ADGRF8 cDNA ORF clone, Danio rerio(Zebrafish)

The following ADGRF8 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ADGRF8 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
ODa150681 XM_021468539.1
Latest version!
Danio rerio adhesion G protein-coupled receptor F8 (adgrf8), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $1021.30
$1459.00
ODa56615 XM_017352558.1
Latest version!
Danio rerio adhesion G protein-coupled receptor F8 (adgrf8), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $1021.30
$1459.00

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

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

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

  • Reference Sequences (Refseq)
    CloneID ODa150681
    Clone ID Related Accession (Same CDS sequence) XM_021468539.1
    Accession Version XM_021468539.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5160bp)
    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 F5-like
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007131.7) 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## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    ATGGCCAGTG GAGGGAAAAT ATCTATATAT CTATTTGGAA TCATCATGGC TGTCGTGCTG 
    AACCATGAGT GTGTTGCGGA AGTTCTTGAT TTTTCAGACA TAAGTCTGGA TTTACAGTTC
    AGCTACTCAG ATGGTGCAGC TCATCATATA AGACGGAGAA GCACAGATCA AGTGCAGTAT
    GTAATGGTAG TGGAAGTAAA TGTATCCGAC ATTGAAGCTC TCAACCAAAT CAGAACATCT
    GTGGCCACCG TTCCACTTCC ATTTCAAGCA GACAATAGCA CTGAAATTAC AGCTGTGAAC
    ATTTCGACAG TGTGTTCTTT GAATGAAACG CAGTATCAGT GTAAATGTGA GGGTCTGTTT
    GTTTGGCCAA ATGACACGTG TCATGTATAC CAGGCCTGTG ATGCCATCTC TAACGGATCA
    TGTACATGTA TCAATGACCT TCCAGCTGAT GGACAGTTCT GCCAAGATGT TGATAAATGT
    CTGGTCAATC CACCTGTCTG TGGTCCAAAT TCCAACTGCA CAAATACAAT GGGAAGTTAC
    AGTTGCTCAT GTTTGAGTGG ATTCACAGCA ACAAACCCAA ATCTCACAAT CAGCATTGAT
    AACATCTGTA CAGCTCCATC AATAACAACC CCTACACCAT CATCGCCAAC ACAATCAACA
    ACAGCAGGGC CACTTTTTGT GTATGAGAGT GAAATTGATA TCAGTTTATT TGATATTTCC
    TCGGCGAACA GATTAGAGAG TCTCATCACA TCATATCAAC CACCTTATTC TTTGGGCAGC
    ATGAATATCC TTGAACTCAA CATTACTACT GTGTGTGGAT TGAATGGAAC TGAATATGAT
    TGTCAGTGTG CAGCGAATCA TGTTTGGTCC AGTAACAACT GCACGACCTA TCAGGCATGT
    GATAATATTG TCGGAGGTAC TTGTGGATGC ATTCGGGCTC TTCCTTCAGC GGGGCCGCTT
    TGCCAGAGAG ATATAAATGA ATGTCAGCCG AGTCCATCTG TCTGTGGTCC GAATTCCTCC
    TGCACCAATG AAATAGGAAG TTACAGTTGC GCATGTTTGA ATGGATTCAC TCCAACAATT
    TTCAATCTGT CAGTCAGCAT GAATAACACA TGTAGAGAAT CACTAACATC ACCAACAACA
    ACACCCGCAA CAACACCAAC ATCAACACTC ACAACAACAC CAACAACAAG ACCATTATCA
    TCGTCAACAA CAGTGCCACT TTTTGTGTAT GACAGTGAAA TTGAAATAGA CTTGTTTTTC
    GATTACCCGA CAAGCAGCAT ACGTGATCTC TTCACAACAG TCAATAGCTT CCTGCCTTAC
    ACTCTGAACA ACGTAAATCT CCTTTCTGTT GACATGACGA CTGTGTGTGA TTTGAATGGA
    ACAGACTTTG ATTGCAAGTG TGAAGTGGCT CATGTTTGGC CCAGTAACAC CTGCAAGGCC
    TATCAGGTGT GTGATAATAT TGTAGGAGGC ACTTGTGGAT GTATTCAGGC TCTGCCTTCA
    AATGGAACAC TTTGCCAACA AGATATAAAC GAGTGTCAGC AGACTCCATC TGTCTGTGGT
    CCAAATTCCA CCTGCACCAA TGTAATAGGA AGTTACTATT GCTTATGTTT GCCTGGATTC
    ATCCCAGCAA ACCCAAATCT ATTAGCCAGC ATCAATAACA CATGTATAGC AACAGCTCCA
    TTAACACCAA CTCCATCAAC TCCAACAACA AAAGCACCAG TTTTTGTGTA TGAAAGTGAC
    ATTGAAATAG ATTTGTTTAG CGATTACCCG ATGAGCAGCT TAAGGAATCT CCTCACAGGA
    ATCCCACTGC CTTACACTCT GAGCATCATA AATCTCTTAT CTGTTAACAT AACGACAGTG
    TGTGATTTGA ATGGAACAGG CTTTGATTGC AAATGTGAGG CGAATCATGT TTGGCCCAGT
    AGCACCTGCA CGACCTATCA GGTGTGTGAT AGCATTGTAG GAGGCACTTG TGGATGCATT
    CAAACTCTCC CTTCAAACGG GTCACTTTGC CAGCAAGATA TAAATGAGTG TCAGCCAAGC
    CCTTCTGTCT GTGGTCCAAA TTCCATCTGC AACAATGAAA TAGGAAGTTA TAGTTGCTCA
    TGTTTGAATG GATTCACTCC GGCAAATTCA AATCTCTTAG TCAGCAGTAA TAACAAATGT
    ACAGCACCAA CAACAACACC ACAACCATCA CCACAACCAT CACCACAACC ATCAACACAA
    CCAACACCCC AAACAACACC CCAAACAACA ACACCACCAC AGCCTACGCC AACAACACCA
    CAGCCAACAA CAACAACAAC AACACCAGAG CCAACAACAA CAACGACAAC AACAACGACA
    ACAACGACAA CAGTTGCAAC AAAAGTTATT ACAATGTCAT TGAAAATGGA TCAGACTTTT
    GACACAAATC TTGCTGACTC TACGACCCAG ACTTTCAAAG ATTTATCGGG AAAGCTTGAA
    TCATCTATTG ACTCAAGTTA TTCTTCTAAT TTAAAAGGCT ACGTTAGTAA GTCTGTGAAG
    GTTAATGCCT ATAGGCCTGG TAGTGTATTT GCAGACTACA CAATAAGTGC AACATCTAGT
    AACCTTGATT TTTCATCAGC AAACGCAGCT CTTTCCAGCT CACTACAGGC ACAAGGAATA
    ATTTTAGCTG CAGATGCTTT TGCTCAAAGT GATCAAAAAG ACTTCATAAC GGGTCAAGTT
    TATCCTCAGC AAAAGCTGGA GCTAATATGT ACACAGCCGG ACTTTGCACA AGGACAAATA
    ACATGGAAAG TGAATAACAA AGATCCTGAC AAAAATCAGT ACTCACTTTC AAGCGACAAC
    CGCACTCTCA CAGCGAACAG TGTTACTGAA AGTAACAGTG GTCAATATTC ATGCATCACA
    CAAAGGACCA CAATACCTTA CATTCAGTGG CAAAACATTG CTGTTAAACA ACTTCCCAAT
    ATCAATGTGG GTAATAATTA CCGTGTTGTT CAATGTCCTG GGAGCAGCGT CTTGAAATGT
    TCTGTTGATG CTGGCTACAG TATTGAGTGG GTCCAGGGTG AAACAGTACA AGTTTCAGAA
    TCTGCAGCAG ACGGTATCAC ATTAAACTAC GCAAGTCAAA TTGGAAATTG TACGCAGGAG
    CAAACCTTTA CATGTCGTCT CAAGGGTCTG CCAGCACTAC TCATATACGG TTATAGCCAG
    AGCAGTGTCA TAGTGAAGAA TACTGATCAA CAATATGACT GTCAAAATGA AGAACTTGGA
    CTTGGAAATC AAAATGAACA GAGGAATGGA ATCTGTCCAA CTGGCACAAA AGGCATCATA
    ACTTATGAAT GTGATTCAAA GGCCTGGAGA CCAATAAAAG AAAACTGTAT ACTTGGGGTT
    ATCAGTGATT TACTTACTCA AATTCCGGTA TTGCAAGTGG GACAGATTCC AAGTTTCCTG
    TCTAACCTCA GTTTCGCCAC AGAGCAGAAT AATATTAATA TAACTCAGTC TGCTGCTACT
    GTCAAAGCAA TTGTGGATAT ACTTTCACAA ATTGCTAATC TGGCACAAAC AGCACTCATC
    GGTCCGCCAG TGATGAACAG TTTCCTAAAA ACATTGGACA TCATTGTGTC AACTAATAGC
    ACTGAGACAT GGAACACTCT GAACAACGAC AACACCACAG AAAACACCAA CATTAAACTT
    CTGAAAGCCA CTGAAACTAT AAGTGACCGT CTCATAGATC AGTTTACGGT CAATCTAACA
    TCCATTCAGC TGAGCAGAAC TACAGTAAAT AGCTCATTGA GTGTAACATC AACACTGTCA
    AACTCAACTA CTGAGATTGT GATACCACAG GTTTTTGGGC CGACTACAGC AACGATCATA
    ATCTTCACAA CTCTTGACAA TATCCTTCCA ACCCGTAATA TTTCTAATAA TAACAGCAGT
    GACATATCAG ATCAGCGTAT CAATGGAGAT GTGGTTGTTG TTAAAGTTGA TAAAACAGTT
    AACAACATAT CTTTTGCATT TGACATTACT AATCAGTCTT TGGGAAATCC TCAGTGTGTC
    TTTTGGAACT TTAACCTCAG CGCATGGGAT TCCACTGGAT GTGAAGTAAA GCAAGTAGGA
    AATGACTCTG GCATAATTAC ATGTGAATGC AACCACACAA CCTCTTTTTC AATTCTAATG
    TCACCTTTTA TCCTTGACAG TTTAATCTTA GCCTATATAA CTTACATTGG CGTAACAATT
    TCAATGATCA GCTTGGTTTT ATGCCTTATA ATTGAAGCTA TCGTTTGGAG ATCAGTGACA
    TCAGCCAGAG GTGTTACAGT TGTAAGCTCC TACATGCGAC ATATCTCCTT AGTCAACATT
    GCCCTCTCTC TGCTCATCGC AAACGTCTGT TTTATCATTG GAGCTGCAAT CTCAGACCTA
    GAAAAGCCAA CCCCCGTGGG TCGCTGCAGT CCAGTGGTTT TCTTCATACA CTTTTTTTAC
    CTCGCTGTTT TCTTCTGGAT GTTAATTTCA GGGATGCTGC TCTTATACAT GACAGTCATG
    GTATTTGGCC AAATGTCAAG GATCAAAATG ATAGCCATTT CCTTCCCTGT CGGTTATGGC
    GCACCTTTGC TCATAGCATC CATTACTGTT GCATCAACAG CTGGACCTCA GAATTATGTT
    TCCAAACAAG CATGCTGGCT GAACTGGAAT GAATCCAGGG CTCTGCTGGC ATTTGTGATT
    CCAGCTCTCA CTATTGTAGC CATAAACCTT GTGGTTTTGG TTGTGGTTCT GTACAAGATG
    TTAGGTACTG GAGTTGGTGC CGCAACTCAA CCAAGTGAGA AAAATACCTT TTTTGTCGTT
    GTCCGATGTG TGGCCTTTTT GACTCCTCTT TTTGGTCTAA CATGGGGATT TGGAATTGGA
    ACCATGCTGT CAAGTGCATT AGGCGTCCAT GTGTTGTTTA CACTCCTCAA TGCATTCCAG
    GGATTCTTTA TTTTGCTGTT TGGAACCATT TTAGACGCCA AGGTTCGAGA GGCATTACGA
    GGAAAACTGC AAATAGATAA ACTCGCTTCC CGAATTACCC AGAGCACCAG TGGAGGAGCA
    TCATCTTCAG CTGGACAAAG GGGACCACGG AGGAATGTCT ACAATGTGTC GGATCCCAAC
    AATACCTCGA GATTTACTTC AGAGGGCGTG AGCGGCTCAT ATTCAGCTGT AGACACCTAA

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

    RefSeq XP_021324214.1
    CDS171..5330
    Translation

    Target ORF information:

    RefSeq Version XM_021468539.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio adhesion G protein-coupled receptor F8 (adgrf8), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021468539.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    ATGGCCAGTG GAGGGAAAAT ATCTATATAT CTATTTGGAA TCATCATGGC TGTCGTGCTG 
    AACCATGAGT GTGTTGCGGA AGTTCTTGAT TTTTCAGACA TAAGTCTGGA TTTACAGTTC
    AGCTACTCAG ATGGTGCAGC TCATCATATA AGACGGAGAA GCACAGATCA AGTGCAGTAT
    GTAATGGTAG TGGAAGTAAA TGTATCCGAC ATTGAAGCTC TCAACCAAAT CAGAACATCT
    GTGGCCACCG TTCCACTTCC ATTTCAAGCA GACAATAGCA CTGAAATTAC AGCTGTGAAC
    ATTTCGACAG TGTGTTCTTT GAATGAAACG CAGTATCAGT GTAAATGTGA GGGTCTGTTT
    GTTTGGCCAA ATGACACGTG TCATGTATAC CAGGCCTGTG ATGCCATCTC TAACGGATCA
    TGTACATGTA TCAATGACCT TCCAGCTGAT GGACAGTTCT GCCAAGATGT TGATAAATGT
    CTGGTCAATC CACCTGTCTG TGGTCCAAAT TCCAACTGCA CAAATACAAT GGGAAGTTAC
    AGTTGCTCAT GTTTGAGTGG ATTCACAGCA ACAAACCCAA ATCTCACAAT CAGCATTGAT
    AACATCTGTA CAGCTCCATC AATAACAACC CCTACACCAT CATCGCCAAC ACAATCAACA
    ACAGCAGGGC CACTTTTTGT GTATGAGAGT GAAATTGATA TCAGTTTATT TGATATTTCC
    TCGGCGAACA GATTAGAGAG TCTCATCACA TCATATCAAC CACCTTATTC TTTGGGCAGC
    ATGAATATCC TTGAACTCAA CATTACTACT GTGTGTGGAT TGAATGGAAC TGAATATGAT
    TGTCAGTGTG CAGCGAATCA TGTTTGGTCC AGTAACAACT GCACGACCTA TCAGGCATGT
    GATAATATTG TCGGAGGTAC TTGTGGATGC ATTCGGGCTC TTCCTTCAGC GGGGCCGCTT
    TGCCAGAGAG ATATAAATGA ATGTCAGCCG AGTCCATCTG TCTGTGGTCC GAATTCCTCC
    TGCACCAATG AAATAGGAAG TTACAGTTGC GCATGTTTGA ATGGATTCAC TCCAACAATT
    TTCAATCTGT CAGTCAGCAT GAATAACACA TGTAGAGAAT CACTAACATC ACCAACAACA
    ACACCCGCAA CAACACCAAC ATCAACACTC ACAACAACAC CAACAACAAG ACCATTATCA
    TCGTCAACAA CAGTGCCACT TTTTGTGTAT GACAGTGAAA TTGAAATAGA CTTGTTTTTC
    GATTACCCGA CAAGCAGCAT ACGTGATCTC TTCACAACAG TCAATAGCTT CCTGCCTTAC
    ACTCTGAACA ACGTAAATCT CCTTTCTGTT GACATGACGA CTGTGTGTGA TTTGAATGGA
    ACAGACTTTG ATTGCAAGTG TGAAGTGGCT CATGTTTGGC CCAGTAACAC CTGCAAGGCC
    TATCAGGTGT GTGATAATAT TGTAGGAGGC ACTTGTGGAT GTATTCAGGC TCTGCCTTCA
    AATGGAACAC TTTGCCAACA AGATATAAAC GAGTGTCAGC AGACTCCATC TGTCTGTGGT
    CCAAATTCCA CCTGCACCAA TGTAATAGGA AGTTACTATT GCTTATGTTT GCCTGGATTC
    ATCCCAGCAA ACCCAAATCT ATTAGCCAGC ATCAATAACA CATGTATAGC AACAGCTCCA
    TTAACACCAA CTCCATCAAC TCCAACAACA AAAGCACCAG TTTTTGTGTA TGAAAGTGAC
    ATTGAAATAG ATTTGTTTAG CGATTACCCG ATGAGCAGCT TAAGGAATCT CCTCACAGGA
    ATCCCACTGC CTTACACTCT GAGCATCATA AATCTCTTAT CTGTTAACAT AACGACAGTG
    TGTGATTTGA ATGGAACAGG CTTTGATTGC AAATGTGAGG CGAATCATGT TTGGCCCAGT
    AGCACCTGCA CGACCTATCA GGTGTGTGAT AGCATTGTAG GAGGCACTTG TGGATGCATT
    CAAACTCTCC CTTCAAACGG GTCACTTTGC CAGCAAGATA TAAATGAGTG TCAGCCAAGC
    CCTTCTGTCT GTGGTCCAAA TTCCATCTGC AACAATGAAA TAGGAAGTTA TAGTTGCTCA
    TGTTTGAATG GATTCACTCC GGCAAATTCA AATCTCTTAG TCAGCAGTAA TAACAAATGT
    ACAGCACCAA CAACAACACC ACAACCATCA CCACAACCAT CACCACAACC ATCAACACAA
    CCAACACCCC AAACAACACC CCAAACAACA ACACCACCAC AGCCTACGCC AACAACACCA
    CAGCCAACAA CAACAACAAC AACACCAGAG CCAACAACAA CAACGACAAC AACAACGACA
    ACAACGACAA CAGTTGCAAC AAAAGTTATT ACAATGTCAT TGAAAATGGA TCAGACTTTT
    GACACAAATC TTGCTGACTC TACGACCCAG ACTTTCAAAG ATTTATCGGG AAAGCTTGAA
    TCATCTATTG ACTCAAGTTA TTCTTCTAAT TTAAAAGGCT ACGTTAGTAA GTCTGTGAAG
    GTTAATGCCT ATAGGCCTGG TAGTGTATTT GCAGACTACA CAATAAGTGC AACATCTAGT
    AACCTTGATT TTTCATCAGC AAACGCAGCT CTTTCCAGCT CACTACAGGC ACAAGGAATA
    ATTTTAGCTG CAGATGCTTT TGCTCAAAGT GATCAAAAAG ACTTCATAAC GGGTCAAGTT
    TATCCTCAGC AAAAGCTGGA GCTAATATGT ACACAGCCGG ACTTTGCACA AGGACAAATA
    ACATGGAAAG TGAATAACAA AGATCCTGAC AAAAATCAGT ACTCACTTTC AAGCGACAAC
    CGCACTCTCA CAGCGAACAG TGTTACTGAA AGTAACAGTG GTCAATATTC ATGCATCACA
    CAAAGGACCA CAATACCTTA CATTCAGTGG CAAAACATTG CTGTTAAACA ACTTCCCAAT
    ATCAATGTGG GTAATAATTA CCGTGTTGTT CAATGTCCTG GGAGCAGCGT CTTGAAATGT
    TCTGTTGATG CTGGCTACAG TATTGAGTGG GTCCAGGGTG AAACAGTACA AGTTTCAGAA
    TCTGCAGCAG ACGGTATCAC ATTAAACTAC GCAAGTCAAA TTGGAAATTG TACGCAGGAG
    CAAACCTTTA CATGTCGTCT CAAGGGTCTG CCAGCACTAC TCATATACGG TTATAGCCAG
    AGCAGTGTCA TAGTGAAGAA TACTGATCAA CAATATGACT GTCAAAATGA AGAACTTGGA
    CTTGGAAATC AAAATGAACA GAGGAATGGA ATCTGTCCAA CTGGCACAAA AGGCATCATA
    ACTTATGAAT GTGATTCAAA GGCCTGGAGA CCAATAAAAG AAAACTGTAT ACTTGGGGTT
    ATCAGTGATT TACTTACTCA AATTCCGGTA TTGCAAGTGG GACAGATTCC AAGTTTCCTG
    TCTAACCTCA GTTTCGCCAC AGAGCAGAAT AATATTAATA TAACTCAGTC TGCTGCTACT
    GTCAAAGCAA TTGTGGATAT ACTTTCACAA ATTGCTAATC TGGCACAAAC AGCACTCATC
    GGTCCGCCAG TGATGAACAG TTTCCTAAAA ACATTGGACA TCATTGTGTC AACTAATAGC
    ACTGAGACAT GGAACACTCT GAACAACGAC AACACCACAG AAAACACCAA CATTAAACTT
    CTGAAAGCCA CTGAAACTAT AAGTGACCGT CTCATAGATC AGTTTACGGT CAATCTAACA
    TCCATTCAGC TGAGCAGAAC TACAGTAAAT AGCTCATTGA GTGTAACATC AACACTGTCA
    AACTCAACTA CTGAGATTGT GATACCACAG GTTTTTGGGC CGACTACAGC AACGATCATA
    ATCTTCACAA CTCTTGACAA TATCCTTCCA ACCCGTAATA TTTCTAATAA TAACAGCAGT
    GACATATCAG ATCAGCGTAT CAATGGAGAT GTGGTTGTTG TTAAAGTTGA TAAAACAGTT
    AACAACATAT CTTTTGCATT TGACATTACT AATCAGTCTT TGGGAAATCC TCAGTGTGTC
    TTTTGGAACT TTAACCTCAG CGCATGGGAT TCCACTGGAT GTGAAGTAAA GCAAGTAGGA
    AATGACTCTG GCATAATTAC ATGTGAATGC AACCACACAA CCTCTTTTTC AATTCTAATG
    TCACCTTTTA TCCTTGACAG TTTAATCTTA GCCTATATAA CTTACATTGG CGTAACAATT
    TCAATGATCA GCTTGGTTTT ATGCCTTATA ATTGAAGCTA TCGTTTGGAG ATCAGTGACA
    TCAGCCAGAG GTGTTACAGT TGTAAGCTCC TACATGCGAC ATATCTCCTT AGTCAACATT
    GCCCTCTCTC TGCTCATCGC AAACGTCTGT TTTATCATTG GAGCTGCAAT CTCAGACCTA
    GAAAAGCCAA CCCCCGTGGG TCGCTGCAGT CCAGTGGTTT TCTTCATACA CTTTTTTTAC
    CTCGCTGTTT TCTTCTGGAT GTTAATTTCA GGGATGCTGC TCTTATACAT GACAGTCATG
    GTATTTGGCC AAATGTCAAG GATCAAAATG ATAGCCATTT CCTTCCCTGT CGGTTATGGC
    GCACCTTTGC TCATAGCATC CATTACTGTT GCATCAACAG CTGGACCTCA GAATTATGTT
    TCCAAACAAG CATGCTGGCT GAACTGGAAT GAATCCAGGG CTCTGCTGGC ATTTGTGATT
    CCAGCTCTCA CTATTGTAGC CATAAACCTT GTGGTTTTGG TTGTGGTTCT GTACAAGATG
    TTAGGTACTG GAGTTGGTGC CGCAACTCAA CCAAGTGAGA AAAATACCTT TTTTGTCGTT
    GTCCGATGTG TGGCCTTTTT GACTCCTCTT TTTGGTCTAA CATGGGGATT TGGAATTGGA
    ACCATGCTGT CAAGTGCATT AGGCGTCCAT GTGTTGTTTA CACTCCTCAA TGCATTCCAG
    GGATTCTTTA TTTTGCTGTT TGGAACCATT TTAGACGCCA AGGTTCGAGA GGCATTACGA
    GGAAAACTGC AAATAGATAA ACTCGCTTCC CGAATTACCC AGAGCACCAG TGGAGGAGCA
    TCATCTTCAG CTGGACAAAG GGGACCACGG AGGAATGTCT ACAATGTGTC GGATCCCAAC
    AATACCTCGA GATTTACTTC AGAGGGCGTG AGCGGCTCAT ATTCAGCTGT AGACACCTAA

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

    CloneID ODa56615
    Clone ID Related Accession (Same CDS sequence) XM_017352558.1
    Accession Version XM_017352558.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5112bp)
    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 F5-like
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007131.6) 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 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## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    ATGGCCAGTG GAGGGAAAAT ATCTATATAT CTATTTGGAA TCATCATGGC TGTCGTGCTG 
    AACCATGAGT GTGTTGCGGA AGTTCTTGAT TTTTCAGACA TAAGTCTGGA TTTACAGTTC
    AGCTACTCAG ATGGTGCAGC TCATCATATA AGACGGAGAA GCACAGATCA AGTGCAGTAT
    GTAATGGTAG TGGAAGTAAA TGTATCCGAC ATTGAAGCTC TCAACCAAAT CAGAACATCT
    GTGGCCACCG TTCCACTTCC ATTTCAAGCA GACAATAGCA CTGAAATTAC AGCTGTGAAC
    ATTTCGACAG TGTGTTCTTT GAATGAAACG CAGTATCAGT GTAAATGTGA GGGTCTGTTT
    GTTTGGCCAA ATGACACGTG TCATGTATAC CAGGCCTGTG ATGCCATCTC TAACGGATCA
    TGTACATGTA TCAATGACCT TCCAGCTGAT GGACAGTTCT GCCAAGATGT TGATAAATGT
    CTGGTCAATC CACCTGTCTG TGGTCCAAAT TCCAACTGCA CAAATACAAT GGGAAGTTAC
    AGTTGCTCAT GTTTGAGTGG ATTCACAGCA ACAAACCCAA ATCTCACAAT CAGCATTGAT
    AACATCTGTA CAGCTCCATC AATAACAACC CCTACACCAT CATCGCCAAC ACAATCAACA
    ACAGCAGGGC CACTTTTTGT GTATGAGAGT GAAATTGATA TCAGTTTATT TGATATTTCC
    TCGGCGAACA GATTAGAGAG TCTCATCACA TCATATCAAC CACCTTATTC TTTGGGCAGC
    ATGAATATCC TTGAACTCAA CATTACTACT GTGTGTGGAT TGAATGGAAC TGAATATGAT
    TGTCAGTGTG CAGCGAATCA TGTTTGGTCC AGTAACAACT GCACGACCTA TCAGGCATGT
    GATAATATTG TCGGAGGTAC TTGTGGATGC ATTCGGGCTC TTCCTTCAGC GGGGCCGCTT
    TGCCAGAGAG ATATAAATGA ATGTCAGCCG AGTCCATCTG TCTGTGGTCC GAATTCCTCC
    TGCACCAATG AAATAGGAAG TTACAGTTGC GCATGTTTGA ATGGATTCAC TCCAACAATT
    TTCAATCTGT CAGTCAGCAT GAATAACACA TGTAGAGAAT CACTAACATC ACCAACAACA
    ACACCCGCAA CAACACCAAC ATCAACACTC ACAACAACAC CAACAACAAG ACCATTATCA
    TCGTCAACAA CAGTGCCACT TTTTGTGTAT GACAGTGAAA TTGAAATAGA CTTGTTTTTC
    GATTACCCGA CAAGCAGCAT ACGTGATCTC TTCACAACAG TCAATAGCTT CCTGCCTTAC
    ACTCTGAACA ACGTAAATCT CCTTTCTGTT GACATGACGA CTGTGTGTGA TTTGAATGGA
    ACAGACTTTG ATTGCAAGTG TGAAGTGGCT CATGTTTGGC CCAGTAACAC CTGCAAGGCC
    TATCAGGTGT GTGATAATAT TGTAGGAGGC ACTTGTGGAT GTATTCAGGC TCTGCCTTCA
    AATGGAACAC TTTGCCAACA AGATATAAAC GAGTGTCAGC AGACTCCATC TGTCTGTGGT
    CCAAATTCCA CCTGCACCAA TGTAATAGGA AGTTACTATT GCTTATGTTT GCCTGGATTC
    ATCCCAGCAA ACCCAAATCT ATTAGCCAGC ATCAATAACA CATGTATAGC AACAGCTCCA
    TTAACACCAA CTCCATCAAC TCCAACAACA AAAGCACCAG TTTTTGTGTA TGAAAGTGAC
    ATTGAAATAG ATTTGTTTAG CGATTACCCG ATGAGCAGCT TAAGGAATCT CCTCACAGGA
    ATCCCACTGC CTTACACTCT GAGCATCATA AATCTCTTAT CTGTTAACAT AACGACAGTG
    TGTGATTTGA ATGGAACAGG CTTTGATTGC AAATGTGAGG CGAATCATGT TTGGCCCAGT
    AGCACCTGCA CGACCTATCA GGTGTGTGAT AGCATTGTAG GAGGCACTTG TGGATGCATT
    CAAACTCTCC CTTCAAACGG GTCACTTTGC CAGCAAGATA TAAATGAGTG TCAGCCAAGC
    CCTTCTGTCT GTGGTCCAAA TTCCATCTGC AACAATGAAA TAGGAAGTTA TAGTTGCTCA
    TGTTTGAATG GATTCACTCC GGCAAATTCA AATCTCTTAG TCAGCAGTAA TAACAAATGT
    ACAGCACCAA CAACAACACC ACAACCATCA CCACAACCAT CACCACAACC ATCAACACAA
    CCAACACCCC AAACAACACC CCAAACAACA ACACCACCAC AGCCTACGCC AACAACACCA
    CAAACAACGA CAACAACGAC AACAGTTGCA ACAAAAGTTA TTACAATGTC ATTGAAAATG
    GATCAGACTT TTGACACAAA TCTTGCTGAC TCTACGACCC AGACTTTCAA AGATTTATCG
    GGAAAGCTTG AATCATCTAT TGACTCAAGT TATTCTTCTA ATTTAAAAGG CTACGTTAGT
    AAGTCTGTGA AGGTTAATGC CTATAGGCCT GGTAGTGTAT TTGCAGACTA CACAATAAGT
    GCAACATCTA GTAACCTTGA TTTTTCATCA GCAAACGCAG CTCTTTCCAG CTCACTACAG
    GCACAAGGAA TAATTTTAGC TGCAGATGCT TTTGCTCAAA GTGATCAAAA AGACTTCATA
    ACGGGTCAAG TTTATCCTCA GCAAAAGCTG GAGCTAATAT GTACACAGCC GGACTTTGCA
    CAAGGACAAA TAACATGGAA AGTGAATAAC AAAGATCCTG ACAAAAATCA GTACTCACTT
    TCAAGCGACA ACCGCACTCT CACAGCGAAC AGTGTTACTG AAAGTAACAG TGGTCAATAT
    TCATGCATCA CACAAAGGAC CACAATACCT TACATTCAGT GGCAAAACAT TGCTGTTAAA
    CAACTTCCCA ATATCAATGT GGGTAATAAT TACCGTGTTG TTCAATGTCC TGGGAGCAGC
    GTCTTGAAAT GTTCTGTTGA TGCTGGCTAC AGTATTGAGT GGGTCCAGGG TGAAACAGTA
    CAAGTTTCAG AATCTGCAGC AGACGGTATC ACATTAAACT ACGCAAGTCA AATTGGAAAT
    TGTACGCAGG AGCAAACCTT TACATGTCGT CTCAAGGGTC TGCCAGCACT ACTCATATAC
    GGTTATAGCC AGAGCAGTGT CATAGTGAAG AATACTGATC AACAATATGA CTGTCAAAAT
    GAAGAACTTG GACTTGGAAA TCAAAATGAA CAGAGGAATG GAATCTGTCC AACTGGCACA
    AAAGGCATCA TAACTTATGA ATGTGATTCA AAGGCCTGGA GACCAATAAA AGAAAACTGT
    ATACTTGGGG TTATCAGTGA TTTACTTACT CAAATTCCGG TATTGCAAGT GGGACAGATT
    CCAAGTTTCC TGTCTAACCT CAGTTTCGCC ACAGAGCAGA ATAATATTAA TATAACTCAG
    TCTGCTGCTA CTGTCAAAGC AATTGTGGAT ATACTTTCAC AAATTGCTAA TCTGGCACAA
    ACAGCACTCA TCGGTCCGCC AGTGATGAAC AGTTTCCTAA AAACATTGGA CATCATTGTG
    TCAACTAATA GCACTGAGAC ATGGAACACT CTGAACAACG ACAACACCAC AGAAAACACC
    AACATTAAAC TTCTGAAAGC CACTGAAACT ATAAGTGACC GTCTCATAGA TCAGTTTACG
    GTCAATCTAA CATCCATTCA GCTGAGCAGA ACTACAGTAA ATAGCTCATT GAGTGTAACA
    TCAACACTGT CAAACTCAAC TACTGAGATT GTGATACCAC AGGTTTTTGG GCCGACTACA
    GCAACGATCA TAATCTTCAC AACTCTTGAC AATATCCTTC CAACCCGTAA TATTTCTAAT
    AATAACAGCA GTGACATATC AGATCAGCGT ATCAATGGAG ATGTGGTTGT TGTTAAAGTT
    GATAAAACAG TTAACAACAT ATCTTTTGCA TTTGACATTA CTAATCAGTC TTTGGGAAAT
    CCTCAGTGTG TCTTTTGGAA CTTTAACCTC AGCGCATGGG ATTCCACTGG ATGTGAAGTA
    AAGCAAGTAG GAAATGACTC TGGCATAATT ACATGTGAAT GCAACCACAC AACCTCTTTT
    TCAATTCTAA TGTCACCTTT TATCCTTGAC AGTTTAATCT TAGCCTATAT AACTTACATT
    GGCGTAACAA TTTCAATGAT CAGCTTGGTT TTATGCCTTA TAATTGAAGC TATCGTTTGG
    AGATCAGTGA CATCAGCCAG AGGTGTTACA GTTGTAAGCT CCTACATGCG ACATATCTCC
    TTAGTCAACA TTGCCCTCTC TCTGCTCATC GCAAACGTCT GTTTTATCAT TGGAGCTGCA
    ATCTCAGACC TAGAAAAGCC AACCCCCGTG GGTCGCTGCA GTCCAGTGGT TTTCTTCATA
    CACTTTTTTT ACCTCGCTGT TTTCTTCTGG ATGTTAATTT CAGGGATGCT GCTCTTATAC
    ATGACAGTCA TGGTATTTGG CCAAATGTCA AGGATCAAAA TGATAGCCAT TTCCTTCCCT
    GTCGGTTATG GCGCACCTTT GCTCATAGCA TCCATTACTG TTGCATCAAC AGCTGGACCT
    CAGAATTATG TTTCCAAACA AGCATGCTGG CTGAACTGGA ATGAATCCAG GGCTCTGCTG
    GCATTTGTGA TTCCAGCTCT CACTATTGTA GCCATAAACC TTGTGGTTTT GGTTGTGGTT
    CTGTACAAGA TGTTAGGTAC TGGAGTTGGT GCCGCAACTC AACCAAGTGA GAAAAATACC
    TTTTTTGTCG TTGTCCGATG TGTGGCCTTT TTGACTCCTC TTTTTGGTCT AACATGGGGA
    TTTGGAATTG GAACCATGCT GTCAAGTGCA TTAGGCGTCC ATGTGTTGTT TACACTCCTC
    AATGCATTCC AGGGATTCTT TATTTTGCTG TTTGGAACCA TTTTAGACGC CAAGGTTCGA
    GAGGCATTAC GAGGAAAACT GCAAATAGAT AAACTCGCTT CCCGAATTAC CCAGAGCACC
    AGTGGAGGAG CATCATCTTC AGCTGGACAA AGGGGACCAC GGAGGAATGT CTACAATGTG
    TCGGATCCCA ACAATACCTC GAGATTTACT TCAGAGGGCG TGAGCGGCTC ATATTCAGCT
    GTAGACACCT AA

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

    RefSeq XP_017208047.1
    CDS155..5266
    Translation

    Target ORF information:

    RefSeq Version XM_017352558.1
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio adhesion G protein-coupled receptor F8 (adgrf8), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017352558.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    ATGGCCAGTG GAGGGAAAAT ATCTATATAT CTATTTGGAA TCATCATGGC TGTCGTGCTG 
    AACCATGAGT GTGTTGCGGA AGTTCTTGAT TTTTCAGACA TAAGTCTGGA TTTACAGTTC
    AGCTACTCAG ATGGTGCAGC TCATCATATA AGACGGAGAA GCACAGATCA AGTGCAGTAT
    GTAATGGTAG TGGAAGTAAA TGTATCCGAC ATTGAAGCTC TCAACCAAAT CAGAACATCT
    GTGGCCACCG TTCCACTTCC ATTTCAAGCA GACAATAGCA CTGAAATTAC AGCTGTGAAC
    ATTTCGACAG TGTGTTCTTT GAATGAAACG CAGTATCAGT GTAAATGTGA GGGTCTGTTT
    GTTTGGCCAA ATGACACGTG TCATGTATAC CAGGCCTGTG ATGCCATCTC TAACGGATCA
    TGTACATGTA TCAATGACCT TCCAGCTGAT GGACAGTTCT GCCAAGATGT TGATAAATGT
    CTGGTCAATC CACCTGTCTG TGGTCCAAAT TCCAACTGCA CAAATACAAT GGGAAGTTAC
    AGTTGCTCAT GTTTGAGTGG ATTCACAGCA ACAAACCCAA ATCTCACAAT CAGCATTGAT
    AACATCTGTA CAGCTCCATC AATAACAACC CCTACACCAT CATCGCCAAC ACAATCAACA
    ACAGCAGGGC CACTTTTTGT GTATGAGAGT GAAATTGATA TCAGTTTATT TGATATTTCC
    TCGGCGAACA GATTAGAGAG TCTCATCACA TCATATCAAC CACCTTATTC TTTGGGCAGC
    ATGAATATCC TTGAACTCAA CATTACTACT GTGTGTGGAT TGAATGGAAC TGAATATGAT
    TGTCAGTGTG CAGCGAATCA TGTTTGGTCC AGTAACAACT GCACGACCTA TCAGGCATGT
    GATAATATTG TCGGAGGTAC TTGTGGATGC ATTCGGGCTC TTCCTTCAGC GGGGCCGCTT
    TGCCAGAGAG ATATAAATGA ATGTCAGCCG AGTCCATCTG TCTGTGGTCC GAATTCCTCC
    TGCACCAATG AAATAGGAAG TTACAGTTGC GCATGTTTGA ATGGATTCAC TCCAACAATT
    TTCAATCTGT CAGTCAGCAT GAATAACACA TGTAGAGAAT CACTAACATC ACCAACAACA
    ACACCCGCAA CAACACCAAC ATCAACACTC ACAACAACAC CAACAACAAG ACCATTATCA
    TCGTCAACAA CAGTGCCACT TTTTGTGTAT GACAGTGAAA TTGAAATAGA CTTGTTTTTC
    GATTACCCGA CAAGCAGCAT ACGTGATCTC TTCACAACAG TCAATAGCTT CCTGCCTTAC
    ACTCTGAACA ACGTAAATCT CCTTTCTGTT GACATGACGA CTGTGTGTGA TTTGAATGGA
    ACAGACTTTG ATTGCAAGTG TGAAGTGGCT CATGTTTGGC CCAGTAACAC CTGCAAGGCC
    TATCAGGTGT GTGATAATAT TGTAGGAGGC ACTTGTGGAT GTATTCAGGC TCTGCCTTCA
    AATGGAACAC TTTGCCAACA AGATATAAAC GAGTGTCAGC AGACTCCATC TGTCTGTGGT
    CCAAATTCCA CCTGCACCAA TGTAATAGGA AGTTACTATT GCTTATGTTT GCCTGGATTC
    ATCCCAGCAA ACCCAAATCT ATTAGCCAGC ATCAATAACA CATGTATAGC AACAGCTCCA
    TTAACACCAA CTCCATCAAC TCCAACAACA AAAGCACCAG TTTTTGTGTA TGAAAGTGAC
    ATTGAAATAG ATTTGTTTAG CGATTACCCG ATGAGCAGCT TAAGGAATCT CCTCACAGGA
    ATCCCACTGC CTTACACTCT GAGCATCATA AATCTCTTAT CTGTTAACAT AACGACAGTG
    TGTGATTTGA ATGGAACAGG CTTTGATTGC AAATGTGAGG CGAATCATGT TTGGCCCAGT
    AGCACCTGCA CGACCTATCA GGTGTGTGAT AGCATTGTAG GAGGCACTTG TGGATGCATT
    CAAACTCTCC CTTCAAACGG GTCACTTTGC CAGCAAGATA TAAATGAGTG TCAGCCAAGC
    CCTTCTGTCT GTGGTCCAAA TTCCATCTGC AACAATGAAA TAGGAAGTTA TAGTTGCTCA
    TGTTTGAATG GATTCACTCC GGCAAATTCA AATCTCTTAG TCAGCAGTAA TAACAAATGT
    ACAGCACCAA CAACAACACC ACAACCATCA CCACAACCAT CACCACAACC ATCAACACAA
    CCAACACCCC AAACAACACC CCAAACAACA ACACCACCAC AGCCTACGCC AACAACACCA
    CAAACAACGA CAACAACGAC AACAGTTGCA ACAAAAGTTA TTACAATGTC ATTGAAAATG
    GATCAGACTT TTGACACAAA TCTTGCTGAC TCTACGACCC AGACTTTCAA AGATTTATCG
    GGAAAGCTTG AATCATCTAT TGACTCAAGT TATTCTTCTA ATTTAAAAGG CTACGTTAGT
    AAGTCTGTGA AGGTTAATGC CTATAGGCCT GGTAGTGTAT TTGCAGACTA CACAATAAGT
    GCAACATCTA GTAACCTTGA TTTTTCATCA GCAAACGCAG CTCTTTCCAG CTCACTACAG
    GCACAAGGAA TAATTTTAGC TGCAGATGCT TTTGCTCAAA GTGATCAAAA AGACTTCATA
    ACGGGTCAAG TTTATCCTCA GCAAAAGCTG GAGCTAATAT GTACACAGCC GGACTTTGCA
    CAAGGACAAA TAACATGGAA AGTGAATAAC AAAGATCCTG ACAAAAATCA GTACTCACTT
    TCAAGCGACA ACCGCACTCT CACAGCGAAC AGTGTTACTG AAAGTAACAG TGGTCAATAT
    TCATGCATCA CACAAAGGAC CACAATACCT TACATTCAGT GGCAAAACAT TGCTGTTAAA
    CAACTTCCCA ATATCAATGT GGGTAATAAT TACCGTGTTG TTCAATGTCC TGGGAGCAGC
    GTCTTGAAAT GTTCTGTTGA TGCTGGCTAC AGTATTGAGT GGGTCCAGGG TGAAACAGTA
    CAAGTTTCAG AATCTGCAGC AGACGGTATC ACATTAAACT ACGCAAGTCA AATTGGAAAT
    TGTACGCAGG AGCAAACCTT TACATGTCGT CTCAAGGGTC TGCCAGCACT ACTCATATAC
    GGTTATAGCC AGAGCAGTGT CATAGTGAAG AATACTGATC AACAATATGA CTGTCAAAAT
    GAAGAACTTG GACTTGGAAA TCAAAATGAA CAGAGGAATG GAATCTGTCC AACTGGCACA
    AAAGGCATCA TAACTTATGA ATGTGATTCA AAGGCCTGGA GACCAATAAA AGAAAACTGT
    ATACTTGGGG TTATCAGTGA TTTACTTACT CAAATTCCGG TATTGCAAGT GGGACAGATT
    CCAAGTTTCC TGTCTAACCT CAGTTTCGCC ACAGAGCAGA ATAATATTAA TATAACTCAG
    TCTGCTGCTA CTGTCAAAGC AATTGTGGAT ATACTTTCAC AAATTGCTAA TCTGGCACAA
    ACAGCACTCA TCGGTCCGCC AGTGATGAAC AGTTTCCTAA AAACATTGGA CATCATTGTG
    TCAACTAATA GCACTGAGAC ATGGAACACT CTGAACAACG ACAACACCAC AGAAAACACC
    AACATTAAAC TTCTGAAAGC CACTGAAACT ATAAGTGACC GTCTCATAGA TCAGTTTACG
    GTCAATCTAA CATCCATTCA GCTGAGCAGA ACTACAGTAA ATAGCTCATT GAGTGTAACA
    TCAACACTGT CAAACTCAAC TACTGAGATT GTGATACCAC AGGTTTTTGG GCCGACTACA
    GCAACGATCA TAATCTTCAC AACTCTTGAC AATATCCTTC CAACCCGTAA TATTTCTAAT
    AATAACAGCA GTGACATATC AGATCAGCGT ATCAATGGAG ATGTGGTTGT TGTTAAAGTT
    GATAAAACAG TTAACAACAT ATCTTTTGCA TTTGACATTA CTAATCAGTC TTTGGGAAAT
    CCTCAGTGTG TCTTTTGGAA CTTTAACCTC AGCGCATGGG ATTCCACTGG ATGTGAAGTA
    AAGCAAGTAG GAAATGACTC TGGCATAATT ACATGTGAAT GCAACCACAC AACCTCTTTT
    TCAATTCTAA TGTCACCTTT TATCCTTGAC AGTTTAATCT TAGCCTATAT AACTTACATT
    GGCGTAACAA TTTCAATGAT CAGCTTGGTT TTATGCCTTA TAATTGAAGC TATCGTTTGG
    AGATCAGTGA CATCAGCCAG AGGTGTTACA GTTGTAAGCT CCTACATGCG ACATATCTCC
    TTAGTCAACA TTGCCCTCTC TCTGCTCATC GCAAACGTCT GTTTTATCAT TGGAGCTGCA
    ATCTCAGACC TAGAAAAGCC AACCCCCGTG GGTCGCTGCA GTCCAGTGGT TTTCTTCATA
    CACTTTTTTT ACCTCGCTGT TTTCTTCTGG ATGTTAATTT CAGGGATGCT GCTCTTATAC
    ATGACAGTCA TGGTATTTGG CCAAATGTCA AGGATCAAAA TGATAGCCAT TTCCTTCCCT
    GTCGGTTATG GCGCACCTTT GCTCATAGCA TCCATTACTG TTGCATCAAC AGCTGGACCT
    CAGAATTATG TTTCCAAACA AGCATGCTGG CTGAACTGGA ATGAATCCAG GGCTCTGCTG
    GCATTTGTGA TTCCAGCTCT CACTATTGTA GCCATAAACC TTGTGGTTTT GGTTGTGGTT
    CTGTACAAGA TGTTAGGTAC TGGAGTTGGT GCCGCAACTC AACCAAGTGA GAAAAATACC
    TTTTTTGTCG TTGTCCGATG TGTGGCCTTT TTGACTCCTC TTTTTGGTCT AACATGGGGA
    TTTGGAATTG GAACCATGCT GTCAAGTGCA TTAGGCGTCC ATGTGTTGTT TACACTCCTC
    AATGCATTCC AGGGATTCTT TATTTTGCTG TTTGGAACCA TTTTAGACGC CAAGGTTCGA
    GAGGCATTAC GAGGAAAACT GCAAATAGAT AAACTCGCTT CCCGAATTAC CCAGAGCACC
    AGTGGAGGAG CATCATCTTC AGCTGGACAA AGGGGACCAC GGAGGAATGT CTACAATGTG
    TCGGATCCCA ACAATACCTC GAGATTTACT TCAGAGGGCG TGAGCGGCTC ATATTCAGCT
    GTAGACACCT AA

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