gpr179 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following gpr179 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the gpr179 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
OXa50432 XM_031894366.1
Latest version!
Xenopus tropicalis G protein-coupled receptor 179 (gpr179), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OXa36525 XM_012952674.2
Latest version!
Xenopus tropicalis G protein-coupled receptor 179 (gpr179), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00

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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 OXa50432
    Clone ID Related Accession (Same CDS sequence) XM_031894366.1
    Accession Version XM_031894366.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4641bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product probable G-protein coupled receptor 179
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030686.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGGCAGTGC TATGGTGGGT GCTTCTCTGG TGCCATCATG CCCAGCAGAT TGTCCATGCC 
    AACGAGAGCT TCCCATGGAC AACAAATGCT AAGGAGTGGA TGCCAGCACC AACACCCACT
    CCACTCTCCA CAACTTCGCC TGGCTTGCCC AGCACCTCCT TTCCTTCCGC TGTCTCCTCA
    TTAGCGGTCT CTGCCCCGGC AGACACTGCT TCATCTTCTC CAGAATCGAC ATCATCTCTT
    CCATTTTCCC CTTCTACCTC CTCCACTTCT TTTTCAGTGA CTACCCTGGC CCCTTCCCCT
    GATGTAGACA AGGCAGATGA GGAAGGCAGC AAAGCAGCTC TAAACTTTTT ACACTCAGGG
    GACCACCTTT TGCTTTCAGA AGCCAATTGT TCAAAAAGTT TTGAGCTCAC TGACCTGCAG
    GGACCACCGC CAGAGACGCT TCTTTCCCAC ATTAGGGGGC CACAAGATTC TCTGCTCCAT
    GCCACCAACT TCCTCAACAT GATTTTCCAG GCCAGTGACA TGCGTGAGTC AAGCATAAAG
    GAGGACATGG AGTGGTACCA CGCTTTGGTG AGGAGCCTGG CAGGGGGACA ACCAAACATT
    CGACGAGCCC TGCTTTCCCT CACTGCACAC CCAATGTCCT CCAAGCCCTT GCTGCTTCTC
    CGGGCCACAA AGAAAGGCCA CGAGATTCTT TTACAAGATC TTTCTTCCGA TTTCTACCAT
    GGAAGGCACA AAGGGAACTG GGGGTCATGG GACAATTTCC ATGCAAGCTC CTCCTTGACT
    AAGGCAATTC TTTTGAATGA CCTCAGAAGC CTTGACACAC CAAAATGGAG CAGAGGGGAC
    AGCTACATTG TAGACCTCAG CCATGTGCGG TGGTCCAAAC CTTTCCTGGA ATGTGAGGGG
    GGACACTTTT TGCAAGGATG GATGATCTCC CTCTCCACAG CGTTCTATGG GCTGAAGCCT
    GATCTAAGTC CGGAGTTTAA GGGAACCTTA CGCGTGGATG TGCAGCTGTT GAACCTGGGA
    ATCGATCAGT GCGCCAAAGG ACCCGGCTGG TTTGCAAACA GCCACAGCTG TGATGAGAAC
    AGTACACAGT GCATATCGGA TGAAAAAGAC GGCTCCATCT TGGGCAGGTA CCGATGCGTG
    TGCCAGCCTG GCTATTACAG GACACGGCAT GAGGGCTCAG AGATTTCTAA CGTGGCTTGT
    CGGCCATGCA GCGAGGGCTG CGCGACTTGT GTGGATGGAA GCCCCTGCCT GGTGGATGAG
    GATTGGGCTC TCCGTGTTAC CGTACTCTCA GTGCAGGCCA CGGGGATGCT GGCGGTGTTC
    CTGAGCATGT TGGTGTCTTA CAGCTTCCGG GACAGCAAAA GAATACGTGC ATCTGGACTC
    ATACTCCTGG AGACTATCCT GTTTGGCTCT TTGCTGCTCT ACTTTCCAGT GTTCATCCTA
    TACTTTAAGC CCAGTGTTTT CCGATGCGTG GCTCTACGCT GGGTCCGTCT GCTGGGATTC
    TGCATTGTCT ATGGAACCAT TGTCTTAAAA CTGTATAGGG TAATGAAAGT GTTCCTCTCG
    CGCACGGCTC AGCGGGTCCC CTACCTGACG AGCATGCGTT TGCTGCGCAT GTTGTTTGTC
    TTCCTGCTGT TCTGCATTTG GTTCCTGGTG GGGTGGACTG TGGGCGCACT AGAGAACCTG
    CAGCGAGGAG TTCCGGTGGT TATCCGCACG CAAACCCGAG AGGGCCTTGT CTTTTACACT
    TGTGACCATG ACCGGTGGGA TTACATGATG TCTATAGCTG AGGTGCTCTT TCTTTGCTGG
    GGAAGCTTCC TGTGCTATGG AGCCCGATCA ATTCCTTCTG CATTTCATGA ACCGCGTTAT
    ATGGGAATTG CAATACACAA CGAGATGATT GTCTCAGCCG CATTCCATGT GCTCAGATTT
    CTTATTGTCC CATCACTTCA TCCTGATTGG ACGTTACTTC TGTTCTTTAT TCATACCCAT
    GGGACAGTCA CCATGACACT CACGCTGTTG TTCATACCGA AGTTTCTACA TGCAGGGGTC
    CCACCACGTG AAGAGATAGC CACTGAAGTC TATGAGGATG AGCTGGACAT GAGACGCTCT
    CGATCGAACC TTAATAGCAG TATCACATCA GCATGGAGCG AGCACAGCCT GGACCCCGAT
    GACATCCGGG ATGAGCTGAA AAAGCTTTAC GCGCAACTAG AAGTACACAA AACCAAAAAG
    ATGACCATAA ACAACCCTCA CCTCCAGAAA AAACGCAGCT CCCGCAGAGG GCTTGGCCGC
    TCAATTATGA GACGCATTAC TGAAACCCCA GATTCGGCAA ACCGACAGAG CACACGAGAA
    GACAAAGAGG GTTCCCCTGG CTCCAGTGGG GGGCAGCGGC GGAAGCAGCA GGATAGCGGT
    AGTGTTAAGC AGAGGGAAGA GTCACTACGA CAGAGGGTAC TTTCTTTACG TAAGTCGCAC
    AGCACGTACG ACCATATGCA GGAGTGTAAG GACGCTGGAC CGCCCTCGCC ACGAGAGAGT
    TCCACCCGGG ATCCCTCACT ACGGGATTCT GTTATGAGAA GGAATCTTGC CAGGAATGTC
    TCCATGCGCT CCCGTGGTGA CTCTCTATGC CATGCCCCTC TGGTCTGTAA GTCTCTTAGT
    GCCCACAACT TACTGGCTGA TAAAAAGCCA CTCAGTGTCC GTCCTGGTCC CCTTCAAAAG
    TCCCACAGTG TGATGGGCAG CGGCAAGGGT CCACTTGTTG GAGCCGCTGA TATTATGGCA
    GAACGGACCA TGGAAGGAAG CAGGAACCCC CTTCTAGGCG GCAGCTTTGA CAAAGCAGAG
    GTTTGCCCAT GGGAAGTGCA AGAACTCCCT CCACCATCTG AGAGTCGCTC TCAGAAACAT
    GTAACCTATG CCCCTGGTAA ATGCAGCAGC TTAGACAGTT CACTTAGTTC AGAAAAGACA
    AACATTTCAA GAAAAAGGGG TGATATAGGG AGTAAGCACC ACAGCGTGGG GGGCGGTGAG
    GAAATCAAGA GCCCAAGCCA CGTTGGAAAC AAATATGGGC AATCACAAGG TGCCACCACT
    AAACAAGACA CAGATCCTTC CTCCGTTACA GTAAAACCTG GAACAGGTTC AATCGATTCA
    GAAGGGCTGA AAACAAAGGC ATCGAGCCTG AAAAGCAAAG ATACAGCAGA GAAGAATGCA
    GATACCTTAA AGCCGCTCCA TAAGAGCACC CTGAAAAGCC TAGTTCTGGC AGTCAGAGCA
    TTTAAAGGCA AAGAGCTGAA GGACAAGGGC AAACAGCAAG CCAGTGGAGA AGGTAGCCCC
    TTAAAGAATA AAATGGAAGA AATCTGCCCA TGGGAGACAC AATCAAATAA TGCTAATATT
    AAGAATCAAA AACCTGATGT CCTGAATTTG TCAGAGAAAG GATCATTGTG CCCCTCTCCC
    AAGCAGGATG TACCCAAATC CAACAAAAGT AAAGAGGAGA CAACCTCTCC AAATCCAACA
    ACCAAGGAGG CTACGCCTAT CAGAAAGCTG GAAAGGATGA GCCAGTTGAG AGACGCAGTC
    TGTCCATGGG AAAGCATGGA GGGGCCACAG AATGTTACAC ATAAATCTAA CAGTGTAGAA
    AGTAGAAGAA GTGAGATATG TCCATGGGAG AGTACAGACA GCGAGGGTCC TGGAGGCCTT
    CTCAGTCAGT CAGGGAGCAA CCTATCCTTT CCCAGCCCAA GTACCAAAGT AGTAAAGGGC
    CAGAATGGAG GTGAATGGGA GGGGGAGCAG AGGAGTCAGA AAGCTGACAT ATGTCCATGG
    GAAGCGGGAC AGGAAAAAGA TCCAAAAACA GAGGCATGGA GAGCAAAAAA AGCAGTAAGC
    TTAAAAGAAC AAGTTTGTCC CTGGGAAGAC ACGAAAGAGG AAAAGCCGAG ATCAGAGATT
    TGCCCATGGG AGACTAGTGA TGTAGAAAGT GTGCCTTTGG GAGGCATCAG TGGGCGCAGC
    CTGGCAATAA AATTAGAGGA GCTAGGTAGG CAGAGGGATG CAGTCTGCCC ATGGGAAAGT
    GAAGAGTCAG GGGGCTCTCC TGGACCACTC AGTCAGTCAC ACAGCAAAAC ATTTGATGCA
    AGCCTAATCA AGTCTAAGAC TTCAGACAGC ATTGACTTGG AGGCACGTAG GGGGGAAATA
    TGTCCCTGGG AGAGTCTAGA TTCAGAAGGG ACACCTGCAG TTATGAGCCA GTCCCAAAGC
    CACACCTGGG AGCCAGCAAG CAAAGAGCTA GGAGAACCCT GTCCTAAGAT GTCCCCTCAG
    CCCAATAAGG CTTGCCAGGG CAGAATGTCA CAGAGTAAGC AGAATTCTCT TTGCAGCTTG
    TCGAGTGAGG ATACACAGCC ATTATCAAAA ATCTTAAGCA AAAGCGAAGG TCGGATTGGT
    GATCTGTATT TTCCAGCAAC ACCCACGCCA CACACCAAGC GCTGGCAACA CTCTCTGCGG
    GAACAGCGTT CTGGTTGTAC CGGAGAGCTG AGATTTTCCG TCTCACAGCA ACAAGGGCAC
    ATTGAGCAAA GTACAGCCGC AGGAGGGGGC GAAGATACCG GCAACCTGGC AGATATATGC
    CCTTGGGAAG TTCAAGAGAA GCCCACTGAG AGCCAGGCCA ACACTAGGAA ATCAGAGGTC
    TGTCCCTGGG ACTTCCAGTA A

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

    RefSeq XP_031750226.1
    CDS1131..5771
    Translation

    Target ORF information:

    RefSeq Version XM_031894366.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis G protein-coupled receptor 179 (gpr179), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031894366.1

    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
    ATGGCAGTGC TATGGTGGGT GCTTCTCTGG TGCCATCATG CCCAGCAGAT TGTCCATGCC 
    AACGAGAGCT TCCCATGGAC AACAAATGCT AAGGAGTGGA TGCCAGCACC AACACCCACT
    CCACTCTCCA CAACTTCGCC TGGCTTGCCC AGCACCTCCT TTCCTTCCGC TGTCTCCTCA
    TTAGCGGTCT CTGCCCCGGC AGACACTGCT TCATCTTCTC CAGAATCGAC ATCATCTCTT
    CCATTTTCCC CTTCTACCTC CTCCACTTCT TTTTCAGTGA CTACCCTGGC CCCTTCCCCT
    GATGTAGACA AGGCAGATGA GGAAGGCAGC AAAGCAGCTC TAAACTTTTT ACACTCAGGG
    GACCACCTTT TGCTTTCAGA AGCCAATTGT TCAAAAAGTT TTGAGCTCAC TGACCTGCAG
    GGACCACCGC CAGAGACGCT TCTTTCCCAC ATTAGGGGGC CACAAGATTC TCTGCTCCAT
    GCCACCAACT TCCTCAACAT GATTTTCCAG GCCAGTGACA TGCGTGAGTC AAGCATAAAG
    GAGGACATGG AGTGGTACCA CGCTTTGGTG AGGAGCCTGG CAGGGGGACA ACCAAACATT
    CGACGAGCCC TGCTTTCCCT CACTGCACAC CCAATGTCCT CCAAGCCCTT GCTGCTTCTC
    CGGGCCACAA AGAAAGGCCA CGAGATTCTT TTACAAGATC TTTCTTCCGA TTTCTACCAT
    GGAAGGCACA AAGGGAACTG GGGGTCATGG GACAATTTCC ATGCAAGCTC CTCCTTGACT
    AAGGCAATTC TTTTGAATGA CCTCAGAAGC CTTGACACAC CAAAATGGAG CAGAGGGGAC
    AGCTACATTG TAGACCTCAG CCATGTGCGG TGGTCCAAAC CTTTCCTGGA ATGTGAGGGG
    GGACACTTTT TGCAAGGATG GATGATCTCC CTCTCCACAG CGTTCTATGG GCTGAAGCCT
    GATCTAAGTC CGGAGTTTAA GGGAACCTTA CGCGTGGATG TGCAGCTGTT GAACCTGGGA
    ATCGATCAGT GCGCCAAAGG ACCCGGCTGG TTTGCAAACA GCCACAGCTG TGATGAGAAC
    AGTACACAGT GCATATCGGA TGAAAAAGAC GGCTCCATCT TGGGCAGGTA CCGATGCGTG
    TGCCAGCCTG GCTATTACAG GACACGGCAT GAGGGCTCAG AGATTTCTAA CGTGGCTTGT
    CGGCCATGCA GCGAGGGCTG CGCGACTTGT GTGGATGGAA GCCCCTGCCT GGTGGATGAG
    GATTGGGCTC TCCGTGTTAC CGTACTCTCA GTGCAGGCCA CGGGGATGCT GGCGGTGTTC
    CTGAGCATGT TGGTGTCTTA CAGCTTCCGG GACAGCAAAA GAATACGTGC ATCTGGACTC
    ATACTCCTGG AGACTATCCT GTTTGGCTCT TTGCTGCTCT ACTTTCCAGT GTTCATCCTA
    TACTTTAAGC CCAGTGTTTT CCGATGCGTG GCTCTACGCT GGGTCCGTCT GCTGGGATTC
    TGCATTGTCT ATGGAACCAT TGTCTTAAAA CTGTATAGGG TAATGAAAGT GTTCCTCTCG
    CGCACGGCTC AGCGGGTCCC CTACCTGACG AGCATGCGTT TGCTGCGCAT GTTGTTTGTC
    TTCCTGCTGT TCTGCATTTG GTTCCTGGTG GGGTGGACTG TGGGCGCACT AGAGAACCTG
    CAGCGAGGAG TTCCGGTGGT TATCCGCACG CAAACCCGAG AGGGCCTTGT CTTTTACACT
    TGTGACCATG ACCGGTGGGA TTACATGATG TCTATAGCTG AGGTGCTCTT TCTTTGCTGG
    GGAAGCTTCC TGTGCTATGG AGCCCGATCA ATTCCTTCTG CATTTCATGA ACCGCGTTAT
    ATGGGAATTG CAATACACAA CGAGATGATT GTCTCAGCCG CATTCCATGT GCTCAGATTT
    CTTATTGTCC CATCACTTCA TCCTGATTGG ACGTTACTTC TGTTCTTTAT TCATACCCAT
    GGGACAGTCA CCATGACACT CACGCTGTTG TTCATACCGA AGTTTCTACA TGCAGGGGTC
    CCACCACGTG AAGAGATAGC CACTGAAGTC TATGAGGATG AGCTGGACAT GAGACGCTCT
    CGATCGAACC TTAATAGCAG TATCACATCA GCATGGAGCG AGCACAGCCT GGACCCCGAT
    GACATCCGGG ATGAGCTGAA AAAGCTTTAC GCGCAACTAG AAGTACACAA AACCAAAAAG
    ATGACCATAA ACAACCCTCA CCTCCAGAAA AAACGCAGCT CCCGCAGAGG GCTTGGCCGC
    TCAATTATGA GACGCATTAC TGAAACCCCA GATTCGGCAA ACCGACAGAG CACACGAGAA
    GACAAAGAGG GTTCCCCTGG CTCCAGTGGG GGGCAGCGGC GGAAGCAGCA GGATAGCGGT
    AGTGTTAAGC AGAGGGAAGA GTCACTACGA CAGAGGGTAC TTTCTTTACG TAAGTCGCAC
    AGCACGTACG ACCATATGCA GGAGTGTAAG GACGCTGGAC CGCCCTCGCC ACGAGAGAGT
    TCCACCCGGG ATCCCTCACT ACGGGATTCT GTTATGAGAA GGAATCTTGC CAGGAATGTC
    TCCATGCGCT CCCGTGGTGA CTCTCTATGC CATGCCCCTC TGGTCTGTAA GTCTCTTAGT
    GCCCACAACT TACTGGCTGA TAAAAAGCCA CTCAGTGTCC GTCCTGGTCC CCTTCAAAAG
    TCCCACAGTG TGATGGGCAG CGGCAAGGGT CCACTTGTTG GAGCCGCTGA TATTATGGCA
    GAACGGACCA TGGAAGGAAG CAGGAACCCC CTTCTAGGCG GCAGCTTTGA CAAAGCAGAG
    GTTTGCCCAT GGGAAGTGCA AGAACTCCCT CCACCATCTG AGAGTCGCTC TCAGAAACAT
    GTAACCTATG CCCCTGGTAA ATGCAGCAGC TTAGACAGTT CACTTAGTTC AGAAAAGACA
    AACATTTCAA GAAAAAGGGG TGATATAGGG AGTAAGCACC ACAGCGTGGG GGGCGGTGAG
    GAAATCAAGA GCCCAAGCCA CGTTGGAAAC AAATATGGGC AATCACAAGG TGCCACCACT
    AAACAAGACA CAGATCCTTC CTCCGTTACA GTAAAACCTG GAACAGGTTC AATCGATTCA
    GAAGGGCTGA AAACAAAGGC ATCGAGCCTG AAAAGCAAAG ATACAGCAGA GAAGAATGCA
    GATACCTTAA AGCCGCTCCA TAAGAGCACC CTGAAAAGCC TAGTTCTGGC AGTCAGAGCA
    TTTAAAGGCA AAGAGCTGAA GGACAAGGGC AAACAGCAAG CCAGTGGAGA AGGTAGCCCC
    TTAAAGAATA AAATGGAAGA AATCTGCCCA TGGGAGACAC AATCAAATAA TGCTAATATT
    AAGAATCAAA AACCTGATGT CCTGAATTTG TCAGAGAAAG GATCATTGTG CCCCTCTCCC
    AAGCAGGATG TACCCAAATC CAACAAAAGT AAAGAGGAGA CAACCTCTCC AAATCCAACA
    ACCAAGGAGG CTACGCCTAT CAGAAAGCTG GAAAGGATGA GCCAGTTGAG AGACGCAGTC
    TGTCCATGGG AAAGCATGGA GGGGCCACAG AATGTTACAC ATAAATCTAA CAGTGTAGAA
    AGTAGAAGAA GTGAGATATG TCCATGGGAG AGTACAGACA GCGAGGGTCC TGGAGGCCTT
    CTCAGTCAGT CAGGGAGCAA CCTATCCTTT CCCAGCCCAA GTACCAAAGT AGTAAAGGGC
    CAGAATGGAG GTGAATGGGA GGGGGAGCAG AGGAGTCAGA AAGCTGACAT ATGTCCATGG
    GAAGCGGGAC AGGAAAAAGA TCCAAAAACA GAGGCATGGA GAGCAAAAAA AGCAGTAAGC
    TTAAAAGAAC AAGTTTGTCC CTGGGAAGAC ACGAAAGAGG AAAAGCCGAG ATCAGAGATT
    TGCCCATGGG AGACTAGTGA TGTAGAAAGT GTGCCTTTGG GAGGCATCAG TGGGCGCAGC
    CTGGCAATAA AATTAGAGGA GCTAGGTAGG CAGAGGGATG CAGTCTGCCC ATGGGAAAGT
    GAAGAGTCAG GGGGCTCTCC TGGACCACTC AGTCAGTCAC ACAGCAAAAC ATTTGATGCA
    AGCCTAATCA AGTCTAAGAC TTCAGACAGC ATTGACTTGG AGGCACGTAG GGGGGAAATA
    TGTCCCTGGG AGAGTCTAGA TTCAGAAGGG ACACCTGCAG TTATGAGCCA GTCCCAAAGC
    CACACCTGGG AGCCAGCAAG CAAAGAGCTA GGAGAACCCT GTCCTAAGAT GTCCCCTCAG
    CCCAATAAGG CTTGCCAGGG CAGAATGTCA CAGAGTAAGC AGAATTCTCT TTGCAGCTTG
    TCGAGTGAGG ATACACAGCC ATTATCAAAA ATCTTAAGCA AAAGCGAAGG TCGGATTGGT
    GATCTGTATT TTCCAGCAAC ACCCACGCCA CACACCAAGC GCTGGCAACA CTCTCTGCGG
    GAACAGCGTT CTGGTTGTAC CGGAGAGCTG AGATTTTCCG TCTCACAGCA ACAAGGGCAC
    ATTGAGCAAA GTACAGCCGC AGGAGGGGGC GAAGATACCG GCAACCTGGC AGATATATGC
    CCTTGGGAAG TTCAAGAGAA GCCCACTGAG AGCCAGGCCA ACACTAGGAA ATCAGAGGTC
    TGTCCCTGGG ACTTCCAGTA A

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

    CloneID OXa36525
    Clone ID Related Accession (Same CDS sequence) XM_012952674.2
    Accession Version XM_012952674.2 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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    Product probable G-protein coupled receptor 179
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030686.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012952674.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 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
    ATGGCAGTGC TATGGTGGGT GCTTCTCTGG TGCCATCATG CCCAGCAGAT TGTCCATGCC 
    AACGAGAGCT TCCCATGGAC AACAAATGCT AAGGAGTGGA TGCCAGCACC AACACCCACT
    CCACTCTCCA CAACTTCGCC TGGCTTGCCC AGCACCTCCT TTCCTTCCGC TGTCTCCTCA
    TTAGCGGTCT CTGCCCCGGC AGACACTGCT TCATCTTCTC CAGAATCGAC ATCATCTCTT
    CCATTTTCCC CTTCTACCTC CTCCACTTCT TTTTCAGTGA CTACCCTGGC CCCTTCCCCT
    GATGTAGACA AGGCAGATGA GGAAGGCAGC AAAGCAGCTC TAAACTTTTT ACACTCAGGG
    GACCACCTTT TGCTTTCAGA AGCCAATTGT TCAAAAAGTT TTGAGCTCAC TGACCTGCAG
    GGACCACCGC CAGAGACGCT TCTTTCCCAC ATTAGGGGGC CACAAGATTC TCTGCTCCAT
    GCCACCAACT TCCTCAACAT GATTTTCCAG GCCAGTGACA TGCGTGAGTC AAGCATAAAG
    GAGGACATGG AGTGGTACCA CGCTTTGGTG AGGAGCCTGG CAGGGGGACA ACCAAACATT
    CGACGAGCCC TGCTTTCCCT CACTGCACAC CCAATGTCCT CCAAGCCCTT GCTGCTTCTC
    CGGGCCACAA AGAAAGGCCA CGAGATTCTT TTACAAGATC TTTCTTCCGA TTTCTACCAT
    GGAAGGCACA AAGGGAACTG GGGGTCATGG GACAATTTCC ATGCAAGCTC CTCCTTGACT
    AAGGCAATTC TTTTGAATGA CCTCAGAAGC CTTGACACAC CAAAATGGAG CAGAGGGGAC
    AGCTACATTG TAGACCTCAG CCATGTGCGG TGGTCCAAAC CTTTCCTGGA ATGTGAGGGG
    GGACACTTTT TGCAAGGATG GATGATCTCC CTCTCCACAG CGTTCTATGG GCTGAAGCCT
    GATCTAAGTC CGGAGTTTAA GGGAACCTTA CGCGTGGATG TGCAGCTGTT GAACCTGGGA
    ATCGATCAGT GCGCCAAAGG ACCCGGCTGG TTTGCAAACA GCCACAGCTG TGATGAGAAC
    AGTACACAGG TAAGAAGGAC CCAGCAGGGC GTCTATGCAG TTGATTTGTA CACATACACT
    GTAATGGAGA GTAGGAATAC CTGCCACTGT AGGAATAATT ACACATCCTT TGTTAGTAGA
    ATACGTGCAT CTGGACTCAT ACTCCTGGAG ACTATCCTGT TTGGCTCTTT GCTGCTCTAC
    TTTCCAGTGT TCATCCTATA CTTTAAGCCC AGTGTTTTCC GATGCGTGGC TCTACGCTGG
    GTCCGTCTGC TGGGATTCTG CATTGTCTAT GGAACCATTG TCTTAAAACT GTATAGGGTA
    ATGAAAGTGT TCCTCTCGCG CACGGCTCAG CGGGTCCCCT ACCTGACGAG CATGCGTTTG
    CTGCGCATGT TGTTTGTCTT CCTGCTGTTC TGCATTTGGT TCCTGGTGGG GTGGACTGTG
    GGCGCACTAG AGAACCTGCA GCGAGGAGTT CCGGTGGTTA TCCGCACGCA AACCCGAGAG
    GGCCTTGTCT TTTACACTTG TGACCATGAC CGGTGGGATT ACATGATGTC TATAGCTGAG
    GTGCTCTTTC TTTGCTGGGG AAGCTTCCTG TGCTATGGAG CCCGATCAAT TCCTTCTGCA
    TTTCATGAAC CGCGTTATAT GGGAATTGCA ATACACAACG AGATGATTGT CTCAGCCGCA
    TTCCATGTGC TCAGATTTCT TATTGTCCCA TCACTTCATC CTGATTGGAC GTTACTTCTG
    TTCTTTATTC ATACCCATGG GACAGTCACC ATGACACTCA CGCTGTTGTT CATACCGAAG
    TTTCTACATG CAGGGGTCCC ACCACGTGAA GAGATAGCCA CTGAAGTCTA TGAGGATGAG
    CTGGACATGA GACGCTCTCG ATCGAACCTT AATAGCAGTA TCACATCAGC ATGGAGCGAG
    CACAGCCTGG ACCCCGATGA CATCCGGGAT GAGCTGAAAA AGCTTTACGC GCAACTAGAA
    GTACACAAAA CCAAAAAGAT GACCATAAAC AACCCTCACC TCCAGAAAAA ACGCAGCTCC
    CGCAGAGGGC TTGGCCGCTC AATTATGAGA CGCATTACTG AAACCCCAGA TTCGGCAAAC
    CGACAGAGCA CACGAGAGGA CAAAGAGGGT TCCCCTGGCT CCAGTGGGGG GCAGCGGCGG
    AAGCAGCAGG ATAGCGGTAG TGTTAAGCAG AGGGAAGAGT CACTACGACA GAGGGTACTT
    TCTTTACGTA AGTCGCACAG CACGTACGAC CATATGCAGG AGTGTAAGGA CGCTGGACCG
    CCCTCGCCAC GAGAGAGTTC CACCCGGGAT CCCTCACTAC GGGATTCTGT TATGAGAAGG
    AATCTTGCCA GGAATGTCTC CATGCGCTCC CGTGGTGACT CTCTATGCCA TGCCCCGCTG
    GTCTGTAAGT CTCTTAGTGC CCACAACTTA CTGGCTGATA AAAAGCCACT CAGTGTCCGT
    CCTGGTCCCC TTCAAAAGTC CCACAGTGTG ATGGGCAGCG GCAAGGGTCC ACTTGTTGGA
    GCCGCTGATA TTATGGCAGA ACGGACCATG GAAGGAAGCA GGAACCCCCT TCTAGGCGGC
    AGCTTTGACA AAGCAGAGGT TTGCCCATGG GAAGTGCAAG AACTCCCTCC ACCATCTGAG
    AGTCGCTCTC AGAAACATGT AACCTATGCC CCTGGTAAAT GCAGCAGCTT AGACAGTTCA
    CTTAGTTCAG AAAAGACAAA CATTTCAAGA AAAAGGGGTG ATATAGGGAG TAAGCACCAC
    AGCGTGGGGG GCGGTGAGGA AATCAAGAGC CCAAGCCACG TTGGAAACAA ATATGGGCAA
    TCACAAGGTG CCACCACTAA ACAAGACACA GATCCTTCCT CCGTTACAGT AAAACCTGGA
    ACAGGTTCAA TCGATTCAGA AGGGCTGAAA ACAAAGGCAT CGAGCCTGAA AAGCAAAGAT
    ACAGCAGAGA AGAATGCAGA TACCTTAAAG CCGCTCCATA AGAGCACCCT GAAAAGCCTA
    GTTCTGGCAG TCAGAGCATT TAAAGGCAAA GAGCTGAAGG ACAAGGGCAA ACAGCAAGCC
    AGTGGAGAAG GTAGCCCCTT AAAGAATAAA ATGGAAGAAA TCTGCCCATG GGAGACACAA
    TCAAATAATG CTAATATTAA GAATCAAAAA CCTGATGTCC TGAATTTGTC AGAGAAAGGA
    TCATTGTGCC CCTCTCCCAA GCAGGATGTA CCCAAATCCA ACAAAAGAAA AGAGGAGACA
    ACCTCTCCAA ATCCAACAAC CAAGGAGGCT ACGCCTATCA GAAAGCTGGA AAGGATGAGC
    CAGTTGAGAG ACGCAGTCTG TCCATGGGAA AGCATGGAGG GGCCACAGAA TGTTACACAT
    AAATCTAACA GTGTAGAAAG TAGAAGAAGT GAGATATGTC CATGGGAGAG TACAGACAGC
    GAGGGTCCTG GAGGCCTTCT CAGTCAGTCA GGGAGCAACC TATCCTTTCC CAGCCCAAGT
    ACCAAAGTAG TAAAGGGCCA GAATGGAGGT GAATGGGAGG GGGAGCAGAG GAGTCAGAAA
    GCTGACATAT GTCCATGGGA AGCGGGACAG GAAAAAGATC CAAAAACAGA GGCATGGAGA
    GCAAAAAAAG CAGTAAGCTT AAAAGAACAA GTTTGTCCCT GGGAAGACAC GAAAGAGGAA
    AAGCCGAGAT CAGAGATTTG CCCATGGGAG ACTAGTGATG TAGAAAGTGT GCCTTTGGGA
    GGCATCAGTG GGCGCAGCCT GGCAATAAAA TTAGAGGAGC TAGGTAGGCA GAGGGATGCA
    GTCTGCCCAT GGGAAAGTGA AGAGTCAGGG GGCTCTCCTG GACCACTCAG TCAGTCACAC
    AGCAAAACAT TTGATGCAAG CCTAATCAAG TCTAAGACTT CAGACAGCAT TGACTTGGAG
    GCACGTAGGG GGGAAATATG TCCCTGGGAG AGTCTAGATT CAGAAGGGAC ACCTGCAGTT
    ATGAGCCAGT CCCAAAGCCA CACCTGGGAG CCAGCAAGCA AAGAGCTAGG AGAACCCTGT
    CCTAAGATGT CCCCTCAGCC CAATAAGGCT TGCCAGGGCA GAATGTCACA GAGTAAGCAG
    AATTCTCTTT GCAGCTTGTC GAGTGAGGAT ACACAGCCAT TATCAAAAAT CTTAAGCAAA
    AGCGAAGGTC GGATTGGTGA TCTGTATTTT CCAGCAACAC CCACGCCACA CACCAAGCGC
    TGGCAACACT CTCTGCGGGA ACAGCGTTCT GGTTGTACCG GAGAGCTGAG ATTTTCCGTC
    TCACAGCAAC AAGGGCACAT TGAGCAAAGT ACAGCCGCAG GAGGGGGCGA AGATACCGGC
    AACCTGGCAG ATATATGCCC TTGGGAAGTT CAAGAGAAGC CCACTGAGAG CCAGGCCAAC
    ACTAGGAAAT CAGAGGTCTG TCCCTGGGAC TTCCAGTAA

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

    RefSeq XP_012808128.1
    CDS1216..5694
    Translation

    Target ORF information:

    RefSeq Version XM_012952674.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis G protein-coupled receptor 179 (gpr179), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012952674.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGCAGTGC TATGGTGGGT GCTTCTCTGG TGCCATCATG CCCAGCAGAT TGTCCATGCC 
    AACGAGAGCT TCCCATGGAC AACAAATGCT AAGGAGTGGA TGCCAGCACC AACACCCACT
    CCACTCTCCA CAACTTCGCC TGGCTTGCCC AGCACCTCCT TTCCTTCCGC TGTCTCCTCA
    TTAGCGGTCT CTGCCCCGGC AGACACTGCT TCATCTTCTC CAGAATCGAC ATCATCTCTT
    CCATTTTCCC CTTCTACCTC CTCCACTTCT TTTTCAGTGA CTACCCTGGC CCCTTCCCCT
    GATGTAGACA AGGCAGATGA GGAAGGCAGC AAAGCAGCTC TAAACTTTTT ACACTCAGGG
    GACCACCTTT TGCTTTCAGA AGCCAATTGT TCAAAAAGTT TTGAGCTCAC TGACCTGCAG
    GGACCACCGC CAGAGACGCT TCTTTCCCAC ATTAGGGGGC CACAAGATTC TCTGCTCCAT
    GCCACCAACT TCCTCAACAT GATTTTCCAG GCCAGTGACA TGCGTGAGTC AAGCATAAAG
    GAGGACATGG AGTGGTACCA CGCTTTGGTG AGGAGCCTGG CAGGGGGACA ACCAAACATT
    CGACGAGCCC TGCTTTCCCT CACTGCACAC CCAATGTCCT CCAAGCCCTT GCTGCTTCTC
    CGGGCCACAA AGAAAGGCCA CGAGATTCTT TTACAAGATC TTTCTTCCGA TTTCTACCAT
    GGAAGGCACA AAGGGAACTG GGGGTCATGG GACAATTTCC ATGCAAGCTC CTCCTTGACT
    AAGGCAATTC TTTTGAATGA CCTCAGAAGC CTTGACACAC CAAAATGGAG CAGAGGGGAC
    AGCTACATTG TAGACCTCAG CCATGTGCGG TGGTCCAAAC CTTTCCTGGA ATGTGAGGGG
    GGACACTTTT TGCAAGGATG GATGATCTCC CTCTCCACAG CGTTCTATGG GCTGAAGCCT
    GATCTAAGTC CGGAGTTTAA GGGAACCTTA CGCGTGGATG TGCAGCTGTT GAACCTGGGA
    ATCGATCAGT GCGCCAAAGG ACCCGGCTGG TTTGCAAACA GCCACAGCTG TGATGAGAAC
    AGTACACAGG TAAGAAGGAC CCAGCAGGGC GTCTATGCAG TTGATTTGTA CACATACACT
    GTAATGGAGA GTAGGAATAC CTGCCACTGT AGGAATAATT ACACATCCTT TGTTAGTAGA
    ATACGTGCAT CTGGACTCAT ACTCCTGGAG ACTATCCTGT TTGGCTCTTT GCTGCTCTAC
    TTTCCAGTGT TCATCCTATA CTTTAAGCCC AGTGTTTTCC GATGCGTGGC TCTACGCTGG
    GTCCGTCTGC TGGGATTCTG CATTGTCTAT GGAACCATTG TCTTAAAACT GTATAGGGTA
    ATGAAAGTGT TCCTCTCGCG CACGGCTCAG CGGGTCCCCT ACCTGACGAG CATGCGTTTG
    CTGCGCATGT TGTTTGTCTT CCTGCTGTTC TGCATTTGGT TCCTGGTGGG GTGGACTGTG
    GGCGCACTAG AGAACCTGCA GCGAGGAGTT CCGGTGGTTA TCCGCACGCA AACCCGAGAG
    GGCCTTGTCT TTTACACTTG TGACCATGAC CGGTGGGATT ACATGATGTC TATAGCTGAG
    GTGCTCTTTC TTTGCTGGGG AAGCTTCCTG TGCTATGGAG CCCGATCAAT TCCTTCTGCA
    TTTCATGAAC CGCGTTATAT GGGAATTGCA ATACACAACG AGATGATTGT CTCAGCCGCA
    TTCCATGTGC TCAGATTTCT TATTGTCCCA TCACTTCATC CTGATTGGAC GTTACTTCTG
    TTCTTTATTC ATACCCATGG GACAGTCACC ATGACACTCA CGCTGTTGTT CATACCGAAG
    TTTCTACATG CAGGGGTCCC ACCACGTGAA GAGATAGCCA CTGAAGTCTA TGAGGATGAG
    CTGGACATGA GACGCTCTCG ATCGAACCTT AATAGCAGTA TCACATCAGC ATGGAGCGAG
    CACAGCCTGG ACCCCGATGA CATCCGGGAT GAGCTGAAAA AGCTTTACGC GCAACTAGAA
    GTACACAAAA CCAAAAAGAT GACCATAAAC AACCCTCACC TCCAGAAAAA ACGCAGCTCC
    CGCAGAGGGC TTGGCCGCTC AATTATGAGA CGCATTACTG AAACCCCAGA TTCGGCAAAC
    CGACAGAGCA CACGAGAGGA CAAAGAGGGT TCCCCTGGCT CCAGTGGGGG GCAGCGGCGG
    AAGCAGCAGG ATAGCGGTAG TGTTAAGCAG AGGGAAGAGT CACTACGACA GAGGGTACTT
    TCTTTACGTA AGTCGCACAG CACGTACGAC CATATGCAGG AGTGTAAGGA CGCTGGACCG
    CCCTCGCCAC GAGAGAGTTC CACCCGGGAT CCCTCACTAC GGGATTCTGT TATGAGAAGG
    AATCTTGCCA GGAATGTCTC CATGCGCTCC CGTGGTGACT CTCTATGCCA TGCCCCGCTG
    GTCTGTAAGT CTCTTAGTGC CCACAACTTA CTGGCTGATA AAAAGCCACT CAGTGTCCGT
    CCTGGTCCCC TTCAAAAGTC CCACAGTGTG ATGGGCAGCG GCAAGGGTCC ACTTGTTGGA
    GCCGCTGATA TTATGGCAGA ACGGACCATG GAAGGAAGCA GGAACCCCCT TCTAGGCGGC
    AGCTTTGACA AAGCAGAGGT TTGCCCATGG GAAGTGCAAG AACTCCCTCC ACCATCTGAG
    AGTCGCTCTC AGAAACATGT AACCTATGCC CCTGGTAAAT GCAGCAGCTT AGACAGTTCA
    CTTAGTTCAG AAAAGACAAA CATTTCAAGA AAAAGGGGTG ATATAGGGAG TAAGCACCAC
    AGCGTGGGGG GCGGTGAGGA AATCAAGAGC CCAAGCCACG TTGGAAACAA ATATGGGCAA
    TCACAAGGTG CCACCACTAA ACAAGACACA GATCCTTCCT CCGTTACAGT AAAACCTGGA
    ACAGGTTCAA TCGATTCAGA AGGGCTGAAA ACAAAGGCAT CGAGCCTGAA AAGCAAAGAT
    ACAGCAGAGA AGAATGCAGA TACCTTAAAG CCGCTCCATA AGAGCACCCT GAAAAGCCTA
    GTTCTGGCAG TCAGAGCATT TAAAGGCAAA GAGCTGAAGG ACAAGGGCAA ACAGCAAGCC
    AGTGGAGAAG GTAGCCCCTT AAAGAATAAA ATGGAAGAAA TCTGCCCATG GGAGACACAA
    TCAAATAATG CTAATATTAA GAATCAAAAA CCTGATGTCC TGAATTTGTC AGAGAAAGGA
    TCATTGTGCC CCTCTCCCAA GCAGGATGTA CCCAAATCCA ACAAAAGAAA AGAGGAGACA
    ACCTCTCCAA ATCCAACAAC CAAGGAGGCT ACGCCTATCA GAAAGCTGGA AAGGATGAGC
    CAGTTGAGAG ACGCAGTCTG TCCATGGGAA AGCATGGAGG GGCCACAGAA TGTTACACAT
    AAATCTAACA GTGTAGAAAG TAGAAGAAGT GAGATATGTC CATGGGAGAG TACAGACAGC
    GAGGGTCCTG GAGGCCTTCT CAGTCAGTCA GGGAGCAACC TATCCTTTCC CAGCCCAAGT
    ACCAAAGTAG TAAAGGGCCA GAATGGAGGT GAATGGGAGG GGGAGCAGAG GAGTCAGAAA
    GCTGACATAT GTCCATGGGA AGCGGGACAG GAAAAAGATC CAAAAACAGA GGCATGGAGA
    GCAAAAAAAG CAGTAAGCTT AAAAGAACAA GTTTGTCCCT GGGAAGACAC GAAAGAGGAA
    AAGCCGAGAT CAGAGATTTG CCCATGGGAG ACTAGTGATG TAGAAAGTGT GCCTTTGGGA
    GGCATCAGTG GGCGCAGCCT GGCAATAAAA TTAGAGGAGC TAGGTAGGCA GAGGGATGCA
    GTCTGCCCAT GGGAAAGTGA AGAGTCAGGG GGCTCTCCTG GACCACTCAG TCAGTCACAC
    AGCAAAACAT TTGATGCAAG CCTAATCAAG TCTAAGACTT CAGACAGCAT TGACTTGGAG
    GCACGTAGGG GGGAAATATG TCCCTGGGAG AGTCTAGATT CAGAAGGGAC ACCTGCAGTT
    ATGAGCCAGT CCCAAAGCCA CACCTGGGAG CCAGCAAGCA AAGAGCTAGG AGAACCCTGT
    CCTAAGATGT CCCCTCAGCC CAATAAGGCT TGCCAGGGCA GAATGTCACA GAGTAAGCAG
    AATTCTCTTT GCAGCTTGTC GAGTGAGGAT ACACAGCCAT TATCAAAAAT CTTAAGCAAA
    AGCGAAGGTC GGATTGGTGA TCTGTATTTT CCAGCAACAC CCACGCCACA CACCAAGCGC
    TGGCAACACT CTCTGCGGGA ACAGCGTTCT GGTTGTACCG GAGAGCTGAG ATTTTCCGTC
    TCACAGCAAC AAGGGCACAT TGAGCAAAGT ACAGCCGCAG GAGGGGGCGA AGATACCGGC
    AACCTGGCAG ATATATGCCC TTGGGAAGTT CAAGAGAAGC CCACTGAGAG CCAGGCCAAC
    ACTAGGAAAT CAGAGGTCTG TCCCTGGGAC TTCCAGTAA

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