ankrd12 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following ankrd12 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ankrd12 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
OXa24860 NM_001130222.1
Latest version!
Xenopus tropicalis ankyrin repeat domain 12 (ankrd12), mRNA. pcDNA3.1-C-(k)DYK or customized vector 7-9 $104.30
$149.00
OXa47254 NM_001130222.2
Latest version!
Xenopus tropicalis ankyrin repeat domain 12 (ankrd12), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OXa59539 XM_031903243.1
Latest version!
Xenopus tropicalis ankyrin repeat domain 12 (ankrd12), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OXa59538 XM_031903242.1
Latest version!
Xenopus tropicalis ankyrin repeat domain 12 (ankrd12), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 29-31 $1091.30
$1559.00

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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 OXa24860
    Clone ID Related Accession (Same CDS sequence) NM_001130222.1
    Accession Version NM_001130222.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 393bp)
    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 2016-10-28
    Organism Xenopus tropicalis(tropical clawed frog)
    Product ankyrin repeat domain-containing protein 12
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from BC167277.1. ##Evidence-Data-START## Transcript exon combination :: BC167277.1, CX437944.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1025684, SAMEA1025686 [ECO:0000348] ##Evidence-Data-END##

    1
    61
    121
    181
    241
    301
    361
    ATGCCCAAAA CATTATCCTC AAAAGCAACA CCAAGTGAGA ATTCGGACAG CGACTGCAAC 
    ACCATGGTTG AAAAACCAAC AGGACGAAAG AATAAAGAGA AAATATCAGC CTTCAGTAGA
    ACACCTAAAC TGGATAGGAG TGAAATTAGC AACGAAATGA AGGAAAAATC TTCCATGAAA
    CGCAAGCTTC CTTTTACTCT CAGCCCAACC AGAACTGAAG AAAGGGATTC TGACACTGAG
    AAAGAAGGAC CAGAGAAGAA GAAGATAAAG AGAGAATCGG GAAGCAAGAA ATCAACTCCA
    GTTAACATCC TTTTTGGTTA CCCTTTATCT GAACGCAAGC AGATGGCACT TCTAATGCAA
    ATGACAGCCA GAGACAATAG CCCAGGTACT TAA

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

    RefSeq NP_001123694.1
    CDS254..646
    Translation

    Target ORF information:

    RefSeq Version NM_001130222.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ankyrin repeat domain 12 (ankrd12), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001130222.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    ATGCCCAAAA CATTATCCTC AAAAGCAACA CCAAGTGAGA ATTCGGACAG CGACTGCAAC 
    ACCATGGTTG AAAAACCAAC AGGACGAAAG AATAAAGAGA AAATATCAGC CTTCAGTAGA
    ACACCTAAAC TGGATAGGAG TGAAATTAGC AACGAAATGA AGGAAAAATC TTCCATGAAA
    CGCAAGCTTC CTTTTACTCT CAGCCCAACC AGAACTGAAG AAAGGGATTC TGACACTGAG
    AAAGAAGGAC CAGAGAAGAA GAAGATAAAG AGAGAATCGG GAAGCAAGAA ATCAACTCCA
    GTTAACATCC TTTTTGGTTA CCCTTTATCT GAACGCAAGC AGATGGCACT TCTAATGCAA
    ATGACAGCCA GAGACAATAG CCCAGGTACT TAA

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

    CloneID OXa47254
    Clone ID Related Accession (Same CDS sequence) NM_001130222.2
    Accession Version NM_001130222.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5970bp)
    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 2019-10-03
    Organism Xenopus tropicalis(tropical clawed frog)
    Product ankyrin repeat domain-containing protein 12
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AAMC03024255.1. On Oct 4, 2019 this sequence version replaced NM_001130222.1. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA1025684, SAMEA1025686 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## inferred exon combination :: based on alignments, homology ##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
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    ATGCCCAAAA CATTATCCTC AAAAGCAACA CCAAGTGAGA ATTCGGACAG CGACTGCAAC 
    ACCATGGTTG AAAAACCAAC AGGACGAAAG AATAAAGAGA AAATATCAGC CTTCAGTAGA
    ACACCTAAAC TGGATAGGAG TGAAATTAGC AACGAAATGA AGGAAAAATC TTCCATGAAA
    CGCAAGCTTC CTTTTACTCT CAGCCCAACC AGAACTGAAG AAAGGGATTC TGACACTGAG
    AAAGAAGGAC CAGAGAAGAA GAAGATAAAG AGAGAATCGG GAAGCAAGAA ATCAACTCCA
    GTTAACATCC TTTTTGGTTA CCCTTTATCT GAACGCAAGC AGATGGCACT TCTAATGCAA
    ATGACAGCCA GAGACAATAG CCCAGATTCC ACTCCAAATC ATCCTTCCCA GGCAACACCA
    ACTCAAAAGA AAACACCATC ATCCTCTACA CGGCAAAAAG ACAAAGTTAA TAAAAGAAAT
    GAGCGTGGAG AAACACCCTT ACATATGGCA GCCATACGGG GAGATATAAG CCAAGTAAAA
    GAACTGATTC GGATGGGTGC AAACGTCAAT GTTAAAGATT TTGCAGGTTG GACTCCGCTT
    CATGAAGCTT GTAACATGGG TTTTTATGAT GTTGCAAAAG TCTTGATAGC AGCTGGAGCA
    GATGTCAATA CACAAGGACT GGATGATGAT ACACCTCTTC ATGATGCAGC CAGCAGTGGG
    CACAGAGATA TTGTGAAATT ACTGTTACGA CATGGTGGCA ATGCATTCCA GGCCAACAAA
    CATGGAGCAC GTCCTGTAGA CGTAGCTGAA ACAGAAGAAT TAGAACAGCT GTTAAAAAGG
    GAGGTGCCAA TCTCTGATGA CGATGAAAGT TATTCAGATT CAGAAGAGCC ACAGTTCAAT
    AATCTGTCCA GCGTGGATGA AAACTTAGAC TCAGAGGGAG AAAAGGAATC TTTGATTAAT
    GAAAGCAAAC ATGGTGCAAT TAAAGGAACA TCTTGCACTT CTGGACTTGA TGAATATGAA
    TTTAAAGATG ACGAGGATGA TGAAGACGAC CCAGAAATAA GCAAGATGTT TGACGATAAG
    CATCTACTTA GGAATGACAT TAAAAAGGAA AACACAGAAG CTAGGATGAA TGACAGTTTC
    TTTATAAAGC AGGATAAAGT TGATTTTCCA AAAATGTACA AAAACCGGAA ACCAAAGCCT
    TCTCGCCTGC TATTCTCCAG TTCTGATAGC TCGGATGATG ATTTGCTTCC AGATAAAGTC
    AGTTTGATAT CTGAAAGTCT TAATTCTGAC ATCAGATCTA AGAAGGACTA TAGTGTTCTA
    CATGAACAGA AAGAGAAGGG CAAAGTCAGA AGGAAATTGA AGAATCAAAG CAAAAATAAA
    GAAAATCAGC AATTAAAACA AGAAAGAGAC AAGAAAGAAA ATATGAAAGT AGTTAATATG
    GTAGTGTGCC CTAGTTTAGA CTCCTTGGAC AAGTCCAGAG AAGAGGACAT GTTTAGAAAA
    TCCCTTTGTA CAAAGGAAGA ACCATCCTTA CAGTTATTTC AGATCACTCC TGGCAAATCA
    CCCAAACATA CTTATACATT AATTGACAAG CAGTCAACAC CTTTGAAGCA GGAAAACACA
    AAAATGTGTG TTTCGCCCCC TGGAGGATCA GAATCATCAC TGCAGACTGA TCTGTTCCGA
    TATGATCAAA ATACTGATGC TGAATATGCA ATTGAAAGTT CCAGTTCTTC ATTCTCCAAA
    TATAAAGAAA AGAGTAAACA TATAAAGGAG TTTTTTATTG ATTATGCAGA TAAGTCTATA
    TTAAAATGTA AAGAAGAAGG TAAAAGTCCA TCATTTGAAG CATCTGAGTG TGTGCCAAAA
    AAATCTGACA AAGAAGGTAA AGTAGTAAAA AAACACAAAA TTAAACATAA AGAAAAGGAA
    AAAGAGAAGT CAAGAAAAGA TCCAGATGTT GAAAATGACA GAACCAAGCA TAGAGAAAAC
    AATAAAAACA TTCAAAGACA AATAGAATTT GACAGAGAAT TCTGGAAAGA AAACTTTTTT
    AAAACCGATG AAAATGATGA GGAATTTCTA ATCATGGATT CAAAGAACAA CTCATCTGAG
    AAAAAAGTAA AACTGGAAAA ATCACAGACA AAAGAAGACT GTTCAGTCCG AGAGAATCAC
    ATCCCGATAG AGAATGTTAA GGATGAACAA GAGGAGCCAT CAAAATTGGA TCAAGAAAAA
    ATTCAAAAAG AAGAAAAAGG AAAAGATTGT AATAGTGAAA CTGACTGTCT TCATACACCA
    AAAGAAAAAG ACACTAAAAT GTTCCCTTTA ACTGTATTTG TAAAAGAAGA CTCTTTTCCA
    ATTGATAGAG AGATTGACAC AGAGAAACCA TTTAAGGAAG GGAAAGAAAA AAGTGAGAAA
    CGATCAGCAC TGAAGGAGAG GGACTTGGAG AAGAAAAGCA TTGATAAAGA GAAGAAAGCA
    AAATCGGAAC ACAAATCTGA AAGAGAAAAA GTAGAAATGC CAGAAATCAC AGATAAGTCC
    AAATCACATC TGCAGTCACC AGATAAGCTT CAAAAGGAAA GTGATAAAAT TAGAGCATCA
    GTTATCAGCA AAAAAAACGA TGACAAAGAA AAATCAAAAG ACAAAAAAGA AAGGAATGAA
    AAAGACAAGC ATTTGGGAGA GCACAAACTT TGCACAGATA GAAAACCCAA ACATACTGAA
    AAAGATTCAG ACTCAAGTAG AGCAGATAAA GCTAAACGTA GAGAGAAGGA ACTCAGAAAA
    AAATCAAGGG AAGGGGACTA TTCCGCTGGT GCAAGCTCCA AGCATGGTCA AGAAGATCGC
    AAACAAAGTG GCAACACTGA TAGCAGTAAA GTACTTCATG AAAAGCCTGC CGTGGTAAAG
    GAAAAGCTAA AAGAGGAGCA GCAAAAGGTT CCAGAACATA AGGAGAAAGA CAGAAAAGAT
    AAGGAAAAAG ACATTGATCG ATATAAAGAA AGAGACAAGC ATAAAGACAA AACACAGACA
    AATATACCGA AATTAAAACC TAAAGATTCT GAAGCAGAAA AATGCAAATC AAAGTTGCAG
    TCAACGAAAG ACACCAGGCC AAAAGAAAAA AGGCTGGTCA ACGATGATCT TATGCAGACT
    AGTTTTGAAA GGATGCTAAG CCTCAAAGAC CTTGAAATAG AACAGTGGCA CAAAAAACAT
    AAAGAAAAAA TAAAGCAAAA GGAGAAAGAG AGACTAAAGC ACCGAAATAG TGTAGAACTT
    TCAAAAACAA AAGAAAAACC AAAACATTCA CCAACCCCAT CCAAAAATAA AGAGTTAACC
    AGATCAAAAA GTTCTGAACT GTCAGATTTA TACACAAAAG AGAAACCCTT GAAAGAGGCC
    ACAAGTTGCA GATCCAATTC AGTTGATGCA AAGAACTTGA CAGCTTCAGG AAAGACACTT
    TTAATTTTAG AAAATAGTAA TATAACAAGG TCGCCTAGAT CAGAAAGTGA AAAAACAGGC
    CTTTGCTCAC GCTCTGTATC TATGATTTCT GTTGCTAGCT CGGAGGAATC TTGCCATGCA
    ACTGTGACTA CACCAAGGCC TACAACAGAA TATGACTCAG ATTTTGCATT AGAAGGATCT
    GACTCCCAAA TGTCTTTTTC ACAGTCTCCA TTCTTACCTA CTGCCAAGTC ACCAGCCACG
    CATGACAGAG ATTTAGACAG CATTGCAGAG TTGCCTGATC GTGTTAAACC ACCAGTGACA
    AATAGACTTC TACCAGGTTA TCTCAGGTCG GCTTCTGTAG AAGATGTAAA ATTAGTGATC
    AGTGAATGCA GACCAGTTGT AGAAGTTCGG CGGTGCAGTA TGCCAGCTGC CTTGGTTGAT
    CAAACAAAGC CCACACAAAC AGTATTGGAA AGTAGTATAC CAGAAGTGCC ATCCTCTGTA
    AAAATTACAC CAAATAGGTG TGTGTCTCCA AAACCAGAAG TATCGCCTGC ATCGGAGAAG
    GACACTCAGA ATAGCACTTA TCTTCTTGCA AGCAGCAAAA AATCTTTATC ATTTAGCAGG
    CATGCTTTGG ATGCAAATCT CACTAGTCCA TCAACACAGA CATCTGATGG AAGTTGCCTT
    TATAGTGGGA CAGAGTCACC AGTAACTCAT ATCGCCACCC CTGCTGCTTT TGAATGTGAA
    CATACAAAGT TGTCTTGCAG TGGAAATGAT TCTCCGGTGC TTTCAGAAAA CCAGACATGT
    CAAGAAATGT TAAGTTCCAG ACAAGAAAAC ACACGTCCTG TCATTCAGGA ATGCCCTGTT
    TTACCTCCAC AACCACAAAG TAATTTGGTT GTAAATACCG CAGTTTCAGA CCCACTCTAC
    TTCTCAAAGA CCAACCCACC AATCAGTTCT AAACAAGTAC ATGCCATTGT CAATGAAGAG
    CAAACTCATT GTGCCAACTC TAGCTCTGTC AAGATAGAGG ACTCTGAATC TGAAGTTAAA
    CTCATTCAAA CAGAAGACAC GTCTTTGTGT TCTGCAGAAT CCAGTGTCAA TTCCCAAACA
    ATTGAAAGCA TAAAAATTGT ACTGACAGAT GTTACTGTAG AAGACTTACC AAGTGAGGGT
    GATGAGGCTA TGCAGGTTAG CACAGAGGTA AATACAGACA TTTCTTTATG TAACCCAGAG
    GGAATTGAAC TGGAGAACAT AGCTGACAGT GATTCCGCAC CAAAACAAGA CAAATCCATT
    ACAGAAAATA CAGCTTCGTC TGCACTAATT AACGTTAAAT GTGACACTGA TATAGTTCAA
    GGTTGTGAAA CTACAGAAAT AACTAAAGAT AACCCTGACC AACAAGTCAT TCCTCAGTCA
    AGTTCTGCAC ATACGACTGA ATCTCCTAAA ACGGAGCAAC CGCAGTATCC CTTATCTGCT
    TTCGAAAGCC CACTCCCTCA GCTAGATCAA GATATGCAAA GTTTTAGCCA GCCTGCCAAG
    ATGGAGGCAG AGGAGAATAC AGAGGAAAAG GCAGAGCACC AAGAAATTCC ACAAAGAATT
    ACTAGAAACA GAGCCAATAT GTTGGCTAAC CAGAATAAGC AGGTCCAAAC AAATTATTCT
    CATTCCTCTG ATAAGGAAAC TGTTGAGTCT CCTGTGTCTT TGAGAGGAAG GATACGACTA
    ACAGAAGAAG ATGATGTGCA AGTGCATCAC CCGCGCAAGA GAAAGATGGC TCGTGTTCCT
    CAGCCGGGGC TTGCTAATTC CTCTGTAATG CAAGCAAAGG AAAAAACCCA GCAATCTCTA
    GCAGCAGTAG TTGACTCACT GAAACTGGAT GACATCCAAC CATACCAATC AGAGAGGGCA
    AATCCATACT TTGAGTATCT ACATATAAGA AGGAAAGTAG AGGAAAGACG TAAAATGCTG
    TGTAGTGTTA TACCGCAAGC ACCACAGTAC TATGATGAAT ATGTGACATT CAATGGATCA
    TACCTTTTGG ATGGAAATCC TTTCAGCAAA CTCTGTATTC CAACTATTAC ACCTCCTCCA
    TCTCTCTCAG AACCACTGAA AGAGCTCTTT CGACAGCAAG AGGTTGTAAG AATGAAACTT
    CGGCTACAGC ACAGCATTGA AAGGGAGAAG CTCATTGTGT CTAATGAGCA GGAAGTTTTA
    CGTGTCCATT ACAGAGCAGC AAGAACCCTG GCCAACCAGT CTCTTCCATT CAGTGCATGC
    ACAGTGTTGC TGGATGCAGA GGTGTATAAT GTTCCACAAG AGTCTCAGAC AGAAGATGGT
    AAAGCATCTG TACGAGATCG TTTTAATGCA AGGCAGTTCA TGTCTTGGTT GCAAGATGTT
    GATGAAAAAT TTGATAAACT CAAAACATGC CTTCTCATGA GACAACAGCA CGAGGCGGCA
    GCGCTAAACG CAGTTCAGAG ATTGGAGTGG CAGCTCAAAC TCCAGGAACT TGATCCCGCC
    ACATACAAAT CTGTCAGCAT ATACGAAATT CAAGAATTCT CTGTCCCCTT AGTGGAAGTC
    AATGATGATT TTGAACTGAC ACCTATATGA

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

    RefSeq NP_001123694.2
    CDS317..6286
    Translation

    Target ORF information:

    RefSeq Version NM_001130222.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ankyrin repeat domain 12 (ankrd12), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001130222.2

    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
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    ATGCCCAAAA CATTATCCTC AAAAGCAACA CCAAGTGAGA ATTCGGACAG CGACTGCAAC 
    ACCATGGTTG AAAAACCAAC AGGACGAAAG AATAAAGAGA AAATATCAGC CTTCAGTAGA
    ACACCTAAAC TGGATAGGAG TGAAATTAGC AACGAAATGA AGGAAAAATC TTCCATGAAA
    CGCAAGCTTC CTTTTACTCT CAGCCCAACC AGAACTGAAG AAAGGGATTC TGACACTGAG
    AAAGAAGGAC CAGAGAAGAA GAAGATAAAG AGAGAATCGG GAAGCAAGAA ATCAACTCCA
    GTTAACATCC TTTTTGGTTA CCCTTTATCT GAACGCAAGC AGATGGCACT TCTAATGCAA
    ATGACAGCCA GAGACAATAG CCCAGATTCC ACTCCAAATC ATCCTTCCCA GGCAACACCA
    ACTCAAAAGA AAACACCATC ATCCTCTACA CGGCAAAAAG ACAAAGTTAA TAAAAGAAAT
    GAGCGTGGAG AAACACCCTT ACATATGGCA GCCATACGGG GAGATATAAG CCAAGTAAAA
    GAACTGATTC GGATGGGTGC AAACGTCAAT GTTAAAGATT TTGCAGGTTG GACTCCGCTT
    CATGAAGCTT GTAACATGGG TTTTTATGAT GTTGCAAAAG TCTTGATAGC AGCTGGAGCA
    GATGTCAATA CACAAGGACT GGATGATGAT ACACCTCTTC ATGATGCAGC CAGCAGTGGG
    CACAGAGATA TTGTGAAATT ACTGTTACGA CATGGTGGCA ATGCATTCCA GGCCAACAAA
    CATGGAGCAC GTCCTGTAGA CGTAGCTGAA ACAGAAGAAT TAGAACAGCT GTTAAAAAGG
    GAGGTGCCAA TCTCTGATGA CGATGAAAGT TATTCAGATT CAGAAGAGCC ACAGTTCAAT
    AATCTGTCCA GCGTGGATGA AAACTTAGAC TCAGAGGGAG AAAAGGAATC TTTGATTAAT
    GAAAGCAAAC ATGGTGCAAT TAAAGGAACA TCTTGCACTT CTGGACTTGA TGAATATGAA
    TTTAAAGATG ACGAGGATGA TGAAGACGAC CCAGAAATAA GCAAGATGTT TGACGATAAG
    CATCTACTTA GGAATGACAT TAAAAAGGAA AACACAGAAG CTAGGATGAA TGACAGTTTC
    TTTATAAAGC AGGATAAAGT TGATTTTCCA AAAATGTACA AAAACCGGAA ACCAAAGCCT
    TCTCGCCTGC TATTCTCCAG TTCTGATAGC TCGGATGATG ATTTGCTTCC AGATAAAGTC
    AGTTTGATAT CTGAAAGTCT TAATTCTGAC ATCAGATCTA AGAAGGACTA TAGTGTTCTA
    CATGAACAGA AAGAGAAGGG CAAAGTCAGA AGGAAATTGA AGAATCAAAG CAAAAATAAA
    GAAAATCAGC AATTAAAACA AGAAAGAGAC AAGAAAGAAA ATATGAAAGT AGTTAATATG
    GTAGTGTGCC CTAGTTTAGA CTCCTTGGAC AAGTCCAGAG AAGAGGACAT GTTTAGAAAA
    TCCCTTTGTA CAAAGGAAGA ACCATCCTTA CAGTTATTTC AGATCACTCC TGGCAAATCA
    CCCAAACATA CTTATACATT AATTGACAAG CAGTCAACAC CTTTGAAGCA GGAAAACACA
    AAAATGTGTG TTTCGCCCCC TGGAGGATCA GAATCATCAC TGCAGACTGA TCTGTTCCGA
    TATGATCAAA ATACTGATGC TGAATATGCA ATTGAAAGTT CCAGTTCTTC ATTCTCCAAA
    TATAAAGAAA AGAGTAAACA TATAAAGGAG TTTTTTATTG ATTATGCAGA TAAGTCTATA
    TTAAAATGTA AAGAAGAAGG TAAAAGTCCA TCATTTGAAG CATCTGAGTG TGTGCCAAAA
    AAATCTGACA AAGAAGGTAA AGTAGTAAAA AAACACAAAA TTAAACATAA AGAAAAGGAA
    AAAGAGAAGT CAAGAAAAGA TCCAGATGTT GAAAATGACA GAACCAAGCA TAGAGAAAAC
    AATAAAAACA TTCAAAGACA AATAGAATTT GACAGAGAAT TCTGGAAAGA AAACTTTTTT
    AAAACCGATG AAAATGATGA GGAATTTCTA ATCATGGATT CAAAGAACAA CTCATCTGAG
    AAAAAAGTAA AACTGGAAAA ATCACAGACA AAAGAAGACT GTTCAGTCCG AGAGAATCAC
    ATCCCGATAG AGAATGTTAA GGATGAACAA GAGGAGCCAT CAAAATTGGA TCAAGAAAAA
    ATTCAAAAAG AAGAAAAAGG AAAAGATTGT AATAGTGAAA CTGACTGTCT TCATACACCA
    AAAGAAAAAG ACACTAAAAT GTTCCCTTTA ACTGTATTTG TAAAAGAAGA CTCTTTTCCA
    ATTGATAGAG AGATTGACAC AGAGAAACCA TTTAAGGAAG GGAAAGAAAA AAGTGAGAAA
    CGATCAGCAC TGAAGGAGAG GGACTTGGAG AAGAAAAGCA TTGATAAAGA GAAGAAAGCA
    AAATCGGAAC ACAAATCTGA AAGAGAAAAA GTAGAAATGC CAGAAATCAC AGATAAGTCC
    AAATCACATC TGCAGTCACC AGATAAGCTT CAAAAGGAAA GTGATAAAAT TAGAGCATCA
    GTTATCAGCA AAAAAAACGA TGACAAAGAA AAATCAAAAG ACAAAAAAGA AAGGAATGAA
    AAAGACAAGC ATTTGGGAGA GCACAAACTT TGCACAGATA GAAAACCCAA ACATACTGAA
    AAAGATTCAG ACTCAAGTAG AGCAGATAAA GCTAAACGTA GAGAGAAGGA ACTCAGAAAA
    AAATCAAGGG AAGGGGACTA TTCCGCTGGT GCAAGCTCCA AGCATGGTCA AGAAGATCGC
    AAACAAAGTG GCAACACTGA TAGCAGTAAA GTACTTCATG AAAAGCCTGC CGTGGTAAAG
    GAAAAGCTAA AAGAGGAGCA GCAAAAGGTT CCAGAACATA AGGAGAAAGA CAGAAAAGAT
    AAGGAAAAAG ACATTGATCG ATATAAAGAA AGAGACAAGC ATAAAGACAA AACACAGACA
    AATATACCGA AATTAAAACC TAAAGATTCT GAAGCAGAAA AATGCAAATC AAAGTTGCAG
    TCAACGAAAG ACACCAGGCC AAAAGAAAAA AGGCTGGTCA ACGATGATCT TATGCAGACT
    AGTTTTGAAA GGATGCTAAG CCTCAAAGAC CTTGAAATAG AACAGTGGCA CAAAAAACAT
    AAAGAAAAAA TAAAGCAAAA GGAGAAAGAG AGACTAAAGC ACCGAAATAG TGTAGAACTT
    TCAAAAACAA AAGAAAAACC AAAACATTCA CCAACCCCAT CCAAAAATAA AGAGTTAACC
    AGATCAAAAA GTTCTGAACT GTCAGATTTA TACACAAAAG AGAAACCCTT GAAAGAGGCC
    ACAAGTTGCA GATCCAATTC AGTTGATGCA AAGAACTTGA CAGCTTCAGG AAAGACACTT
    TTAATTTTAG AAAATAGTAA TATAACAAGG TCGCCTAGAT CAGAAAGTGA AAAAACAGGC
    CTTTGCTCAC GCTCTGTATC TATGATTTCT GTTGCTAGCT CGGAGGAATC TTGCCATGCA
    ACTGTGACTA CACCAAGGCC TACAACAGAA TATGACTCAG ATTTTGCATT AGAAGGATCT
    GACTCCCAAA TGTCTTTTTC ACAGTCTCCA TTCTTACCTA CTGCCAAGTC ACCAGCCACG
    CATGACAGAG ATTTAGACAG CATTGCAGAG TTGCCTGATC GTGTTAAACC ACCAGTGACA
    AATAGACTTC TACCAGGTTA TCTCAGGTCG GCTTCTGTAG AAGATGTAAA ATTAGTGATC
    AGTGAATGCA GACCAGTTGT AGAAGTTCGG CGGTGCAGTA TGCCAGCTGC CTTGGTTGAT
    CAAACAAAGC CCACACAAAC AGTATTGGAA AGTAGTATAC CAGAAGTGCC ATCCTCTGTA
    AAAATTACAC CAAATAGGTG TGTGTCTCCA AAACCAGAAG TATCGCCTGC ATCGGAGAAG
    GACACTCAGA ATAGCACTTA TCTTCTTGCA AGCAGCAAAA AATCTTTATC ATTTAGCAGG
    CATGCTTTGG ATGCAAATCT CACTAGTCCA TCAACACAGA CATCTGATGG AAGTTGCCTT
    TATAGTGGGA CAGAGTCACC AGTAACTCAT ATCGCCACCC CTGCTGCTTT TGAATGTGAA
    CATACAAAGT TGTCTTGCAG TGGAAATGAT TCTCCGGTGC TTTCAGAAAA CCAGACATGT
    CAAGAAATGT TAAGTTCCAG ACAAGAAAAC ACACGTCCTG TCATTCAGGA ATGCCCTGTT
    TTACCTCCAC AACCACAAAG TAATTTGGTT GTAAATACCG CAGTTTCAGA CCCACTCTAC
    TTCTCAAAGA CCAACCCACC AATCAGTTCT AAACAAGTAC ATGCCATTGT CAATGAAGAG
    CAAACTCATT GTGCCAACTC TAGCTCTGTC AAGATAGAGG ACTCTGAATC TGAAGTTAAA
    CTCATTCAAA CAGAAGACAC GTCTTTGTGT TCTGCAGAAT CCAGTGTCAA TTCCCAAACA
    ATTGAAAGCA TAAAAATTGT ACTGACAGAT GTTACTGTAG AAGACTTACC AAGTGAGGGT
    GATGAGGCTA TGCAGGTTAG CACAGAGGTA AATACAGACA TTTCTTTATG TAACCCAGAG
    GGAATTGAAC TGGAGAACAT AGCTGACAGT GATTCCGCAC CAAAACAAGA CAAATCCATT
    ACAGAAAATA CAGCTTCGTC TGCACTAATT AACGTTAAAT GTGACACTGA TATAGTTCAA
    GGTTGTGAAA CTACAGAAAT AACTAAAGAT AACCCTGACC AACAAGTCAT TCCTCAGTCA
    AGTTCTGCAC ATACGACTGA ATCTCCTAAA ACGGAGCAAC CGCAGTATCC CTTATCTGCT
    TTCGAAAGCC CACTCCCTCA GCTAGATCAA GATATGCAAA GTTTTAGCCA GCCTGCCAAG
    ATGGAGGCAG AGGAGAATAC AGAGGAAAAG GCAGAGCACC AAGAAATTCC ACAAAGAATT
    ACTAGAAACA GAGCCAATAT GTTGGCTAAC CAGAATAAGC AGGTCCAAAC AAATTATTCT
    CATTCCTCTG ATAAGGAAAC TGTTGAGTCT CCTGTGTCTT TGAGAGGAAG GATACGACTA
    ACAGAAGAAG ATGATGTGCA AGTGCATCAC CCGCGCAAGA GAAAGATGGC TCGTGTTCCT
    CAGCCGGGGC TTGCTAATTC CTCTGTAATG CAAGCAAAGG AAAAAACCCA GCAATCTCTA
    GCAGCAGTAG TTGACTCACT GAAACTGGAT GACATCCAAC CATACCAATC AGAGAGGGCA
    AATCCATACT TTGAGTATCT ACATATAAGA AGGAAAGTAG AGGAAAGACG TAAAATGCTG
    TGTAGTGTTA TACCGCAAGC ACCACAGTAC TATGATGAAT ATGTGACATT CAATGGATCA
    TACCTTTTGG ATGGAAATCC TTTCAGCAAA CTCTGTATTC CAACTATTAC ACCTCCTCCA
    TCTCTCTCAG AACCACTGAA AGAGCTCTTT CGACAGCAAG AGGTTGTAAG AATGAAACTT
    CGGCTACAGC ACAGCATTGA AAGGGAGAAG CTCATTGTGT CTAATGAGCA GGAAGTTTTA
    CGTGTCCATT ACAGAGCAGC AAGAACCCTG GCCAACCAGT CTCTTCCATT CAGTGCATGC
    ACAGTGTTGC TGGATGCAGA GGTGTATAAT GTTCCACAAG AGTCTCAGAC AGAAGATGGT
    AAAGCATCTG TACGAGATCG TTTTAATGCA AGGCAGTTCA TGTCTTGGTT GCAAGATGTT
    GATGAAAAAT TTGATAAACT CAAAACATGC CTTCTCATGA GACAACAGCA CGAGGCGGCA
    GCGCTAAACG CAGTTCAGAG ATTGGAGTGG CAGCTCAAAC TCCAGGAACT TGATCCCGCC
    ACATACAAAT CTGTCAGCAT ATACGAAATT CAAGAATTCT CTGTCCCCTT AGTGGAAGTC
    AATGATGATT TTGAACTGAC ACCTATATGA

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

    CloneID OXa59539
    Clone ID Related Accession (Same CDS sequence) XM_031903243.1
    Accession Version XM_031903243.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5628bp)
    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 ankyrin repeat domain-containing protein 12 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.2) 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
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    ATGGCACTTC TAATGCAAAT GACAGCCAGA GACAATAGCC CAGATTCCAC TCCAAATCAT 
    CCTTCCCAGG CAACACCAAC TCAAAAGAAA ACACCATCAT CCTCTACACG GCAAAAAGAC
    AAAGTTAATA AAAGAAATGA GCGTGGAGAA ACACCCTTAC ATATGGCAGC CATACGGGGA
    GATATAAGCC AAGTAAAAGA ACTGATTCGG ATGGGTGCAA ACGTCAATGT TAAAGATTTT
    GCAGGTTGGA CTCCGCTTCA TGAAGCTTGT AACATGGGTT TTTATGATGT TGCAAAAGTC
    TTGATAGCAG CTGGAGCAGA TGTCAATACA CAAGGACTGG ATGATGATAC ACCTCTTCAT
    GATGCGGCCA GCAGTGGGCA CAGAGATATT GTGAAATTAC TGTTACGACA TGGTGGCAAT
    GCATTCCAGG CCAACAAACA TGGAGCACGT CCTGTAGACG TAGCTGAAAC AGAAGAATTA
    GAACAGCTGT TAAAAAGGGA GGTGCCAATC TCTGATGACG ATGAAAGTTA TTCAGATTCA
    GAAGAGCCAC AGTTCAATAA TCTGTCCAGC GTGGATGAAA ACTTAGACTC AGAGGGAGAA
    AAGGAATCTT TGATTAATGA AAGCAAACAT GGTGCAATTA AAGGAACATC TTGCACTTCT
    GGACTTGATG AATATGAATT TAAAGATGAC GAGGATGATG AAGACGACCC AGAAATAAGC
    AAGATGTTTG ACGATAAGCA TCTACTTAGG AATGACATTA AAAAGGAAAA CACAGAAGCT
    AGGATGAATG ACAGTTTCTT TATAAAGCAG GATAAAGTTG ATTTTCCAAA AATGTACAAA
    AACCGGAAAC CAAAGCCTTC TCGCCTGCTA TTCTCCAGTT CTGATAGCTC GGATGATGAT
    TTGCTTCCAG ATAAAGTCAG TTTGATATCT GAAAGTCTTA ATTCTGACAT CAGATCTAAG
    AAGGACTATA GTGTTCTACA TGAACAGAAA GAGAAGGGCA AAGTCAGAAG GAAATTGAAG
    AATCAAAGCA AAAATAAAGA AAATCAGCAA ATAAAACAAG AAAGAGACAA GAAAGAAAAT
    ATGAAAGTAG TTAATATGGT AGTGTGCCCT AGTTTAGACT CCTTGGACAA GTCCAGAGAA
    GAGGACATGT TTAGAAAATC CCTTTGTACA AAGGAAGAAC CATCCTTACA GTTATTTCAG
    ATCACTCCTG GCAAATCACC CAAACATACT TATACATTAA TTGACAAGCA GTCAACACCT
    TTGAAGCAGG AAAACACAAA AATGTGTGTT TCGCCCCCTG GAGGATCAGA ATCATCACTG
    CAGACTGATC TGTTCCGATA TGATCAAAAT ACTGATGCTG AATATGCAAT TGAAAGTTCC
    AGTTCTTCAT TCTCCAAATA TAAAGAAAAG AGTAAACATA TAAAGGAGTT TTTTATTGAT
    TATGCAGATA AGTCTATATT AAAATGTAAA GAAGAAGGTA AAAGTCCATC ATTTGAAGCA
    TCTGAGTGTG TGCCAAAAAA ATCTGACAAA GAAGGTAAAG TAGTAAAAAA ACACAAAATT
    AAACATAAAG AAAAGGAAAA AGAGAAGTCA AGAAAAGATC CAGATGTTGA AAATGACAGA
    ACCAAGCATA GAGAAAACAA TAAAAACATT CAAAGACAAA TAGAATTTGA CAGAGAATTC
    TGGAAAGAAA ACTTTTTTAA AACCGATGAA AATGATGAGG AATTTCTAAT CATGGATTCA
    AAGAACAACT CATCTGAGAA AAAAGTAAAA CTGGAAAAAT CACAGACAAA AGAAGACTGT
    TCAGTCCGAG AGAATCACAT CCCGATAGAG AATGTTAAGG ATGAACAAGA GGAGCCATCA
    AAATTGGATC AAGAAAAAAT TCAAAAAGAA GAAAAAGGAA AAGATTGTAA TAGTGAAACT
    GACTGTCTTC ATACACCAAA AGAAAAAGAC ACTAAAATGT TCCCTTTAAC TGTATTTGTA
    AAAGAAGACT CTTTTCCAAT TGATAGAGAG ATTGACACAG AGAAACCATT TAAGGAAGGG
    AAAGAAAAAA GTGAGAAACG ATCAGCACTG AAGGAGAGGG ACTTGGAGAA GAAAAGCATT
    GATAAAGAGA AGAAAGCAAA ATCGGAACAC AAATCTGAAA GAGAAAAAGT AGAAATGCCA
    GAAATCACAG ATAAGTCCAA ATCACATCTG CAGTCACCAG ATAAGCTTCA AAAGGAAAGT
    GATAAAATTA GAGCATCAGT TATCAGCAAA AAAAACGATG ACAAAGAAAA ATCAAAAGAC
    AAAAAAGAAA GGAATGAAAA AGACAAGCAT TTGGGAGAGC ACAAACTTTG CACAGATAGA
    AAACCCAAAC ATACTGAAAA AGATTCAGAC TCAAGTAGAG CAGATAAAGC TAAACGTAGA
    GAGAAGGAAC TCAGAAAAAA ATCAAGGGAA GGGGACTATT CCGCTGGTGC AAGCTCCAAG
    CATGGTCAAG AAGATCGCAA ACAAAGTGGC AACACTGATA GCAGTAAAGT ACTTCATGAA
    AAGCCTGCCG TGGTAAAGGA AAAGCTAAAA GAGGAGCAGC AAAAGGTTCC AGAACATAAG
    GAGAAAGACA GAAAAGATAA GGAAAAAGAC ATTGATCGAT ATAAAGAAAG AGACAAGCAT
    AAAGACAAAA CACAGACAAA TATACCGAAA TTAAAACCTA AAGATTCTGA AGCAGAAAAA
    TGCAAATCAA AGTTGCAGTC AACGAAAGAC ACCAGGCCAA AAGAAAAAAG GCTGGTCAAC
    GATGATCTTA TGCAGACTAG TTTTGAAAGG ATGCTAAGCC TCAAAGACCT TGAAATAGAA
    CAGTGGCACA AAAAACATAA AGAAAAAATA AAGCAAAAGG AGAAAGAGAG ACTAAAGCAC
    CGAAATAGTG TAGAACTTTC AAAAACAAAA GAAAAACCAA AACATTCACC AACCCCATCC
    AAAAATAAAG AGTTAACCAG ATCAAAAAGT TCTGAACTGT CAGATTTATA CACAAAAGAG
    AAATCCTTGA AAGAGGCCAC AAGTTGCAGA TCCAATTCAG TTGATGCAAA GAACTTGACA
    GCTTCAGGAA AGACACTTTT AATTTTAGAA AATAGTAATA TAACAAGGTC GCCTAGATCA
    GAAAGTGAAA AAACAGGCCT TTGCTCACGC TCTGTATCTA TGATTTCTGT TGCTAGCTCG
    GAGGAATCTT GCCATGCAAC TGTGACTACA CCAAGGCCTA CAACAGAATA TGACTCAGAT
    TTTGCATTAG AAGGATCTGA CTCCCAAATG TCTTTTTCAC AGTCTCCATT CTTACCTACT
    GCCAAGTCAC CAGCCACGCA TGACAGAGAT TTAGACAGCA TTGCAGAGTT GCCTGATCGT
    GTTAAACCAC CAGTGACAAA TAGACTTCTA CCAGGTTATC TCAGGTCGGC TTCTGTAGAA
    GATGTAAAAT TAGTGATCAG TGAATGCAGA CCAGTTGTAG AAGTTCGGCG GTGCAGTATG
    CCAGCTGCCT TGGTTGATCA AACAAAGCCC ACACAAACAG TATTGGAAAG TAGTATACCA
    GAAGTGCCAT CCTCTGTAAA AATTACACCA AATAGGTGTG TGTCTCCAAA ACCAGAAGTA
    TCGCCTGCAT CGGAGAAGGA CACTCAGAAT AGCACTTATC TTCTTGCAAG CAGCAAAAAA
    TCTTTATCAT TTAGCAGGCA TGCTTTGGAT GCAAATCTCA CTAGTCCATC AACACAGACA
    TCTGATGGAA GTTGCCTTTA TAGTGGGACA GAGTCACCAG TAACTCATAT CGCCACCCCT
    GCTGCTTTTG AATGTGAACA TACAAAGTTG TCTTGCAGTG GAAATGATTC TCCGGTGCTT
    TCAGAAAACC AGACATGTCA AGAAATGTTA AGTTCCAGAC AAGAAAACAC ACGTCCTGTC
    ATTCAGGAAT GCCCTGTTTT ACCTCCACAA CCACAAAGTA ATTTGGTTGT AAATACCGCA
    GTTTCAGACC CACTCTACTT CTCAAAGACC AACCCACCAA TCAGTTCTAA ACAAGTACAT
    GCCATTGTCA ATGAAGAGCA AACTCATTGT GCCAACTCTA GCTCTGTCAA GATAGAGGAC
    TCTGAATCTG AAGTTAAACT CATTCAAACA GAAGACACGT CTTTGTGTTC TGCAGAATCC
    AGTGTCAATT CCCAAACAAT TGAAAGCATA AAAATTGTAC TGACAGATGT TACTGTAGAA
    GACTTACCAA GTGAGGGTGA TGAGGCTATG CAGGTTAGCA CAGAGGTAAA TACAGACATT
    TCTTTATGTA ACCCAGAGGG AATTGAACTG GAGAACATAG CTGACAGTGA TTCCGCACCA
    AAACAAGACA AATCCATTAC AGAAAATACA GCTTCGTCTG CACTAATTAA CGTTAAATGT
    GACACTGATA TAGTTCAAGG TTGTGAAACT ACAGAAATAA CTAAAGATAA CCCTGACCAA
    CAAGTCATTC CTCAGTCAAG TTCTGCACAT ACGACTGAAT CTCCTAAAAC GGAGCAACCG
    CAGTATCCCT TATCTGCTTT CGAAAGCCCA CTCCCTCAGC TAGATCAAGA TATGCAAAGT
    TTTAGCCAGC CTGCCAAGAT GGAGGCAGAG GAGAATACAG AGGAAAAGGC AGAGCACCAA
    GAAATTCCAC AAAGAATTAC TAGAAACAGA GCCAATATGT TGGCTAACCA GAATAAGCAG
    GTCCAAACAA ATTATTCTCA TTCCTCTGAT AAGGAAACTG TTGAGTCTCC TGTGTCTTTG
    AGAGGAAGGA TACGACTAAC AGAAGAAGAT GATGTGCAAG TGCATCACCC GCGCAAGAGA
    AAGATGGCTC GTGTTCCTCA GCCGGGGCTT GCTAATTCCT CTGTAATGCA AGCAAAGGAA
    AAAACCCAGC AATCTCTAGC AGCAGTAGTT GACTCACTGA AACTGGATGA CATCCAACCA
    TACCAATCAG AGAGGGCAAA TCCATACTTT GAGTATCTAC ATATAAGAAG GAAAGTAGAG
    GAAAGACGTA AAATGCTGTG TAGTGTTATA CCGCAAGCAC CACAGTACTA TGATGAATAT
    GTGACATTCA ATGGATCATA CCTTTTGGAT GGAAATCCTT TCAGCAAACT CTGTATTCCA
    ACTATTACAC CTCCTCCATC TCTCTCAGAA CCACTGAAAG AGCTCTTTCG ACAGCAAGAG
    GTTGTAAGAA TGAAACTTCG GCTACAGCAC AGCATTGAAA GGGAGAAGCT CATTGTGTCT
    AATGAGCAGG AAGTTTTACG TGTCCATTAC AGAGCAGCAA GAACCCTGGC CAACCAGTCT
    CTTCCATTCA GTGCATGCAC AGTGTTGCTG GATGCAGAGG TGTATAATGT TCCACAAGAG
    TCTCAGACAG AAGATGGTAA AGCATCTGTA CGAGATCGTT TTAATGCAAG GCAGTTCATG
    TCTTGGTTGC AAGATGTTGA TGAAAAATTT GATAAACTCA AAACATGCCT TCTCATGAGA
    CAACAGCACG AGGCGGCAGC GCTAAACGCA GTTCAGAGAT TGGAGTGGCA GCTCAAACTC
    CAGGAACTTG ATCCCGCCAC ATACAAATCT GTCAGCATAT ACGAAATTCA AGAATTCTCT
    GTCCCCTTAG TGGAAGTCAA TGATGATTTT GAACTGACAC CTATATGA

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

    RefSeq XP_031759103.1
    CDS678..6305
    Translation

    Target ORF information:

    RefSeq Version XM_031903243.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ankyrin repeat domain 12 (ankrd12), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031903243.1

    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
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    ATGGCACTTC TAATGCAAAT GACAGCCAGA GACAATAGCC CAGATTCCAC TCCAAATCAT 
    CCTTCCCAGG CAACACCAAC TCAAAAGAAA ACACCATCAT CCTCTACACG GCAAAAAGAC
    AAAGTTAATA AAAGAAATGA GCGTGGAGAA ACACCCTTAC ATATGGCAGC CATACGGGGA
    GATATAAGCC AAGTAAAAGA ACTGATTCGG ATGGGTGCAA ACGTCAATGT TAAAGATTTT
    GCAGGTTGGA CTCCGCTTCA TGAAGCTTGT AACATGGGTT TTTATGATGT TGCAAAAGTC
    TTGATAGCAG CTGGAGCAGA TGTCAATACA CAAGGACTGG ATGATGATAC ACCTCTTCAT
    GATGCGGCCA GCAGTGGGCA CAGAGATATT GTGAAATTAC TGTTACGACA TGGTGGCAAT
    GCATTCCAGG CCAACAAACA TGGAGCACGT CCTGTAGACG TAGCTGAAAC AGAAGAATTA
    GAACAGCTGT TAAAAAGGGA GGTGCCAATC TCTGATGACG ATGAAAGTTA TTCAGATTCA
    GAAGAGCCAC AGTTCAATAA TCTGTCCAGC GTGGATGAAA ACTTAGACTC AGAGGGAGAA
    AAGGAATCTT TGATTAATGA AAGCAAACAT GGTGCAATTA AAGGAACATC TTGCACTTCT
    GGACTTGATG AATATGAATT TAAAGATGAC GAGGATGATG AAGACGACCC AGAAATAAGC
    AAGATGTTTG ACGATAAGCA TCTACTTAGG AATGACATTA AAAAGGAAAA CACAGAAGCT
    AGGATGAATG ACAGTTTCTT TATAAAGCAG GATAAAGTTG ATTTTCCAAA AATGTACAAA
    AACCGGAAAC CAAAGCCTTC TCGCCTGCTA TTCTCCAGTT CTGATAGCTC GGATGATGAT
    TTGCTTCCAG ATAAAGTCAG TTTGATATCT GAAAGTCTTA ATTCTGACAT CAGATCTAAG
    AAGGACTATA GTGTTCTACA TGAACAGAAA GAGAAGGGCA AAGTCAGAAG GAAATTGAAG
    AATCAAAGCA AAAATAAAGA AAATCAGCAA ATAAAACAAG AAAGAGACAA GAAAGAAAAT
    ATGAAAGTAG TTAATATGGT AGTGTGCCCT AGTTTAGACT CCTTGGACAA GTCCAGAGAA
    GAGGACATGT TTAGAAAATC CCTTTGTACA AAGGAAGAAC CATCCTTACA GTTATTTCAG
    ATCACTCCTG GCAAATCACC CAAACATACT TATACATTAA TTGACAAGCA GTCAACACCT
    TTGAAGCAGG AAAACACAAA AATGTGTGTT TCGCCCCCTG GAGGATCAGA ATCATCACTG
    CAGACTGATC TGTTCCGATA TGATCAAAAT ACTGATGCTG AATATGCAAT TGAAAGTTCC
    AGTTCTTCAT TCTCCAAATA TAAAGAAAAG AGTAAACATA TAAAGGAGTT TTTTATTGAT
    TATGCAGATA AGTCTATATT AAAATGTAAA GAAGAAGGTA AAAGTCCATC ATTTGAAGCA
    TCTGAGTGTG TGCCAAAAAA ATCTGACAAA GAAGGTAAAG TAGTAAAAAA ACACAAAATT
    AAACATAAAG AAAAGGAAAA AGAGAAGTCA AGAAAAGATC CAGATGTTGA AAATGACAGA
    ACCAAGCATA GAGAAAACAA TAAAAACATT CAAAGACAAA TAGAATTTGA CAGAGAATTC
    TGGAAAGAAA ACTTTTTTAA AACCGATGAA AATGATGAGG AATTTCTAAT CATGGATTCA
    AAGAACAACT CATCTGAGAA AAAAGTAAAA CTGGAAAAAT CACAGACAAA AGAAGACTGT
    TCAGTCCGAG AGAATCACAT CCCGATAGAG AATGTTAAGG ATGAACAAGA GGAGCCATCA
    AAATTGGATC AAGAAAAAAT TCAAAAAGAA GAAAAAGGAA AAGATTGTAA TAGTGAAACT
    GACTGTCTTC ATACACCAAA AGAAAAAGAC ACTAAAATGT TCCCTTTAAC TGTATTTGTA
    AAAGAAGACT CTTTTCCAAT TGATAGAGAG ATTGACACAG AGAAACCATT TAAGGAAGGG
    AAAGAAAAAA GTGAGAAACG ATCAGCACTG AAGGAGAGGG ACTTGGAGAA GAAAAGCATT
    GATAAAGAGA AGAAAGCAAA ATCGGAACAC AAATCTGAAA GAGAAAAAGT AGAAATGCCA
    GAAATCACAG ATAAGTCCAA ATCACATCTG CAGTCACCAG ATAAGCTTCA AAAGGAAAGT
    GATAAAATTA GAGCATCAGT TATCAGCAAA AAAAACGATG ACAAAGAAAA ATCAAAAGAC
    AAAAAAGAAA GGAATGAAAA AGACAAGCAT TTGGGAGAGC ACAAACTTTG CACAGATAGA
    AAACCCAAAC ATACTGAAAA AGATTCAGAC TCAAGTAGAG CAGATAAAGC TAAACGTAGA
    GAGAAGGAAC TCAGAAAAAA ATCAAGGGAA GGGGACTATT CCGCTGGTGC AAGCTCCAAG
    CATGGTCAAG AAGATCGCAA ACAAAGTGGC AACACTGATA GCAGTAAAGT ACTTCATGAA
    AAGCCTGCCG TGGTAAAGGA AAAGCTAAAA GAGGAGCAGC AAAAGGTTCC AGAACATAAG
    GAGAAAGACA GAAAAGATAA GGAAAAAGAC ATTGATCGAT ATAAAGAAAG AGACAAGCAT
    AAAGACAAAA CACAGACAAA TATACCGAAA TTAAAACCTA AAGATTCTGA AGCAGAAAAA
    TGCAAATCAA AGTTGCAGTC AACGAAAGAC ACCAGGCCAA AAGAAAAAAG GCTGGTCAAC
    GATGATCTTA TGCAGACTAG TTTTGAAAGG ATGCTAAGCC TCAAAGACCT TGAAATAGAA
    CAGTGGCACA AAAAACATAA AGAAAAAATA AAGCAAAAGG AGAAAGAGAG ACTAAAGCAC
    CGAAATAGTG TAGAACTTTC AAAAACAAAA GAAAAACCAA AACATTCACC AACCCCATCC
    AAAAATAAAG AGTTAACCAG ATCAAAAAGT TCTGAACTGT CAGATTTATA CACAAAAGAG
    AAATCCTTGA AAGAGGCCAC AAGTTGCAGA TCCAATTCAG TTGATGCAAA GAACTTGACA
    GCTTCAGGAA AGACACTTTT AATTTTAGAA AATAGTAATA TAACAAGGTC GCCTAGATCA
    GAAAGTGAAA AAACAGGCCT TTGCTCACGC TCTGTATCTA TGATTTCTGT TGCTAGCTCG
    GAGGAATCTT GCCATGCAAC TGTGACTACA CCAAGGCCTA CAACAGAATA TGACTCAGAT
    TTTGCATTAG AAGGATCTGA CTCCCAAATG TCTTTTTCAC AGTCTCCATT CTTACCTACT
    GCCAAGTCAC CAGCCACGCA TGACAGAGAT TTAGACAGCA TTGCAGAGTT GCCTGATCGT
    GTTAAACCAC CAGTGACAAA TAGACTTCTA CCAGGTTATC TCAGGTCGGC TTCTGTAGAA
    GATGTAAAAT TAGTGATCAG TGAATGCAGA CCAGTTGTAG AAGTTCGGCG GTGCAGTATG
    CCAGCTGCCT TGGTTGATCA AACAAAGCCC ACACAAACAG TATTGGAAAG TAGTATACCA
    GAAGTGCCAT CCTCTGTAAA AATTACACCA AATAGGTGTG TGTCTCCAAA ACCAGAAGTA
    TCGCCTGCAT CGGAGAAGGA CACTCAGAAT AGCACTTATC TTCTTGCAAG CAGCAAAAAA
    TCTTTATCAT TTAGCAGGCA TGCTTTGGAT GCAAATCTCA CTAGTCCATC AACACAGACA
    TCTGATGGAA GTTGCCTTTA TAGTGGGACA GAGTCACCAG TAACTCATAT CGCCACCCCT
    GCTGCTTTTG AATGTGAACA TACAAAGTTG TCTTGCAGTG GAAATGATTC TCCGGTGCTT
    TCAGAAAACC AGACATGTCA AGAAATGTTA AGTTCCAGAC AAGAAAACAC ACGTCCTGTC
    ATTCAGGAAT GCCCTGTTTT ACCTCCACAA CCACAAAGTA ATTTGGTTGT AAATACCGCA
    GTTTCAGACC CACTCTACTT CTCAAAGACC AACCCACCAA TCAGTTCTAA ACAAGTACAT
    GCCATTGTCA ATGAAGAGCA AACTCATTGT GCCAACTCTA GCTCTGTCAA GATAGAGGAC
    TCTGAATCTG AAGTTAAACT CATTCAAACA GAAGACACGT CTTTGTGTTC TGCAGAATCC
    AGTGTCAATT CCCAAACAAT TGAAAGCATA AAAATTGTAC TGACAGATGT TACTGTAGAA
    GACTTACCAA GTGAGGGTGA TGAGGCTATG CAGGTTAGCA CAGAGGTAAA TACAGACATT
    TCTTTATGTA ACCCAGAGGG AATTGAACTG GAGAACATAG CTGACAGTGA TTCCGCACCA
    AAACAAGACA AATCCATTAC AGAAAATACA GCTTCGTCTG CACTAATTAA CGTTAAATGT
    GACACTGATA TAGTTCAAGG TTGTGAAACT ACAGAAATAA CTAAAGATAA CCCTGACCAA
    CAAGTCATTC CTCAGTCAAG TTCTGCACAT ACGACTGAAT CTCCTAAAAC GGAGCAACCG
    CAGTATCCCT TATCTGCTTT CGAAAGCCCA CTCCCTCAGC TAGATCAAGA TATGCAAAGT
    TTTAGCCAGC CTGCCAAGAT GGAGGCAGAG GAGAATACAG AGGAAAAGGC AGAGCACCAA
    GAAATTCCAC AAAGAATTAC TAGAAACAGA GCCAATATGT TGGCTAACCA GAATAAGCAG
    GTCCAAACAA ATTATTCTCA TTCCTCTGAT AAGGAAACTG TTGAGTCTCC TGTGTCTTTG
    AGAGGAAGGA TACGACTAAC AGAAGAAGAT GATGTGCAAG TGCATCACCC GCGCAAGAGA
    AAGATGGCTC GTGTTCCTCA GCCGGGGCTT GCTAATTCCT CTGTAATGCA AGCAAAGGAA
    AAAACCCAGC AATCTCTAGC AGCAGTAGTT GACTCACTGA AACTGGATGA CATCCAACCA
    TACCAATCAG AGAGGGCAAA TCCATACTTT GAGTATCTAC ATATAAGAAG GAAAGTAGAG
    GAAAGACGTA AAATGCTGTG TAGTGTTATA CCGCAAGCAC CACAGTACTA TGATGAATAT
    GTGACATTCA ATGGATCATA CCTTTTGGAT GGAAATCCTT TCAGCAAACT CTGTATTCCA
    ACTATTACAC CTCCTCCATC TCTCTCAGAA CCACTGAAAG AGCTCTTTCG ACAGCAAGAG
    GTTGTAAGAA TGAAACTTCG GCTACAGCAC AGCATTGAAA GGGAGAAGCT CATTGTGTCT
    AATGAGCAGG AAGTTTTACG TGTCCATTAC AGAGCAGCAA GAACCCTGGC CAACCAGTCT
    CTTCCATTCA GTGCATGCAC AGTGTTGCTG GATGCAGAGG TGTATAATGT TCCACAAGAG
    TCTCAGACAG AAGATGGTAA AGCATCTGTA CGAGATCGTT TTAATGCAAG GCAGTTCATG
    TCTTGGTTGC AAGATGTTGA TGAAAAATTT GATAAACTCA AAACATGCCT TCTCATGAGA
    CAACAGCACG AGGCGGCAGC GCTAAACGCA GTTCAGAGAT TGGAGTGGCA GCTCAAACTC
    CAGGAACTTG ATCCCGCCAC ATACAAATCT GTCAGCATAT ACGAAATTCA AGAATTCTCT
    GTCCCCTTAG TGGAAGTCAA TGATGATTTT GAACTGACAC CTATATGA

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

    CloneID OXa59538
    Clone ID Related Accession (Same CDS sequence) XM_031903242.1
    Accession Version XM_031903242.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6036bp)
    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 ankyrin repeat domain-containing protein 12 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030682.2) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: 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
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    ATGCCCAAAA CATTATCCTC AAAAGCAACA CCAAGTGAGA ATTCGGACAG CGACTGCAAC 
    ACCATGGTTG AAAAACCAAC AGGACGAAAG AATAAAGAGA AAATATCAGC CTTCAGTAGA
    ACACCTAAAC TGGATAGGAG TGAAATTAGC AACGAAATGA AGGAAAAATC TTCCATGAAA
    CGCAAGCTTC CTTTTACTCT CAGCCCAACC AGAACTGAAG AAAGGGATTC TGACACTGAT
    TCAGAACCAG AACACACAAG TGAAAACTGG GGAGAACGCT TAACTCCTTT CAGCACATAC
    CCAGAGAAAG AAGGACCAGA GAAGAAGAAG ATAAAGAGAG AATCGGGAAG CAAGAAATCA
    ACTCCAGTTA ACATCCTTTT TGGTTACCCT TTATCTGAAC GCAAGCAGAT GGCACTTCTA
    ATGCAAATGA CAGCCAGAGA CAATAGCCCA GATTCCACTC CAAATCATCC TTCCCAGGCA
    ACACCAACTC AAAAGAAAAC ACCATCATCC TCTACACGGC AAAAAGACAA AGTTAATAAA
    AGAAATGAGC GTGGAGAAAC ACCCTTACAT ATGGCAGCCA TACGGGGAGA TATAAGCCAA
    GTAAAAGAAC TGATTCGGAT GGGTGCAAAC GTCAATGTTA AAGATTTTGC AGGTTGGACT
    CCGCTTCATG AAGCTTGTAA CATGGGTTTT TATGATGTTG CAAAAGTCTT GATAGCAGCT
    GGAGCAGATG TCAATACACA AGGACTGGAT GATGATACAC CTCTTCATGA TGCGGCCAGC
    AGTGGGCACA GAGATATTGT GAAATTACTG TTACGACATG GTGGCAATGC ATTCCAGGCC
    AACAAACATG GAGCACGTCC TGTAGACGTA GCTGAAACAG AAGAATTAGA ACAGCTGTTA
    AAAAGGGAGG TGCCAATCTC TGATGACGAT GAAAGTTATT CAGATTCAGA AGAGCCACAG
    TTCAATAATC TGTCCAGCGT GGATGAAAAC TTAGACTCAG AGGGAGAAAA GGAATCTTTG
    ATTAATGAAA GCAAACATGG TGCAATTAAA GGAACATCTT GCACTTCTGG ACTTGATGAA
    TATGAATTTA AAGATGACGA GGATGATGAA GACGACCCAG AAATAAGCAA GATGTTTGAC
    GATAAGCATC TACTTAGGAA TGACATTAAA AAGGAAAACA CAGAAGCTAG GATGAATGAC
    AGTTTCTTTA TAAAGCAGGA TAAAGTTGAT TTTCCAAAAA TGTACAAAAA CCGGAAACCA
    AAGCCTTCTC GCCTGCTATT CTCCAGTTCT GATAGCTCGG ATGATGATTT GCTTCCAGAT
    AAAGTCAGTT TGATATCTGA AAGTCTTAAT TCTGACATCA GATCTAAGAA GGACTATAGT
    GTTCTACATG AACAGAAAGA GAAGGGCAAA GTCAGAAGGA AATTGAAGAA TCAAAGCAAA
    AATAAAGAAA ATCAGCAAAT AAAACAAGAA AGAGACAAGA AAGAAAATAT GAAAGTAGTT
    AATATGGTAG TGTGCCCTAG TTTAGACTCC TTGGACAAGT CCAGAGAAGA GGACATGTTT
    AGAAAATCCC TTTGTACAAA GGAAGAACCA TCCTTACAGT TATTTCAGAT CACTCCTGGC
    AAATCACCCA AACATACTTA TACATTAATT GACAAGCAGT CAACACCTTT GAAGCAGGAA
    AACACAAAAA TGTGTGTTTC GCCCCCTGGA GGATCAGAAT CATCACTGCA GACTGATCTG
    TTCCGATATG ATCAAAATAC TGATGCTGAA TATGCAATTG AAAGTTCCAG TTCTTCATTC
    TCCAAATATA AAGAAAAGAG TAAACATATA AAGGAGTTTT TTATTGATTA TGCAGATAAG
    TCTATATTAA AATGTAAAGA AGAAGGTAAA AGTCCATCAT TTGAAGCATC TGAGTGTGTG
    CCAAAAAAAT CTGACAAAGA AGGTAAAGTA GTAAAAAAAC ACAAAATTAA ACATAAAGAA
    AAGGAAAAAG AGAAGTCAAG AAAAGATCCA GATGTTGAAA ATGACAGAAC CAAGCATAGA
    GAAAACAATA AAAACATTCA AAGACAAATA GAATTTGACA GAGAATTCTG GAAAGAAAAC
    TTTTTTAAAA CCGATGAAAA TGATGAGGAA TTTCTAATCA TGGATTCAAA GAACAACTCA
    TCTGAGAAAA AAGTAAAACT GGAAAAATCA CAGACAAAAG AAGACTGTTC AGTCCGAGAG
    AATCACATCC CGATAGAGAA TGTTAAGGAT GAACAAGAGG AGCCATCAAA ATTGGATCAA
    GAAAAAATTC AAAAAGAAGA AAAAGGAAAA GATTGTAATA GTGAAACTGA CTGTCTTCAT
    ACACCAAAAG AAAAAGACAC TAAAATGTTC CCTTTAACTG TATTTGTAAA AGAAGACTCT
    TTTCCAATTG ATAGAGAGAT TGACACAGAG AAACCATTTA AGGAAGGGAA AGAAAAAAGT
    GAGAAACGAT CAGCACTGAA GGAGAGGGAC TTGGAGAAGA AAAGCATTGA TAAAGAGAAG
    AAAGCAAAAT CGGAACACAA ATCTGAAAGA GAAAAAGTAG AAATGCCAGA AATCACAGAT
    AAGTCCAAAT CACATCTGCA GTCACCAGAT AAGCTTCAAA AGGAAAGTGA TAAAATTAGA
    GCATCAGTTA TCAGCAAAAA AAACGATGAC AAAGAAAAAT CAAAAGACAA AAAAGAAAGG
    AATGAAAAAG ACAAGCATTT GGGAGAGCAC AAACTTTGCA CAGATAGAAA ACCCAAACAT
    ACTGAAAAAG ATTCAGACTC AAGTAGAGCA GATAAAGCTA AACGTAGAGA GAAGGAACTC
    AGAAAAAAAT CAAGGGAAGG GGACTATTCC GCTGGTGCAA GCTCCAAGCA TGGTCAAGAA
    GATCGCAAAC AAAGTGGCAA CACTGATAGC AGTAAAGTAC TTCATGAAAA GCCTGCCGTG
    GTAAAGGAAA AGCTAAAAGA GGAGCAGCAA AAGGTTCCAG AACATAAGGA GAAAGACAGA
    AAAGATAAGG AAAAAGACAT TGATCGATAT AAAGAAAGAG ACAAGCATAA AGACAAAACA
    CAGACAAATA TACCGAAATT AAAACCTAAA GATTCTGAAG CAGAAAAATG CAAATCAAAG
    TTGCAGTCAA CGAAAGACAC CAGGCCAAAA GAAAAAAGGC TGGTCAACGA TGATCTTATG
    CAGACTAGTT TTGAAAGGAT GCTAAGCCTC AAAGACCTTG AAATAGAACA GTGGCACAAA
    AAACATAAAG AAAAAATAAA GCAAAAGGAG AAAGAGAGAC TAAAGCACCG AAATAGTGTA
    GAACTTTCAA AAACAAAAGA AAAACCAAAA CATTCACCAA CCCCATCCAA AAATAAAGAG
    TTAACCAGAT CAAAAAGTTC TGAACTGTCA GATTTATACA CAAAAGAGAA ATCCTTGAAA
    GAGGCCACAA GTTGCAGATC CAATTCAGTT GATGCAAAGA ACTTGACAGC TTCAGGAAAG
    ACACTTTTAA TTTTAGAAAA TAGTAATATA ACAAGGTCGC CTAGATCAGA AAGTGAAAAA
    ACAGGCCTTT GCTCACGCTC TGTATCTATG ATTTCTGTTG CTAGCTCGGA GGAATCTTGC
    CATGCAACTG TGACTACACC AAGGCCTACA ACAGAATATG ACTCAGATTT TGCATTAGAA
    GGATCTGACT CCCAAATGTC TTTTTCACAG TCTCCATTCT TACCTACTGC CAAGTCACCA
    GCCACGCATG ACAGAGATTT AGACAGCATT GCAGAGTTGC CTGATCGTGT TAAACCACCA
    GTGACAAATA GACTTCTACC AGGTTATCTC AGGTCGGCTT CTGTAGAAGA TGTAAAATTA
    GTGATCAGTG AATGCAGACC AGTTGTAGAA GTTCGGCGGT GCAGTATGCC AGCTGCCTTG
    GTTGATCAAA CAAAGCCCAC ACAAACAGTA TTGGAAAGTA GTATACCAGA AGTGCCATCC
    TCTGTAAAAA TTACACCAAA TAGGTGTGTG TCTCCAAAAC CAGAAGTATC GCCTGCATCG
    GAGAAGGACA CTCAGAATAG CACTTATCTT CTTGCAAGCA GCAAAAAATC TTTATCATTT
    AGCAGGCATG CTTTGGATGC AAATCTCACT AGTCCATCAA CACAGACATC TGATGGAAGT
    TGCCTTTATA GTGGGACAGA GTCACCAGTA ACTCATATCG CCACCCCTGC TGCTTTTGAA
    TGTGAACATA CAAAGTTGTC TTGCAGTGGA AATGATTCTC CGGTGCTTTC AGAAAACCAG
    ACATGTCAAG AAATGTTAAG TTCCAGACAA GAAAACACAC GTCCTGTCAT TCAGGAATGC
    CCTGTTTTAC CTCCACAACC ACAAAGTAAT TTGGTTGTAA ATACCGCAGT TTCAGACCCA
    CTCTACTTCT CAAAGACCAA CCCACCAATC AGTTCTAAAC AAGTACATGC CATTGTCAAT
    GAAGAGCAAA CTCATTGTGC CAACTCTAGC TCTGTCAAGA TAGAGGACTC TGAATCTGAA
    GTTAAACTCA TTCAAACAGA AGACACGTCT TTGTGTTCTG CAGAATCCAG TGTCAATTCC
    CAAACAATTG AAAGCATAAA AATTGTACTG ACAGATGTTA CTGTAGAAGA CTTACCAAGT
    GAGGGTGATG AGGCTATGCA GGTTAGCACA GAGGTAAATA CAGACATTTC TTTATGTAAC
    CCAGAGGGAA TTGAACTGGA GAACATAGCT GACAGTGATT CCGCACCAAA ACAAGACAAA
    TCCATTACAG AAAATACAGC TTCGTCTGCA CTAATTAACG TTAAATGTGA CACTGATATA
    GTTCAAGGTT GTGAAACTAC AGAAATAACT AAAGATAACC CTGACCAACA AGTCATTCCT
    CAGTCAAGTT CTGCACATAC GACTGAATCT CCTAAAACGG AGCAACCGCA GTATCCCTTA
    TCTGCTTTCG AAAGCCCACT CCCTCAGCTA GATCAAGATA TGCAAAGTTT TAGCCAGCCT
    GCCAAGATGG AGGCAGAGGA GAATACAGAG GAAAAGGCAG AGCACCAAGA AATTCCACAA
    AGAATTACTA GAAACAGAGC CAATATGTTG GCTAACCAGA ATAAGCAGGT CCAAACAAAT
    TATTCTCATT CCTCTGATAA GGAAACTGTT GAGTCTCCTG TGTCTTTGAG AGGAAGGATA
    CGACTAACAG AAGAAGATGA TGTGCAAGTG CATCACCCGC GCAAGAGAAA GATGGCTCGT
    GTTCCTCAGC CGGGGCTTGC TAATTCCTCT GTAATGCAAG CAAAGGAAAA AACCCAGCAA
    TCTCTAGCAG CAGTAGTTGA CTCACTGAAA CTGGATGACA TCCAACCATA CCAATCAGAG
    AGGGCAAATC CATACTTTGA GTATCTACAT ATAAGAAGGA AAGTAGAGGA AAGACGTAAA
    ATGCTGTGTA GTGTTATACC GCAAGCACCA CAGTACTATG ATGAATATGT GACATTCAAT
    GGATCATACC TTTTGGATGG AAATCCTTTC AGCAAACTCT GTATTCCAAC TATTACACCT
    CCTCCATCTC TCTCAGAACC ACTGAAAGAG CTCTTTCGAC AGCAAGAGGT TGTAAGAATG
    AAACTTCGGC TACAGCACAG CATTGAAAGG GAGAAGCTCA TTGTGTCTAA TGAGCAGGAA
    GTTTTACGTG TCCATTACAG AGCAGCAAGA ACCCTGGCCA ACCAGTCTCT TCCATTCAGT
    GCATGCACAG TGTTGCTGGA TGCAGAGGTG TATAATGTTC CACAAGAGTC TCAGACAGAA
    GATGGTAAAG CATCTGTACG AGATCGTTTT AATGCAAGGC AGTTCATGTC TTGGTTGCAA
    GATGTTGATG AAAAATTTGA TAAACTCAAA ACATGCCTTC TCATGAGACA ACAGCACGAG
    GCGGCAGCGC TAAACGCAGT TCAGAGATTG GAGTGGCAGC TCAAACTCCA GGAACTTGAT
    CCCGCCACAT ACAAATCTGT CAGCATATAC GAAATTCAAG AATTCTCTGT CCCCTTAGTG
    GAAGTCAATG ATGATTTTGA ACTGACACCT ATATGA

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

    RefSeq XP_031759102.1
    CDS666..6701
    Translation

    Target ORF information:

    RefSeq Version XM_031903242.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ankyrin repeat domain 12 (ankrd12), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031903242.1

    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
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    ATGCCCAAAA CATTATCCTC AAAAGCAACA CCAAGTGAGA ATTCGGACAG CGACTGCAAC 
    ACCATGGTTG AAAAACCAAC AGGACGAAAG AATAAAGAGA AAATATCAGC CTTCAGTAGA
    ACACCTAAAC TGGATAGGAG TGAAATTAGC AACGAAATGA AGGAAAAATC TTCCATGAAA
    CGCAAGCTTC CTTTTACTCT CAGCCCAACC AGAACTGAAG AAAGGGATTC TGACACTGAT
    TCAGAACCAG AACACACAAG TGAAAACTGG GGAGAACGCT TAACTCCTTT CAGCACATAC
    CCAGAGAAAG AAGGACCAGA GAAGAAGAAG ATAAAGAGAG AATCGGGAAG CAAGAAATCA
    ACTCCAGTTA ACATCCTTTT TGGTTACCCT TTATCTGAAC GCAAGCAGAT GGCACTTCTA
    ATGCAAATGA CAGCCAGAGA CAATAGCCCA GATTCCACTC CAAATCATCC TTCCCAGGCA
    ACACCAACTC AAAAGAAAAC ACCATCATCC TCTACACGGC AAAAAGACAA AGTTAATAAA
    AGAAATGAGC GTGGAGAAAC ACCCTTACAT ATGGCAGCCA TACGGGGAGA TATAAGCCAA
    GTAAAAGAAC TGATTCGGAT GGGTGCAAAC GTCAATGTTA AAGATTTTGC AGGTTGGACT
    CCGCTTCATG AAGCTTGTAA CATGGGTTTT TATGATGTTG CAAAAGTCTT GATAGCAGCT
    GGAGCAGATG TCAATACACA AGGACTGGAT GATGATACAC CTCTTCATGA TGCGGCCAGC
    AGTGGGCACA GAGATATTGT GAAATTACTG TTACGACATG GTGGCAATGC ATTCCAGGCC
    AACAAACATG GAGCACGTCC TGTAGACGTA GCTGAAACAG AAGAATTAGA ACAGCTGTTA
    AAAAGGGAGG TGCCAATCTC TGATGACGAT GAAAGTTATT CAGATTCAGA AGAGCCACAG
    TTCAATAATC TGTCCAGCGT GGATGAAAAC TTAGACTCAG AGGGAGAAAA GGAATCTTTG
    ATTAATGAAA GCAAACATGG TGCAATTAAA GGAACATCTT GCACTTCTGG ACTTGATGAA
    TATGAATTTA AAGATGACGA GGATGATGAA GACGACCCAG AAATAAGCAA GATGTTTGAC
    GATAAGCATC TACTTAGGAA TGACATTAAA AAGGAAAACA CAGAAGCTAG GATGAATGAC
    AGTTTCTTTA TAAAGCAGGA TAAAGTTGAT TTTCCAAAAA TGTACAAAAA CCGGAAACCA
    AAGCCTTCTC GCCTGCTATT CTCCAGTTCT GATAGCTCGG ATGATGATTT GCTTCCAGAT
    AAAGTCAGTT TGATATCTGA AAGTCTTAAT TCTGACATCA GATCTAAGAA GGACTATAGT
    GTTCTACATG AACAGAAAGA GAAGGGCAAA GTCAGAAGGA AATTGAAGAA TCAAAGCAAA
    AATAAAGAAA ATCAGCAAAT AAAACAAGAA AGAGACAAGA AAGAAAATAT GAAAGTAGTT
    AATATGGTAG TGTGCCCTAG TTTAGACTCC TTGGACAAGT CCAGAGAAGA GGACATGTTT
    AGAAAATCCC TTTGTACAAA GGAAGAACCA TCCTTACAGT TATTTCAGAT CACTCCTGGC
    AAATCACCCA AACATACTTA TACATTAATT GACAAGCAGT CAACACCTTT GAAGCAGGAA
    AACACAAAAA TGTGTGTTTC GCCCCCTGGA GGATCAGAAT CATCACTGCA GACTGATCTG
    TTCCGATATG ATCAAAATAC TGATGCTGAA TATGCAATTG AAAGTTCCAG TTCTTCATTC
    TCCAAATATA AAGAAAAGAG TAAACATATA AAGGAGTTTT TTATTGATTA TGCAGATAAG
    TCTATATTAA AATGTAAAGA AGAAGGTAAA AGTCCATCAT TTGAAGCATC TGAGTGTGTG
    CCAAAAAAAT CTGACAAAGA AGGTAAAGTA GTAAAAAAAC ACAAAATTAA ACATAAAGAA
    AAGGAAAAAG AGAAGTCAAG AAAAGATCCA GATGTTGAAA ATGACAGAAC CAAGCATAGA
    GAAAACAATA AAAACATTCA AAGACAAATA GAATTTGACA GAGAATTCTG GAAAGAAAAC
    TTTTTTAAAA CCGATGAAAA TGATGAGGAA TTTCTAATCA TGGATTCAAA GAACAACTCA
    TCTGAGAAAA AAGTAAAACT GGAAAAATCA CAGACAAAAG AAGACTGTTC AGTCCGAGAG
    AATCACATCC CGATAGAGAA TGTTAAGGAT GAACAAGAGG AGCCATCAAA ATTGGATCAA
    GAAAAAATTC AAAAAGAAGA AAAAGGAAAA GATTGTAATA GTGAAACTGA CTGTCTTCAT
    ACACCAAAAG AAAAAGACAC TAAAATGTTC CCTTTAACTG TATTTGTAAA AGAAGACTCT
    TTTCCAATTG ATAGAGAGAT TGACACAGAG AAACCATTTA AGGAAGGGAA AGAAAAAAGT
    GAGAAACGAT CAGCACTGAA GGAGAGGGAC TTGGAGAAGA AAAGCATTGA TAAAGAGAAG
    AAAGCAAAAT CGGAACACAA ATCTGAAAGA GAAAAAGTAG AAATGCCAGA AATCACAGAT
    AAGTCCAAAT CACATCTGCA GTCACCAGAT AAGCTTCAAA AGGAAAGTGA TAAAATTAGA
    GCATCAGTTA TCAGCAAAAA AAACGATGAC AAAGAAAAAT CAAAAGACAA AAAAGAAAGG
    AATGAAAAAG ACAAGCATTT GGGAGAGCAC AAACTTTGCA CAGATAGAAA ACCCAAACAT
    ACTGAAAAAG ATTCAGACTC AAGTAGAGCA GATAAAGCTA AACGTAGAGA GAAGGAACTC
    AGAAAAAAAT CAAGGGAAGG GGACTATTCC GCTGGTGCAA GCTCCAAGCA TGGTCAAGAA
    GATCGCAAAC AAAGTGGCAA CACTGATAGC AGTAAAGTAC TTCATGAAAA GCCTGCCGTG
    GTAAAGGAAA AGCTAAAAGA GGAGCAGCAA AAGGTTCCAG AACATAAGGA GAAAGACAGA
    AAAGATAAGG AAAAAGACAT TGATCGATAT AAAGAAAGAG ACAAGCATAA AGACAAAACA
    CAGACAAATA TACCGAAATT AAAACCTAAA GATTCTGAAG CAGAAAAATG CAAATCAAAG
    TTGCAGTCAA CGAAAGACAC CAGGCCAAAA GAAAAAAGGC TGGTCAACGA TGATCTTATG
    CAGACTAGTT TTGAAAGGAT GCTAAGCCTC AAAGACCTTG AAATAGAACA GTGGCACAAA
    AAACATAAAG AAAAAATAAA GCAAAAGGAG AAAGAGAGAC TAAAGCACCG AAATAGTGTA
    GAACTTTCAA AAACAAAAGA AAAACCAAAA CATTCACCAA CCCCATCCAA AAATAAAGAG
    TTAACCAGAT CAAAAAGTTC TGAACTGTCA GATTTATACA CAAAAGAGAA ATCCTTGAAA
    GAGGCCACAA GTTGCAGATC CAATTCAGTT GATGCAAAGA ACTTGACAGC TTCAGGAAAG
    ACACTTTTAA TTTTAGAAAA TAGTAATATA ACAAGGTCGC CTAGATCAGA AAGTGAAAAA
    ACAGGCCTTT GCTCACGCTC TGTATCTATG ATTTCTGTTG CTAGCTCGGA GGAATCTTGC
    CATGCAACTG TGACTACACC AAGGCCTACA ACAGAATATG ACTCAGATTT TGCATTAGAA
    GGATCTGACT CCCAAATGTC TTTTTCACAG TCTCCATTCT TACCTACTGC CAAGTCACCA
    GCCACGCATG ACAGAGATTT AGACAGCATT GCAGAGTTGC CTGATCGTGT TAAACCACCA
    GTGACAAATA GACTTCTACC AGGTTATCTC AGGTCGGCTT CTGTAGAAGA TGTAAAATTA
    GTGATCAGTG AATGCAGACC AGTTGTAGAA GTTCGGCGGT GCAGTATGCC AGCTGCCTTG
    GTTGATCAAA CAAAGCCCAC ACAAACAGTA TTGGAAAGTA GTATACCAGA AGTGCCATCC
    TCTGTAAAAA TTACACCAAA TAGGTGTGTG TCTCCAAAAC CAGAAGTATC GCCTGCATCG
    GAGAAGGACA CTCAGAATAG CACTTATCTT CTTGCAAGCA GCAAAAAATC TTTATCATTT
    AGCAGGCATG CTTTGGATGC AAATCTCACT AGTCCATCAA CACAGACATC TGATGGAAGT
    TGCCTTTATA GTGGGACAGA GTCACCAGTA ACTCATATCG CCACCCCTGC TGCTTTTGAA
    TGTGAACATA CAAAGTTGTC TTGCAGTGGA AATGATTCTC CGGTGCTTTC AGAAAACCAG
    ACATGTCAAG AAATGTTAAG TTCCAGACAA GAAAACACAC GTCCTGTCAT TCAGGAATGC
    CCTGTTTTAC CTCCACAACC ACAAAGTAAT TTGGTTGTAA ATACCGCAGT TTCAGACCCA
    CTCTACTTCT CAAAGACCAA CCCACCAATC AGTTCTAAAC AAGTACATGC CATTGTCAAT
    GAAGAGCAAA CTCATTGTGC CAACTCTAGC TCTGTCAAGA TAGAGGACTC TGAATCTGAA
    GTTAAACTCA TTCAAACAGA AGACACGTCT TTGTGTTCTG CAGAATCCAG TGTCAATTCC
    CAAACAATTG AAAGCATAAA AATTGTACTG ACAGATGTTA CTGTAGAAGA CTTACCAAGT
    GAGGGTGATG AGGCTATGCA GGTTAGCACA GAGGTAAATA CAGACATTTC TTTATGTAAC
    CCAGAGGGAA TTGAACTGGA GAACATAGCT GACAGTGATT CCGCACCAAA ACAAGACAAA
    TCCATTACAG AAAATACAGC TTCGTCTGCA CTAATTAACG TTAAATGTGA CACTGATATA
    GTTCAAGGTT GTGAAACTAC AGAAATAACT AAAGATAACC CTGACCAACA AGTCATTCCT
    CAGTCAAGTT CTGCACATAC GACTGAATCT CCTAAAACGG AGCAACCGCA GTATCCCTTA
    TCTGCTTTCG AAAGCCCACT CCCTCAGCTA GATCAAGATA TGCAAAGTTT TAGCCAGCCT
    GCCAAGATGG AGGCAGAGGA GAATACAGAG GAAAAGGCAG AGCACCAAGA AATTCCACAA
    AGAATTACTA GAAACAGAGC CAATATGTTG GCTAACCAGA ATAAGCAGGT CCAAACAAAT
    TATTCTCATT CCTCTGATAA GGAAACTGTT GAGTCTCCTG TGTCTTTGAG AGGAAGGATA
    CGACTAACAG AAGAAGATGA TGTGCAAGTG CATCACCCGC GCAAGAGAAA GATGGCTCGT
    GTTCCTCAGC CGGGGCTTGC TAATTCCTCT GTAATGCAAG CAAAGGAAAA AACCCAGCAA
    TCTCTAGCAG CAGTAGTTGA CTCACTGAAA CTGGATGACA TCCAACCATA CCAATCAGAG
    AGGGCAAATC CATACTTTGA GTATCTACAT ATAAGAAGGA AAGTAGAGGA AAGACGTAAA
    ATGCTGTGTA GTGTTATACC GCAAGCACCA CAGTACTATG ATGAATATGT GACATTCAAT
    GGATCATACC TTTTGGATGG AAATCCTTTC AGCAAACTCT GTATTCCAAC TATTACACCT
    CCTCCATCTC TCTCAGAACC ACTGAAAGAG CTCTTTCGAC AGCAAGAGGT TGTAAGAATG
    AAACTTCGGC TACAGCACAG CATTGAAAGG GAGAAGCTCA TTGTGTCTAA TGAGCAGGAA
    GTTTTACGTG TCCATTACAG AGCAGCAAGA ACCCTGGCCA ACCAGTCTCT TCCATTCAGT
    GCATGCACAG TGTTGCTGGA TGCAGAGGTG TATAATGTTC CACAAGAGTC TCAGACAGAA
    GATGGTAAAG CATCTGTACG AGATCGTTTT AATGCAAGGC AGTTCATGTC TTGGTTGCAA
    GATGTTGATG AAAAATTTGA TAAACTCAAA ACATGCCTTC TCATGAGACA ACAGCACGAG
    GCGGCAGCGC TAAACGCAGT TCAGAGATTG GAGTGGCAGC TCAAACTCCA GGAACTTGAT
    CCCGCCACAT ACAAATCTGT CAGCATATAC GAAATTCAAG AATTCTCTGT CCCCTTAGTG
    GAAGTCAATG ATGATTTTGA ACTGACACCT ATATGA

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