CCAGAGACAA CTTGCTGTAT
    GTGTGGAACA ACTACCATGT CGTCATATAT TCTCTCGACT TTGGAAACAA TGACAACAGA
    CTGGGCTTTG ATCCGCCTTC TTCAGTCTTG CTACCTGATC CTCTTCCTCC AGTACGCAGC
    TCCACGACTC CTCCACGCCC ATATACAGGC ACGCTCCGCC CCTCTCTCAC CACTACCACG
    ACGACCACCA TGGTTCCTCC TCGCCGCCAT AACAACGTCC TCCCAGAAGC CCTGACTCGA
    GCGCCTCCCT CCCCGCAGAC TCCCGTCACT GTTGACTATT GTGCCCCACG TCTCACTGCT
    GAAATCTCCT GGCCACGGAC ACACCAGGGA CAAGTTGCTA AGCAACCGTG CCCACCTGGC
    ACCATAGGTG TAGCCACGTT TAATTGTTTG CTTGGCTACT GGGACCCGAA GGGACCAGAT
    CTGAGCAACT GCACCTCACC GTGGACCAAT CATATCACTC AAAGAATGAG ATCGGGCGAA
    ACTGCTGCTA TAGTAGCCCG GGAATTGGCT GAACAGACAA AGGGAGAGTT GAGACCCGGA
    GATGTCCCAT CAACAGTCAA AGCCATGGCA CAGCTGGTGG AACTACTGGA CGTGCAGCTG
    CGAAACCTCA CCCCTGGGGG AAAAGACACC GCCGCACGCA GTTTAAACAA GCTCCAGAAG
    AGAGAACGGT CGTGCCGCTT CTTCATACAG GCCATGGTGG AGACGGTGAA TAACCTTCTG
    CAGGTGCGAT CTCAGGCGGC GTGGAGAGAG CTTTCTGTAG CCGAGCAGCT GCGATGCGCA
    ACCATGCTCC TGGACACGGT GGAGACGGGA GCCTTCATGC TCGCAGACAA CCTGTTAAAA
    ACAGACACCA TACAGGAGAG CACAGACAAC ATCCAACTGG AGGTGGCTCG GCTAAGTACA
    GATGTTAATC TGGCGGATCT AAGCTTCCCC CAATCTGGAC TAACCGGCAA CTCCATTCAT
    CTCTCAGCCA ACACACTCAA ACAGCAAGGA CGCAATGGTG AGATCCGTAT GGCGCTGGTT
    CTTTATAAGA ACCTCGGCCA ATACTTGTCC ACAGAGAATG CAAGCGTGCG TCTTGGCAGC
    GAAGCCGTCT ATCCAAACTA TTCCCTGATA GTCAACTCAC CTGTTATTAC AGCAGCCATT
    AATAAAGACA GTAACAAGGT CTACTTGTCT GAACCTGTGG TCTTCACTGT CAAGCACATA
    CAGCAGTCAG AAGAGAACTT CAATCCAAAC TGCTCTTTCT GGAGTTACTC TAAACGCACC
    ATGACAGGAT TCTGGTCCAC TCAGGACTGC AGACTGCTGG GCACCAACCG CACCCACACT
    TCTTGCTCCT GCACACACCT CACCAACTTT GCTGTGCTTA TGGCCCATGT GGAGGTGAAG
    AAAGCAGACC AGGTGCATGA GCTGCTATTG GACGTCATAA CATGGGTGGG GATCCTGCTG
    TCTCTGGTCT GCCTGCTCAT CTGCATCTTC ACCTTCTGTT TCTTCCGTGG TCTGCAAAGC
    GACAGGAACA CCATCCACAA AAACCTCTGC ATCTCCCTCT TTATTGCCGA AACCCTCTTC
    CTCACCGGGA TCAACCGTGC AGACCAGCCT ATCGTCTGCG CTGTGTTTGC GGCCCTGCTG
    CATTTCTTCT TCTTGGCTGC GTTTACGTGG ATGTTTCTGG AAGGCGTACA GCTGTACATC
    ATGCTGGTGG AAGTGTTCGA GAGCGAGTAC TCGCGCACCA AGTACTTCTA TCTCACAGGA
    TATGGAGTGC CAGCTGTCAT AGTAGCTGTA TCGGCTGCTG TGGACTACCG TAGCTACGGC
    ACTGAAAGAG TGTGCTGGCT CAGGTTAGAT ACTTACTTTA TCTGGAGTTT CATTGGGCCT
    GCTACTCTCA TCATCATGCT GAATGTTATT TTTCTGGGCA TTGCACTGTA TAAGATGTTT
    CACCATACAG CCATTCTCAA GCCTGACTCC GGTTGCCTGG ACAACATCAA GTCCTGGGTT
    ATAGGCGCTA TTGCTCTGCT GTGTCTGCTG GGTTTGACCT GGGCATTCGG GCTCATGTAT
    ATCAATGAGA GCACTGTCAT CATGGCCTAC CTCTTCACTA TCTTCAACTC GCTGCAGGGA
    ATGTTCATCT TCATATTTCA CTGCATCCTG CAGAAAAAGG TGCGTAAGGA ATATGGCCGA
    TGTCTCCGCA CACACTGCTG CAGTGGGAAG AGTGTGGAGT CAACCATCTC CACCTCAACA
    AAGACAAGCA CAGCCCGCAC ACCTGGACGC TACTCCACCA ACTCACAAAG TCGTATTCGT
    AGGATGTGGA ATGACACCGT CAGGAAGCAG TCAGAATCGT CTTTCATCAC CGCTGATATG
    AACAGCTCAG CGACTCTCAA TAGAGAGGGC ATTCTCAACA ACGCACGGGA CTCCAGCGTC
    ATGGATACTC TGCCTCTTAA TGGCAACCAT GGCAACAGCT ATGGTGTGGC AGCAGGAGAT
    TACCTTACCT ACAGTTCCCG TGGCAGCGAG CCACCAACTA CGCTTGAGAA GAAGATCCTG
    AAAGAGCTGA CGGCGAACTA CGCTCCTTCA TACCTGAACA CACAGGAGCG ACAGGGAAAA
    GCCCACCAGG GCACCCTGAC AAATAAACTC AACAACCATC TGGCCAACGG AGGCGTCGCC
    GGATCTTCGT CCATCCCCAA AGACGATGTC ATGGTGCTCG ACAACCCTGG AGCGTTTCAC
    CGGCATGATG ACGGGGGTGG GTTAAGTCTG GAACTCATTC GGGAGGAGTC ACAAGCTCCG
    CTCTTGCCAC CGCGACCGCC CCCTCCTGAA AACCACGCCC CCTTGCACAC GTTCACTGCC
    CATCGGCGCC TCCCACAGGA GAACAGCGAG AGCTTTTTCC CCCTTCTCCC CAATGACACA
    CACTCTTCCC ACACACACAC TCCCCGTGCG CACACACACT CTCCCCTCAG AGACTCGCTT
    TATACCAGCA TGCCCACGCT CACCGACCTC CCGCACGGCA CTGATGACCT CATCAACGGT
    CTCCATGACG ATGAAGACGA AGAGGAGGAA GAAGACGGTG AGGAGGAAGA GGGCAGCGAG
    CTGCACTTGG CCAACGGCAA AGGGGTCATC ATGGAGTCGG ACGACGTGTA CTACAAAAGC
    ATGCCCAACC TGGGCTCCAG GAACCACATA CAGGAACTAG AGAGCTACTA TCAGATGGGA
    CGTGGCGGCA GTGACGGGTT CATCGCCCCA CCTGAGAAAG AAGACTCGTC GCCTGAAGAA
    CAGCCACCAG ATCCTTCACA ACTGGTCACC AGCCTATAG

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