ankrd12 cDNA ORF clone, Danio rerio(zebrafish)

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
ODa35058 NM_200150.1
Latest version!
Danio rerio ankyrin repeat domain 12 (ankrd12), mRNA. pcDNA3.1-C-(k)DYK or customized vector 7-9 $258.30
$369.00
ODa56269 XM_017357915.1
Latest version!
Danio rerio ankyrin repeat domain 12 (ankrd12), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
ODa56270 XM_017357916.2
Latest version!
Danio rerio ankyrin repeat domain 12 (ankrd12), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
View Old Accession Versions >>
ODa56270 XM_017357916.1 Danio rerio ankyrin repeat domain 12 (ankrd12), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
Hide Old Accession Versions >>

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

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

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

  • Reference Sequences (Refseq)
    CloneID ODa35058
    Clone ID Related Accession (Same CDS sequence) NM_200150.1
    Accession Version NM_200150.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1278bp)
    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 2019-01-26
    Organism Danio rerio(zebrafish)
    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 BC044542.1. On Jul 6, 2005 this sequence version replaced XM_697133.1. ##Evidence-Data-START## Transcript exon combination :: BC044542.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2168446, SAMEA2168447 [ECO:0000348] ##Evidence-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    ATGGCCAAAC CGGGATCCGA CCGAGATGAA GCCATGGTGG AGAAGACAGC GGGGAAGAAG 
    AGTAAAGAGA AAATCTCTCC GTTTGCTAAA ACTCCGAAGC TGGATCGGAG TGAACTCTTG
    GGGAAAGAGG GGAAGTCGAA ATCCTCCATG AAGCGGAAAC TCTCTTTCAC TGTCAGTCCA
    TCCCGAAACG AGGAGCGCGA CTCGGATGCA GATGACTCTG ACCCGGGGCA GTCGAGCGAT
    GCGTGGGGAG AGAGATTACT TCCTCCCTGC AGGATATACG CAGACAAAGA TGGACCGGAT
    AAGAAGAAGG TTAAGAAGGA GTCGGGGGGT AAGAAGTCGA CACCAGTGAA TATTTTGTTC
    GGGTACCCTT TATCAGAACG AAAGCAGATG GCACTTGTCA TGCAGATGAC GGCGAGAGAC
    AACAGTCCAG ATACCACACC GAACCACCCG TCTCAATCTC CGGCGGTGCA GAAGAAGATC
    GCCAGCAGCT CAACCTCACG ACAAAAAGAC AAAGTGAACA AGCGCAACGA GAGAGGAGAG
    ACGCCTCTGC ATATGGCCGC CATCAGAGGA GACGTCAAAC AAGTGAAGGA GCTCATCGGC
    CTCGGAGCGG ATGTAAACGT CAAAGACTTT GCAGGTTGGA CGCCTCTCCA TGAAGCCTGC
    AACCTTGGTT ACTATGATGT AGCCAAGGTT TTGATTGGTG CAGGAGCGGA AGTGAACACG
    CAGGGATTGG ACGATGACAC GCCGCTTCAT GACGCCTCAA GCAGTGGACA CAAAGACATT
    GTGAAGCTGC TCTTGCGTCA TGGAGGCAAT GCTTTCCAAG CCAACAAGAG AGGGGAGAGA
    CCGGTTGATG TTGCTGACTC TCAGGAGCTG GAGCAGCTAC TCAAGGGAGA AATCCCACTG
    TCAGAACCAG AAGACAGCTC TTCAGAATCA GAGGACCCAT CTTCAGTGAA TCCATCCAGT
    GTAGACGAGA ACCTGGAGTT TTCTGATGCT GAAAAAGACT CTGACTGTAA ATCGACAACT
    GTCAAAGCCT CATCGTCCAT GTCAGGGCTG GATGAATATG AGTTTAAAGA TGAGGAAGAG
    GAAGAGGACC TCAGTAAGTC ACTTAATGAG CGACACCTCT TTAGGCGAGA GCTACGGCAA
    AAGGAGAAGG AGGAAAAGGA CAGAAACCAC TATGCTTCAA AACAAGGTAG CAAAAGCGAC
    CAGTCCATGC TGGCTTGCAA GTCTAAAAAA ACAAAGGCGT CCCCGTGTCT ACTGCAGTTC
    AGACAGTTCA AGCGATGA

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

    RefSeq NP_956444.1
    CDS206..1483
    Translation

    Target ORF information:

    RefSeq Version NM_200150.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio ankyrin repeat domain 12 (ankrd12), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_200150.1

    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
    ATGGCCAAAC CGGGATCCGA CCGAGATGAA GCCATGGTGG AGAAGACAGC GGGGAAGAAG 
    AGTAAAGAGA AAATCTCTCC GTTTGCTAAA ACTCCGAAGC TGGATCGGAG TGAACTCTTG
    GGGAAAGAGG GGAAGTCGAA ATCCTCCATG AAGCGGAAAC TCTCTTTCAC TGTCAGTCCA
    TCCCGAAACG AGGAGCGCGA CTCGGATGCA GATGACTCTG ACCCGGGGCA GTCGAGCGAT
    GCGTGGGGAG AGAGATTACT TCCTCCCTGC AGGATATACG CAGACAAAGA TGGACCGGAT
    AAGAAGAAGG TTAAGAAGGA GTCGGGGGGT AAGAAGTCGA CACCAGTGAA TATTTTGTTC
    GGGTACCCTT TATCAGAACG AAAGCAGATG GCACTTGTCA TGCAGATGAC GGCGAGAGAC
    AACAGTCCAG ATACCACACC GAACCACCCG TCTCAATCTC CGGCGGTGCA GAAGAAGATC
    GCCAGCAGCT CAACCTCACG ACAAAAAGAC AAAGTGAACA AGCGCAACGA GAGAGGAGAG
    ACGCCTCTGC ATATGGCCGC CATCAGAGGA GACGTCAAAC AAGTGAAGGA GCTCATCGGC
    CTCGGAGCGG ATGTAAACGT CAAAGACTTT GCAGGTTGGA CGCCTCTCCA TGAAGCCTGC
    AACCTTGGTT ACTATGATGT AGCCAAGGTT TTGATTGGTG CAGGAGCGGA AGTGAACACG
    CAGGGATTGG ACGATGACAC GCCGCTTCAT GACGCCTCAA GCAGTGGACA CAAAGACATT
    GTGAAGCTGC TCTTGCGTCA TGGAGGCAAT GCTTTCCAAG CCAACAAGAG AGGGGAGAGA
    CCGGTTGATG TTGCTGACTC TCAGGAGCTG GAGCAGCTAC TCAAGGGAGA AATCCCACTG
    TCAGAACCAG AAGACAGCTC TTCAGAATCA GAGGACCCAT CTTCAGTGAA TCCATCCAGT
    GTAGACGAGA ACCTGGAGTT TTCTGATGCT GAAAAAGACT CTGACTGTAA ATCGACAACT
    GTCAAAGCCT CATCGTCCAT GTCAGGGCTG GATGAATATG AGTTTAAAGA TGAGGAAGAG
    GAAGAGGACC TCAGTAAGTC ACTTAATGAG CGACACCTCT TTAGGCGAGA GCTACGGCAA
    AAGGAGAAGG AGGAAAAGGA CAGAAACCAC TATGCTTCAA AACAAGGTAG CAAAAGCGAC
    CAGTCCATGC TGGCTTGCAA GTCTAAAAAA ACAAAGGCGT CCCCGTGTCT ACTGCAGTTC
    AGACAGTTCA AGCGATGA

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

    CloneID ODa56269
    Clone ID Related Accession (Same CDS sequence) XM_017357915.1
    Accession Version XM_017357915.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5964bp)
    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 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_007113.7) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    ATGGCCAAAC CGGGATCCGA CCGAGATGAA GCCATGGTGG AGAAGACAGC GGGGAAGAAG 
    AGTAAAGAGA AAATCTCTCC GTTTGCTAAA ACTCCGAAGC TGGATCGGAG TGAACTCTTG
    GGGAAAGAGG GGAAGTCGAA ATCCTCCATG AAGCGGAAAC TCTCCTTCAC TGTCAGTCCA
    TCCCGAAACG AGGAGCGCGA CTCGGATGCA GATGACTCTG ACCCGGGGCA GTCGAGCGAT
    GCGTGGGGAG AGAGATTACT TCCTCCCTGC AGGATATACG CAGACAAAGA TGGACCGGAT
    AAGAAGAAGG TTAAGAAGGA GTCGGGGGGT AAGAAGTCGA CACCAGTGAA TATTTTGTTC
    GGGTACCCTT TATCAGAACG AAAGCAGATG GCACTTGTCA TGCAGATGAC GGCGAGAGAC
    AACAGTCCAG ATACCACACC GAACCACCCG TCTCAATCTC CGGCGGTGCA GAAGAAGATC
    GCCAGCAGCT CAACCTCACG ACAAAAAGAC AAAGTGAACA AACGCAACGA GAGAGGAGAG
    ACGCCTCTGC ATATGGCCGC CATCAGAGGA GACGTCAAAC AAGTGAAGGA GCTCATCGGC
    CTCGGAGCGG ATGTAAACGT CAAAGACTTT GCAGGTTGGA CGCCTCTCCA TGAAGCCTGC
    AACCTTGGTT ACTATGATGT AGCCAAGGTT TTGATTGGTG CAGGAGCGGA AGTGAACACG
    CAGGGATTGG ACGATGACAC GCCGCTTCAT GACGCCTCAA GCAGTGGACA CAAAGACATT
    GTGAAGCTGC TCTTGCGTCA TGGAGGCAAT GCTTTCCAAG CCAACAAGAG AGGGGAGAGA
    CCGGTTGATG TTGCTGACTC TCAGGAGCTG GAGCAGCTAC TCAAGGGAGA AATCCCACTG
    TCAGAACCAG AAGACAGCTC TTCAGAATCA GAGGACCCAT CTTCAGTGAA TCCATCCAGT
    GTAGACGAGA ACCTGGAGTT TTCTGATGCT GAAAAAGACT CTGACTGTAA ATCGACAACT
    GTCAAAGCCT CATCGTCCAT GTCAGGGCTG GATGAATATG AGTTTAAAGA TGAGGAAGAG
    GAAGAGGACC TCAGTAAGTC ACTTAATGAG CGACACCTCT TTAGGCGAGA GCTACGGCAA
    AAGGAGAAGG AGGAAAAGGA CAGAAACCAC TATGCTTCAA AACAAGGTAG CAAAAGCGAC
    CAGTCCATGC TGGCTTGCAA GTCTAAAAAA ACAAAGGCGT CCCGTGTCTA CTGCAGTTCA
    GACAGTTCAA GCGATGAAGC AGAGGTGCAG ACGGAAAGAA GGAGCTCACC TACTAGGTCA
    GTCAGTGTGG ATGGACATAA AACGGACAGT AGATCGAAAA AAGAAAGCTT GACTCTAACG
    CCAGTGGAGC AGAAAGAAAA AGGTAAACAG AAGAAAAAGA ACAAGAGCCA AAGCAAAAAC
    AAAGAAAACC AGGAAGTCAG AGAAGAAGGG AAAGAGAACA GCAAATCCCT TCTGTTTTCC
    TCTCCGACTG TGTCCGATAA TTCTGACAAG GGCGTCAGAG AAGAGGACTC TTTCAAAATG
    TCATTCAGTG CAAAGGATGA CACATCGGTT CACCTATTTC ACCTGTCTGT AGTCAAATCC
    CCAAAGCTGA ACCACAGCCA AACTGACAAG CAGGCAACCC CGCTGAAACA GGAAAACGCT
    AAGACATGTG TTTCAATCGC TGATGGATCT TGCCCTGGGG ACGGCATCAA ATATAACCAC
    TACACAGACT CTGACTATTG CACAGAAGAT TCTAGCAGTA AAAGCTGCAA ACATAAGGAA
    AAGAGCAAGC ACCATCACAA GGAGCCTAAC TTGGAAGGAG ATGACGGCAG TTCGAGTCCT
    TTCAAAGACA GCAGTTTAAG CAACAGTATA GACAGCTCTG AGGGTGCGTT TAGGAAGACT
    GACAAAGATG GGAAAGTTGT AAAAAAGCAC AAGCTAAAAC ACAAGGAGAA GGAAAAGGAG
    AAATATAGGA AAGAGTACGA GGCAGAGAGG AATCGCCACC GGCAGAAAGA GCCACGCAAG
    GACGGACATA GAAACCTCGA GTTTGATCGA GAGTTCTGGA AGGAGAACTT CTTCAAAAGT
    GATGAAAATG AGGAACCTGT GGGCAAAGGT GAGATACCTG CTGGTGGATC TCCAGTAAAA
    TCCTCAGATT CGTCACCTGT TAAAGAGGAA AAAGGGGCAT CAAAAGACAA ACATTCAACT
    AGTAGCAGTA ACAAGGACAG GAGGCCAAAA GAGGAAAGAG ATAAAACCAT TAAAAAGGAG
    AAAAAAGAGA TTCCTCTTAA AGAGGAGCGA GGAAAAGAAG ATGAAACAGA TGAGCGGACT
    GATGGTACTT TCTCTGTACG AATTCCTGAT GGCTCACAAC ACTTGTCAGA AGAAGTGGAT
    GAGAAACCAG CAACTTGTAA TTCGGCTGAC CAAGAGCAAC TGGAGTCTCC AGAGAAGAAC
    TCTCGAGAAA AAACTGATAA GCGACCACCA ACAAAGGATC GGGAATCTGA GAAGTCTGAT
    AAGAGACACT CGGATAAAGA TAAGAAGGTA AAATCTGAGC ATTTAGCTGA CAAGCCTGAG
    CTCCACAACT CTACAGATCG ATGGAAGGAA AAGGAGAAAT TAACAAATGT TTCATATTCG
    CCCAATGATA AGAGCCATAA AGAGGGTGAA AAACTCAAAC CAATGACTCC AGTGAAAAAG
    CATGAGGAGA ACAAGAAGAA TAAGGACAAG CTTGATAAAA AAGCGGAGAA AGAGCACGCT
    TCTGGTGACC ACAGAGACAA AGATAAAACA ACTTCTGAAA AGAAAGGAAA AGCTCCTGAG
    AAAACTGCTG ATCATGGAAA ATCTGACCGC AGTAAAGACA AAGAACGGGA CAAAGATTCT
    GACAAGAGGA AAAAAGATAA ATCAACCACT CCATCTTCCT CTTCCTACTC GAATCTAAAG
    TCGTTATTGG AAGAAAAGAA AGGCTATGTT TGTGAGAATA ATAAGGTTGT CTCATCTAAA
    TCAAAGGAAG AGGTAACCAA GCCTTCAGAG AAAGACCGAG ATCGAAGAGA GAGGGACCGG
    GAGTCTGAAA GACATCGAGA TCGGGAACGA GATCGGCACA AGGAAAAGGA CAAAGATCGA
    TCCCAGTTTA ACAGGGATGG CAAAATTAAC AAACCGAAAC CAAGTGAAGT GGACTCCAAA
    TCTAAGGTTA CACCTATTCT AAAGGATACT CGTCCCAAAG AAAAGAGGCT GGTGAATGAT
    GACCTCATGA AGACCAGCTT TGAACGCATG CTCAGTCTCA AAGATCAGGA AATCGAACAG
    TGGCACAAAA AGCACTTGGA GAAAATCAAG CAGAAGGAAC GGGAGCGGCT AAAACAGCGT
    CCTGGAATTG ACCCTGCGAA ACAACAAAAA AACAAGGAAA AAATTAAATC ATCCTCTACG
    TCCACTGAGC CATGTCTAAC CAAGGAACTA ACTCGGTCAA AGAGCTCAGA AGCGCCAGAT
    GGACAACGTG AAAAGATCTT AAAGGACGCC ACTAGTGTGA GAACTCTCTC GCTAGATGCA
    AAAACCTTGG GGAAGAACGG TCCTATAATT GAAAACAATC TAAGTCGATC TCCGAGACCA
    GAAAGTGAAA AATCTGGTCT TATGTCAAGA TCAATATCAA TGATCTCTGT GGCAAGTTCA
    GAAGACTCCT GCCAGGCAAC TATTTTGACA CCTAGACCAA CTGACCAATA TGATTCTGAC
    ATGAACGTGG AAGCCTTAGA TTCGCAGCCA CCTTTACTTC AGTCTTCCCT TGTTGCACAG
    TCCTCCAGGT CGCCTAGTGT TCATGATAAA GATATTAGCA GTCTTCCCGA ATCATCGGCT
    CTCTGCAATC GCACACCATT GGCAAGCAGG CATGCATCAC CATGCTTAAG GGCTATTCTG
    GATGAAGAAG CCAAGGTACC AACAACTGAA ACAAAACCCA CAGAAGAGTC TCCGGTAATC
    AGTATTGCAT CACAACCAAC CAGCGAGCAA TCTCAAGTTC ATCTAACTGA GATTAGTGTC
    CCCCCTGTTC AGGAGACTCG GAGCAGTCAA AGTCTTACAA ACTCTTTTCC AGAAAATGAA
    ATTCTGTCTA GTAATGAAGC CGAAGTCGTC AGTTCCACAT GTCAAGTACA ACCTTCGCAG
    GCTAGTGCTA AAGACAGTGT AACACAAGCA AACAGTGTGT TTCCGAGCCA TTTGGAAGAG
    CAGAACAAGT TTTGCACCAC TAGTAGTCAA ATAGAGCATG CAAGTCTAGG TCAGCTTGAT
    GTCCCTGGTG CAGAGGGAGT AAAAAAGGAG GCTTCACTTG CTGTTGCATC ATTACAGTCA
    TCTCATACAT CAACTTCATC ATCAGATTCC AATGCACATT TGCCTTCGAG TAGTCAGCAT
    TGTGAGATTA GCTCTGCTTC CAGTGGTGAA CAGACAATGA CAACAGACTC TAGTTTGAGA
    ACAGAGCAAA GAGACAAACC ATTGGTTGCT TCAGAGGACA AGATTGGGGA ACATGTCACT
    AAAACTGATT GCGCGAGCAC TCCAAGTCCA TCTACAGCAT CCTGTAGATC CAGCTCTGAG
    GAATCTACTA AACCACTGCT GAAGGCGACC AGTGTTCAGG AAGATACTGA AAAGGGCAAT
    GAACAAGTGC AAGAAGAAAG TATCTCAAGG TTCTCCAATG ACCCATTGGT TGCAGTTGAT
    GCTCAACCAG AGAAAGAAGA GCAAGGCCTA CATTTGGCTT CGGTGACAAA TGTTTCTTGC
    TGTGCCAGTC CAGAAAGAAT CCCAGAGGAG CCCATGGAGG TTCCAGAGGA AGTTTCGGAT
    AAGAGCCGAA TCACAGAAAT TGATGAGGCC AAAGTCTTGT CTTCAGAAGA AGGTGCAGTG
    ACTTCATCTG AAAGTAAGGC TGACTCAGAA ACGCCAGACC CGTTTTCTCT TGACGAGAAG
    CCTTTGAAAT CGGACATTCT GGCTAATGTA GAACAGGCTC AAAGCAGTGC TCCCATCCAC
    CCTGATCATC AGGCAGAGCC AACCAGTGGA GAGACCTCTG GAAGTTCCTC TCCGATATCA
    GTCATGGACA GAGATTCAGA TATATCTGGG GCCAGAGCCA AAGTCAGACT CCTTGAAGAA
    GAAGCTGACA TTCAAGCGAC CCATCCAAGA AAACGAAAAA TGCCTAGAGC TTCTCCGCTA
    GCCCAAGCAA ATCTTACAGC TCAGCAGGTC AGAGAAAAGA CACAGCAGTC CCTCGCTGCG
    ATTGTAGATG CACTGAAGCT TGAGGAGATT CAGCCTTACC AGACAGAGAG AGCCAACCCA
    TATTATGAGT ACTTGCACAT TCGCAAAAAG ATCGAAGAGA AGAGGAAAGT CCTTTGTAGT
    GTCATTCCTC AAGCGCCTCA GTACTACGAC GAGTATGTGA CATTCAATGG GTCCTATCTG
    CTGGATGGAA ACCCTCTCAG CAAACTCTGC ATCCCAACAA TAACGCCTCC ACCCTCTTTA
    CCTGAACCAC TGAAGGAGAT GTTCAAACAG CAAGAGATGG TGCGGATGAA GCTGAGACTG
    CAGCACAGCA TCGAAAGGGA AAAACTGATT GTATCCAATG AGCAGGAGGT TTTGAGAGTT
    CATTACCGCG CTGCGAGAAC ACTAGCCAAT CAGACGCTTC CGTTCAGTGC CTGCACAGTC
    CTATTGGATG CCGAAGTATA CAACATGCCC CAAGAAGTCC AGGGTGATGA TGGGAAGACT
    TCTGTTCGAG ATCGATTCAA TGCGAGGCAG TTCATGTCTT GGCTTCAGGA TGTAGACGAC
    AAGTTTGACA AGTTGAAGAC GTGTCTCCTG ATGCGGCAGC AGCATGAAGC GGCAGCGTTA
    AACGCAGTCC AGCGTCTGGA GTGGCAGCTA AAGCTACAGG AACTGGATCC CGCCACTTAC
    AAGTCCACCA GCATTTTCGA GATTCCCGAA TTCTACATCC CGCTCGTGGA GGTCAACGAC
    GACTTCGACC TGACGCCGAT ATGA

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

    RefSeq XP_017213404.1
    CDS259..6222
    Translation

    Target ORF information:

    RefSeq Version XM_017357915.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio 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_017357915.1

    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
    ATGGCCAAAC CGGGATCCGA CCGAGATGAA GCCATGGTGG AGAAGACAGC GGGGAAGAAG 
    AGTAAAGAGA AAATCTCTCC GTTTGCTAAA ACTCCGAAGC TGGATCGGAG TGAACTCTTG
    GGGAAAGAGG GGAAGTCGAA ATCCTCCATG AAGCGGAAAC TCTCCTTCAC TGTCAGTCCA
    TCCCGAAACG AGGAGCGCGA CTCGGATGCA GATGACTCTG ACCCGGGGCA GTCGAGCGAT
    GCGTGGGGAG AGAGATTACT TCCTCCCTGC AGGATATACG CAGACAAAGA TGGACCGGAT
    AAGAAGAAGG TTAAGAAGGA GTCGGGGGGT AAGAAGTCGA CACCAGTGAA TATTTTGTTC
    GGGTACCCTT TATCAGAACG AAAGCAGATG GCACTTGTCA TGCAGATGAC GGCGAGAGAC
    AACAGTCCAG ATACCACACC GAACCACCCG TCTCAATCTC CGGCGGTGCA GAAGAAGATC
    GCCAGCAGCT CAACCTCACG ACAAAAAGAC AAAGTGAACA AACGCAACGA GAGAGGAGAG
    ACGCCTCTGC ATATGGCCGC CATCAGAGGA GACGTCAAAC AAGTGAAGGA GCTCATCGGC
    CTCGGAGCGG ATGTAAACGT CAAAGACTTT GCAGGTTGGA CGCCTCTCCA TGAAGCCTGC
    AACCTTGGTT ACTATGATGT AGCCAAGGTT TTGATTGGTG CAGGAGCGGA AGTGAACACG
    CAGGGATTGG ACGATGACAC GCCGCTTCAT GACGCCTCAA GCAGTGGACA CAAAGACATT
    GTGAAGCTGC TCTTGCGTCA TGGAGGCAAT GCTTTCCAAG CCAACAAGAG AGGGGAGAGA
    CCGGTTGATG TTGCTGACTC TCAGGAGCTG GAGCAGCTAC TCAAGGGAGA AATCCCACTG
    TCAGAACCAG AAGACAGCTC TTCAGAATCA GAGGACCCAT CTTCAGTGAA TCCATCCAGT
    GTAGACGAGA ACCTGGAGTT TTCTGATGCT GAAAAAGACT CTGACTGTAA ATCGACAACT
    GTCAAAGCCT CATCGTCCAT GTCAGGGCTG GATGAATATG AGTTTAAAGA TGAGGAAGAG
    GAAGAGGACC TCAGTAAGTC ACTTAATGAG CGACACCTCT TTAGGCGAGA GCTACGGCAA
    AAGGAGAAGG AGGAAAAGGA CAGAAACCAC TATGCTTCAA AACAAGGTAG CAAAAGCGAC
    CAGTCCATGC TGGCTTGCAA GTCTAAAAAA ACAAAGGCGT CCCGTGTCTA CTGCAGTTCA
    GACAGTTCAA GCGATGAAGC AGAGGTGCAG ACGGAAAGAA GGAGCTCACC TACTAGGTCA
    GTCAGTGTGG ATGGACATAA AACGGACAGT AGATCGAAAA AAGAAAGCTT GACTCTAACG
    CCAGTGGAGC AGAAAGAAAA AGGTAAACAG AAGAAAAAGA ACAAGAGCCA AAGCAAAAAC
    AAAGAAAACC AGGAAGTCAG AGAAGAAGGG AAAGAGAACA GCAAATCCCT TCTGTTTTCC
    TCTCCGACTG TGTCCGATAA TTCTGACAAG GGCGTCAGAG AAGAGGACTC TTTCAAAATG
    TCATTCAGTG CAAAGGATGA CACATCGGTT CACCTATTTC ACCTGTCTGT AGTCAAATCC
    CCAAAGCTGA ACCACAGCCA AACTGACAAG CAGGCAACCC CGCTGAAACA GGAAAACGCT
    AAGACATGTG TTTCAATCGC TGATGGATCT TGCCCTGGGG ACGGCATCAA ATATAACCAC
    TACACAGACT CTGACTATTG CACAGAAGAT TCTAGCAGTA AAAGCTGCAA ACATAAGGAA
    AAGAGCAAGC ACCATCACAA GGAGCCTAAC TTGGAAGGAG ATGACGGCAG TTCGAGTCCT
    TTCAAAGACA GCAGTTTAAG CAACAGTATA GACAGCTCTG AGGGTGCGTT TAGGAAGACT
    GACAAAGATG GGAAAGTTGT AAAAAAGCAC AAGCTAAAAC ACAAGGAGAA GGAAAAGGAG
    AAATATAGGA AAGAGTACGA GGCAGAGAGG AATCGCCACC GGCAGAAAGA GCCACGCAAG
    GACGGACATA GAAACCTCGA GTTTGATCGA GAGTTCTGGA AGGAGAACTT CTTCAAAAGT
    GATGAAAATG AGGAACCTGT GGGCAAAGGT GAGATACCTG CTGGTGGATC TCCAGTAAAA
    TCCTCAGATT CGTCACCTGT TAAAGAGGAA AAAGGGGCAT CAAAAGACAA ACATTCAACT
    AGTAGCAGTA ACAAGGACAG GAGGCCAAAA GAGGAAAGAG ATAAAACCAT TAAAAAGGAG
    AAAAAAGAGA TTCCTCTTAA AGAGGAGCGA GGAAAAGAAG ATGAAACAGA TGAGCGGACT
    GATGGTACTT TCTCTGTACG AATTCCTGAT GGCTCACAAC ACTTGTCAGA AGAAGTGGAT
    GAGAAACCAG CAACTTGTAA TTCGGCTGAC CAAGAGCAAC TGGAGTCTCC AGAGAAGAAC
    TCTCGAGAAA AAACTGATAA GCGACCACCA ACAAAGGATC GGGAATCTGA GAAGTCTGAT
    AAGAGACACT CGGATAAAGA TAAGAAGGTA AAATCTGAGC ATTTAGCTGA CAAGCCTGAG
    CTCCACAACT CTACAGATCG ATGGAAGGAA AAGGAGAAAT TAACAAATGT TTCATATTCG
    CCCAATGATA AGAGCCATAA AGAGGGTGAA AAACTCAAAC CAATGACTCC AGTGAAAAAG
    CATGAGGAGA ACAAGAAGAA TAAGGACAAG CTTGATAAAA AAGCGGAGAA AGAGCACGCT
    TCTGGTGACC ACAGAGACAA AGATAAAACA ACTTCTGAAA AGAAAGGAAA AGCTCCTGAG
    AAAACTGCTG ATCATGGAAA ATCTGACCGC AGTAAAGACA AAGAACGGGA CAAAGATTCT
    GACAAGAGGA AAAAAGATAA ATCAACCACT CCATCTTCCT CTTCCTACTC GAATCTAAAG
    TCGTTATTGG AAGAAAAGAA AGGCTATGTT TGTGAGAATA ATAAGGTTGT CTCATCTAAA
    TCAAAGGAAG AGGTAACCAA GCCTTCAGAG AAAGACCGAG ATCGAAGAGA GAGGGACCGG
    GAGTCTGAAA GACATCGAGA TCGGGAACGA GATCGGCACA AGGAAAAGGA CAAAGATCGA
    TCCCAGTTTA ACAGGGATGG CAAAATTAAC AAACCGAAAC CAAGTGAAGT GGACTCCAAA
    TCTAAGGTTA CACCTATTCT AAAGGATACT CGTCCCAAAG AAAAGAGGCT GGTGAATGAT
    GACCTCATGA AGACCAGCTT TGAACGCATG CTCAGTCTCA AAGATCAGGA AATCGAACAG
    TGGCACAAAA AGCACTTGGA GAAAATCAAG CAGAAGGAAC GGGAGCGGCT AAAACAGCGT
    CCTGGAATTG ACCCTGCGAA ACAACAAAAA AACAAGGAAA AAATTAAATC ATCCTCTACG
    TCCACTGAGC CATGTCTAAC CAAGGAACTA ACTCGGTCAA AGAGCTCAGA AGCGCCAGAT
    GGACAACGTG AAAAGATCTT AAAGGACGCC ACTAGTGTGA GAACTCTCTC GCTAGATGCA
    AAAACCTTGG GGAAGAACGG TCCTATAATT GAAAACAATC TAAGTCGATC TCCGAGACCA
    GAAAGTGAAA AATCTGGTCT TATGTCAAGA TCAATATCAA TGATCTCTGT GGCAAGTTCA
    GAAGACTCCT GCCAGGCAAC TATTTTGACA CCTAGACCAA CTGACCAATA TGATTCTGAC
    ATGAACGTGG AAGCCTTAGA TTCGCAGCCA CCTTTACTTC AGTCTTCCCT TGTTGCACAG
    TCCTCCAGGT CGCCTAGTGT TCATGATAAA GATATTAGCA GTCTTCCCGA ATCATCGGCT
    CTCTGCAATC GCACACCATT GGCAAGCAGG CATGCATCAC CATGCTTAAG GGCTATTCTG
    GATGAAGAAG CCAAGGTACC AACAACTGAA ACAAAACCCA CAGAAGAGTC TCCGGTAATC
    AGTATTGCAT CACAACCAAC CAGCGAGCAA TCTCAAGTTC ATCTAACTGA GATTAGTGTC
    CCCCCTGTTC AGGAGACTCG GAGCAGTCAA AGTCTTACAA ACTCTTTTCC AGAAAATGAA
    ATTCTGTCTA GTAATGAAGC CGAAGTCGTC AGTTCCACAT GTCAAGTACA ACCTTCGCAG
    GCTAGTGCTA AAGACAGTGT AACACAAGCA AACAGTGTGT TTCCGAGCCA TTTGGAAGAG
    CAGAACAAGT TTTGCACCAC TAGTAGTCAA ATAGAGCATG CAAGTCTAGG TCAGCTTGAT
    GTCCCTGGTG CAGAGGGAGT AAAAAAGGAG GCTTCACTTG CTGTTGCATC ATTACAGTCA
    TCTCATACAT CAACTTCATC ATCAGATTCC AATGCACATT TGCCTTCGAG TAGTCAGCAT
    TGTGAGATTA GCTCTGCTTC CAGTGGTGAA CAGACAATGA CAACAGACTC TAGTTTGAGA
    ACAGAGCAAA GAGACAAACC ATTGGTTGCT TCAGAGGACA AGATTGGGGA ACATGTCACT
    AAAACTGATT GCGCGAGCAC TCCAAGTCCA TCTACAGCAT CCTGTAGATC CAGCTCTGAG
    GAATCTACTA AACCACTGCT GAAGGCGACC AGTGTTCAGG AAGATACTGA AAAGGGCAAT
    GAACAAGTGC AAGAAGAAAG TATCTCAAGG TTCTCCAATG ACCCATTGGT TGCAGTTGAT
    GCTCAACCAG AGAAAGAAGA GCAAGGCCTA CATTTGGCTT CGGTGACAAA TGTTTCTTGC
    TGTGCCAGTC CAGAAAGAAT CCCAGAGGAG CCCATGGAGG TTCCAGAGGA AGTTTCGGAT
    AAGAGCCGAA TCACAGAAAT TGATGAGGCC AAAGTCTTGT CTTCAGAAGA AGGTGCAGTG
    ACTTCATCTG AAAGTAAGGC TGACTCAGAA ACGCCAGACC CGTTTTCTCT TGACGAGAAG
    CCTTTGAAAT CGGACATTCT GGCTAATGTA GAACAGGCTC AAAGCAGTGC TCCCATCCAC
    CCTGATCATC AGGCAGAGCC AACCAGTGGA GAGACCTCTG GAAGTTCCTC TCCGATATCA
    GTCATGGACA GAGATTCAGA TATATCTGGG GCCAGAGCCA AAGTCAGACT CCTTGAAGAA
    GAAGCTGACA TTCAAGCGAC CCATCCAAGA AAACGAAAAA TGCCTAGAGC TTCTCCGCTA
    GCCCAAGCAA ATCTTACAGC TCAGCAGGTC AGAGAAAAGA CACAGCAGTC CCTCGCTGCG
    ATTGTAGATG CACTGAAGCT TGAGGAGATT CAGCCTTACC AGACAGAGAG AGCCAACCCA
    TATTATGAGT ACTTGCACAT TCGCAAAAAG ATCGAAGAGA AGAGGAAAGT CCTTTGTAGT
    GTCATTCCTC AAGCGCCTCA GTACTACGAC GAGTATGTGA CATTCAATGG GTCCTATCTG
    CTGGATGGAA ACCCTCTCAG CAAACTCTGC ATCCCAACAA TAACGCCTCC ACCCTCTTTA
    CCTGAACCAC TGAAGGAGAT GTTCAAACAG CAAGAGATGG TGCGGATGAA GCTGAGACTG
    CAGCACAGCA TCGAAAGGGA AAAACTGATT GTATCCAATG AGCAGGAGGT TTTGAGAGTT
    CATTACCGCG CTGCGAGAAC ACTAGCCAAT CAGACGCTTC CGTTCAGTGC CTGCACAGTC
    CTATTGGATG CCGAAGTATA CAACATGCCC CAAGAAGTCC AGGGTGATGA TGGGAAGACT
    TCTGTTCGAG ATCGATTCAA TGCGAGGCAG TTCATGTCTT GGCTTCAGGA TGTAGACGAC
    AAGTTTGACA AGTTGAAGAC GTGTCTCCTG ATGCGGCAGC AGCATGAAGC GGCAGCGTTA
    AACGCAGTCC AGCGTCTGGA GTGGCAGCTA AAGCTACAGG AACTGGATCC CGCCACTTAC
    AAGTCCACCA GCATTTTCGA GATTCCCGAA TTCTACATCC CGCTCGTGGA GGTCAACGAC
    GACTTCGACC TGACGCCGAT ATGA

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

    CloneID ODa56270
    Clone ID Related Accession (Same CDS sequence) XM_017357916.1 , XM_017357916.2
    Accession Version XM_017357916.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5892bp)
    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 ankyrin repeat domain-containing protein 12 isoform X2
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007113.6) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    ATGGCCAAAC CGGGATCCGA CCGAGATGAA GCCATGGTGG AGAAGACAGC GGGGAAGAAG 
    AGTAAAGAGA AAATCTCTCC GTTTGCTAAA ACTCCGAAGC TGGATCGGAG TGAACTCTTG
    GGGAAAGAGG GGAAGTCGAA ATCCTCCATG AAGCGGAAAC TCTCCTTCAC TGTCAGTCCA
    TCCCGAAACG AGGAGCGCGA CTCGGATGCA GACAAAGATG GACCGGATAA GAAGAAGGTT
    AAGAAGGAGT CGGGGGGTAA GAAGTCGACA CCAGTGAATA TTTTGTTCGG GTACCCTTTA
    TCAGAACGAA AGCAGATGGC ACTTGTCATG CAGATGACGG CGAGAGACAA CAGTCCAGAT
    ACCACACCGA ACCACCCGTC TCAATCTCCG GCGGTGCAGA AGAAGATCGC CAGCAGCTCA
    ACCTCACGAC AAAAAGACAA AGTGAACAAA CGCAACGAGA GAGGAGAGAC GCCTCTGCAT
    ATGGCCGCCA TCAGAGGAGA CGTCAAACAA GTGAAGGAGC TCATCGGCCT CGGAGCGGAT
    GTAAACGTCA AAGACTTTGC AGGTTGGACG CCTCTCCATG AAGCCTGCAA CCTTGGTTAC
    TATGATGTAG CCAAGGTTTT GATTGGTGCA GGAGCGGAAG TGAACACGCA GGGATTGGAC
    GATGACACGC CGCTTCATGA CGCCTCAAGC AGTGGACACA AAGACATTGT GAAGCTGCTC
    TTGCGTCATG GAGGCAATGC TTTCCAAGCC AACAAGAGAG GGGAGAGACC GGTTGATGTT
    GCTGACTCTC AGGAGCTGGA GCAGCTACTC AAGGGAGAAA TCCCACTGTC AGAACCAGAA
    GACAGCTCTT CAGAATCAGA GGACCCATCT TCAGTGAATC CATCCAGTGT AGACGAGAAC
    CTGGAGTTTT CTGATGCTGA AAAAGACTCT GACTGTAAAT CGACAACTGT CAAAGCCTCA
    TCGTCCATGT CAGGGCTGGA TGAATATGAG TTTAAAGATG AGGAAGAGGA AGAGGACCTC
    AGTAAGTCAC TTAATGAGCG ACACCTCTTT AGGCGAGAGC TACGGCAAAA GGAGAAGGAG
    GAAAAGGACA GAAACCACTA TGCTTCAAAA CAAGGTAGCA AAAGCGACCA GTCCATGCTG
    GCTTGCAAGT CTAAAAAAAC AAAGGCGTCC CGTGTCTACT GCAGTTCAGA CAGTTCAAGC
    GATGAAGCAG AGGTGCAGAC GGAAAGAAGG AGCTCACCTA CTAGGTCAGT CAGTGTGGAT
    GGACATAAAA CGGACAGTAG ATCGAAAAAA GAAAGCTTGA CTCTAACGCC AGTGGAGCAG
    AAAGAAAAAG GTAAACAGAA GAAAAAGAAC AAGAGCCAAA GCAAAAACAA AGAAAACCAG
    GAAGTCAGAG AAGAAGGGAA AGAGAACAGC AAATCCCTTC TGTTTTCCTC TCCGACTGTG
    TCCGATAATT CTGACAAGGG CGTCAGAGAA GAGGACTCTT TCAAAATGTC ATTCAGTGCA
    AAGGATGACA CATCGGTTCA CCTATTTCAC CTGTCTGTAG TCAAATCCCC AAAGCTGAAC
    CACAGCCAAA CTGACAAGCA GGCAACCCCG CTGAAACAGG AAAACGCTAA GACATGTGTT
    TCAATCGCTG ATGGATCTTG CCCTGGGGAC GGCATCAAAT ATAACCACTA CACAGACTCT
    GACTATTGCA CAGAAGATTC TAGCAGTAAA AGCTGCAAAC ATAAGGAAAA GAGCAAGCAC
    CATCACAAGG AGCCTAACTT GGAAGGAGAT GACGGCAGTT CGAGTCCTTT CAAAGACAGC
    AGTTTAAGCA ACAGTATAGA CAGCTCTGAG GGTGCGTTTA GGAAGACTGA CAAAGATGGG
    AAAGTTGTAA AAAAGCACAA GCTAAAACAC AAGGAGAAGG AAAAGGAGAA ATATAGGAAA
    GAGTACGAGG CAGAGAGGAA TCGCCACCGG CAGAAAGAGC CACGCAAGGA CGGACATAGA
    AACCTCGAGT TTGATCGAGA GTTCTGGAAG GAGAACTTCT TCAAAAGTGA TGAAAATGAG
    GAACCTGTGG GCAAAGGTGA GATACCTGCT GGTGGATCTC CAGTAAAATC CTCAGATTCG
    TCACCTGTTA AAGAGGAAAA AGGGGCATCA AAAGACAAAC ATTCAACTAG TAGCAGTAAC
    AAGGACAGGA GGCCAAAAGA GGAAAGAGAT AAAACCATTA AAAAGGAGAA AAAAGAGATT
    CCTCTTAAAG AGGAGCGAGG AAAAGAAGAT GAAACAGATG AGCGGACTGA TGGTACTTTC
    TCTGTACGAA TTCCTGATGG CTCACAACAC TTGTCAGAAG AAGTGGATGA GAAACCAGCA
    ACTTGTAATT CGGCTGACCA AGAGCAACTG GAGTCTCCAG AGAAGAACTC TCGAGAAAAA
    ACTGATAAGC GACCACCAAC AAAGGATCGG GAATCTGAGA AGTCTGATAA GAGACACTCG
    GATAAAGATA AGAAGGTAAA ATCTGAGCAT TTAGCTGACA AGCCTGAGCT CCACAACTCT
    ACAGATCGAT GGAAGGAAAA GGAGAAATTA ACAAATGTTT CATATTCGCC CAATGATAAG
    AGCCATAAAG AGGGTGAAAA ACTCAAACCA ATGACTCCAG TGAAAAAGCA TGAGGAGAAC
    AAGAAGAATA AGGACAAGCT TGATAAAAAA GCGGAGAAAG AGCACGCTTC TGGTGACCAC
    AGAGACAAAG ATAAAACAAC TTCTGAAAAG AAAGGAAAAG CTCCTGAGAA AACTGCTGAT
    CATGGAAAAT CTGACCGCAG TAAAGACAAA GAACGGGACA AAGATTCTGA CAAGAGGAAA
    AAAGATAAAT CAACCACTCC ATCTTCCTCT TCCTACTCGA ATCTAAAGTC GTTATTGGAA
    GAAAAGAAAG GCTATGTTTG TGAGAATAAT AAGGTTGTCT CATCTAAATC AAAGGAAGAG
    GTAACCAAGC CTTCAGAGAA AGACCGAGAT CGAAGAGAGA GGGACCGGGA GTCTGAAAGA
    CATCGAGATC GGGAACGAGA TCGGCACAAG GAAAAGGACA AAGATCGATC CCAGTTTAAC
    AGGGATGGCA AAATTAACAA ACCGAAACCA AGTGAAGTGG ACTCCAAATC TAAGGTTACA
    CCTATTCTAA AGGATACTCG TCCCAAAGAA AAGAGGCTGG TGAATGATGA CCTCATGAAG
    ACCAGCTTTG AACGCATGCT CAGTCTCAAA GATCAGGAAA TCGAACAGTG GCACAAAAAG
    CACTTGGAGA AAATCAAGCA GAAGGAACGG GAGCGGCTAA AACAGCGTCC TGGAATTGAC
    CCTGCGAAAC AACAAAAAAA CAAGGAAAAA ATTAAATCAT CCTCTACGTC CACTGAGCCA
    TGTCTAACCA AGGAACTAAC TCGGTCAAAG AGCTCAGAAG CGCCAGATGG ACAACGTGAA
    AAGATCTTAA AGGACGCCAC TAGTGTGAGA ACTCTCTCGC TAGATGCAAA AACCTTGGGG
    AAGAACGGTC CTATAATTGA AAACAATCTA AGTCGATCTC CGAGACCAGA AAGTGAAAAA
    TCTGGTCTTA TGTCAAGATC AATATCAATG ATCTCTGTGG CAAGTTCAGA AGACTCCTGC
    CAGGCAACTA TTTTGACACC TAGACCAACT GACCAATATG ATTCTGACAT GAACGTGGAA
    GCCTTAGATT CGCAGCCACC TTTACTTCAG TCTTCCCTTG TTGCACAGTC CTCCAGGTCG
    CCTAGTGTTC ATGATAAAGA TATTAGCAGT CTTCCCGAAT CATCGGCTCT CTGCAATCGC
    ACACCATTGG CAAGCAGGCA TGCATCACCA TGCTTAAGGG CTATTCTGGA TGAAGAAGCC
    AAGGTACCAA CAACTGAAAC AAAACCCACA GAAGAGTCTC CGGTAATCAG TATTGCATCA
    CAACCAACCA GCGAGCAATC TCAAGTTCAT CTAACTGAGA TTAGTGTCCC CCCTGTTCAG
    GAGACTCGGA GCAGTCAAAG TCTTACAAAC TCTTTTCCAG AAAATGAAAT TCTGTCTAGT
    AATGAAGCCG AAGTCGTCAG TTCCACATGT CAAGTACAAC CTTCGCAGGC TAGTGCTAAA
    GACAGTGTAA CACAAGCAAA CAGTGTGTTT CCGAGCCATT TGGAAGAGCA GAACAAGTTT
    TGCACCACTA GTAGTCAAAT AGAGCATGCA AGTCTAGGTC AGCTTGATGT CCCTGGTGCA
    GAGGGAGTAA AAAAGGAGGC TTCACTTGCT GTTGCATCAT TACAGTCATC TCATACATCA
    ACTTCATCAT CAGATTCCAA TGCACATTTG CCTTCGAGTA GTCAGCATTG TGAGATTAGC
    TCTGCTTCCA GTGGTGAACA GACAATGACA ACAGACTCTA GTTTGAGAAC AGAGCAAAGA
    GACAAACCAT TGGTTGCTTC AGAGGACAAG ATTGGGGAAC ATGTCACTAA AACTGATTGC
    GCGAGCACTC CAAGTCCATC TACAGCATCC TGTAGATCCA GCTCTGAGGA ATCTACTAAA
    CCACTGCTGA AGGCGACCAG TGTTCAGGAA GATACTGAAA AGGGCAATGA ACAAGTGCAA
    GAAGAAAGTA TCTCAAGGTT CTCCAATGAC CCATTGGTTG CAGTTGATGC TCAACCAGAG
    AAAGAAGAGC AAGGCCTACA TTTGGCTTCG GTGACAAATG TTTCTTGCTG TGCCAGTCCA
    GAAAGAATCC CAGAGGAGCC CATGGAGGTT CCAGAGGAAG TTTCGGATAA GAGCCGAATC
    ACAGAAATTG ATGAGGCCAA AGTCTTGTCT TCAGAAGAAG GTGCAGTGAC TTCATCTGAA
    AGTAAGGCTG ACTCAGAAAC GCCAGACCCG TTTTCTCTTG ACGAGAAGCC TTTGAAATCG
    GACATTCTGG CTAATGTAGA ACAGGCTCAA AGCAGTGCTC CCATCCACCC TGATCATCAG
    GCAGAGCCAA CCAGTGGAGA GACCTCTGGA AGTTCCTCTC CGATATCAGT CATGGACAGA
    GATTCAGATA TATCTGGGGC CAGAGCCAAA GTCAGACTCC TTGAAGAAGA AGCTGACATT
    CAAGCGACCC ATCCAAGAAA ACGAAAAATG CCTAGAGCTT CTCCGCTAGC CCAAGCAAAT
    CTTACAGCTC AGCAGGTCAG AGAAAAGACA CAGCAGTCCC TCGCTGCGAT TGTAGATGCA
    CTGAAGCTTG AGGAGATTCA GCCTTACCAG ACAGAGAGAG CCAACCCATA TTATGAGTAC
    TTGCACATTC GCAAAAAGAT CGAAGAGAAG AGGAAAGTCC TTTGTAGTGT CATTCCTCAA
    GCGCCTCAGT ACTACGACGA GTATGTGACA TTCAATGGGT CCTATCTGCT GGATGGAAAC
    CCTCTCAGCA AACTCTGCAT CCCAACAATA ACGCCTCCAC CCTCTTTACC TGAACCACTG
    AAGGAGATGT TCAAACAGCA AGAGATGGTG CGGATGAAGC TGAGACTGCA GCACAGCATC
    GAAAGGGAAA AACTGATTGT ATCCAATGAG CAGGAGGTTT TGAGAGTTCA TTACCGCGCT
    GCGAGAACAC TAGCCAATCA GACGCTTCCG TTCAGTGCCT GCACAGTCCT ATTGGATGCC
    GAAGTATACA ACATGCCCCA AGAAGTCCAG GGTGATGATG GGAAGACTTC TGTTCGAGAT
    CGATTCAATG CGAGGCAGTT CATGTCTTGG CTTCAGGATG TAGACGACAA GTTTGACAAG
    TTGAAGACGT GTCTCCTGAT GCGGCAGCAG CATGAAGCGG CAGCGTTAAA CGCAGTCCAG
    CGTCTGGAGT GGCAGCTAAA GCTACAGGAA CTGGATCCCG CCACTTACAA GTCCACCAGC
    ATTTTCGAGA TTCCCGAATT CTACATCCCG CTCGTGGAGG TCAACGACGA CTTCGACCTG
    ACGCCGATAT GA

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

    RefSeq XP_017213405.1
    CDS259..6150
    Translation

    Target ORF information:

    RefSeq Version XM_017357916.1
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio 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_017357916.1

    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
    ATGGCCAAAC CGGGATCCGA CCGAGATGAA GCCATGGTGG AGAAGACAGC GGGGAAGAAG 
    AGTAAAGAGA AAATCTCTCC GTTTGCTAAA ACTCCGAAGC TGGATCGGAG TGAACTCTTG
    GGGAAAGAGG GGAAGTCGAA ATCCTCCATG AAGCGGAAAC TCTCCTTCAC TGTCAGTCCA
    TCCCGAAACG AGGAGCGCGA CTCGGATGCA GACAAAGATG GACCGGATAA GAAGAAGGTT
    AAGAAGGAGT CGGGGGGTAA GAAGTCGACA CCAGTGAATA TTTTGTTCGG GTACCCTTTA
    TCAGAACGAA AGCAGATGGC ACTTGTCATG CAGATGACGG CGAGAGACAA CAGTCCAGAT
    ACCACACCGA ACCACCCGTC TCAATCTCCG GCGGTGCAGA AGAAGATCGC CAGCAGCTCA
    ACCTCACGAC AAAAAGACAA AGTGAACAAA CGCAACGAGA GAGGAGAGAC GCCTCTGCAT
    ATGGCCGCCA TCAGAGGAGA CGTCAAACAA GTGAAGGAGC TCATCGGCCT CGGAGCGGAT
    GTAAACGTCA AAGACTTTGC AGGTTGGACG CCTCTCCATG AAGCCTGCAA CCTTGGTTAC
    TATGATGTAG CCAAGGTTTT GATTGGTGCA GGAGCGGAAG TGAACACGCA GGGATTGGAC
    GATGACACGC CGCTTCATGA CGCCTCAAGC AGTGGACACA AAGACATTGT GAAGCTGCTC
    TTGCGTCATG GAGGCAATGC TTTCCAAGCC AACAAGAGAG GGGAGAGACC GGTTGATGTT
    GCTGACTCTC AGGAGCTGGA GCAGCTACTC AAGGGAGAAA TCCCACTGTC AGAACCAGAA
    GACAGCTCTT CAGAATCAGA GGACCCATCT TCAGTGAATC CATCCAGTGT AGACGAGAAC
    CTGGAGTTTT CTGATGCTGA AAAAGACTCT GACTGTAAAT CGACAACTGT CAAAGCCTCA
    TCGTCCATGT CAGGGCTGGA TGAATATGAG TTTAAAGATG AGGAAGAGGA AGAGGACCTC
    AGTAAGTCAC TTAATGAGCG ACACCTCTTT AGGCGAGAGC TACGGCAAAA GGAGAAGGAG
    GAAAAGGACA GAAACCACTA TGCTTCAAAA CAAGGTAGCA AAAGCGACCA GTCCATGCTG
    GCTTGCAAGT CTAAAAAAAC AAAGGCGTCC CGTGTCTACT GCAGTTCAGA CAGTTCAAGC
    GATGAAGCAG AGGTGCAGAC GGAAAGAAGG AGCTCACCTA CTAGGTCAGT CAGTGTGGAT
    GGACATAAAA CGGACAGTAG ATCGAAAAAA GAAAGCTTGA CTCTAACGCC AGTGGAGCAG
    AAAGAAAAAG GTAAACAGAA GAAAAAGAAC AAGAGCCAAA GCAAAAACAA AGAAAACCAG
    GAAGTCAGAG AAGAAGGGAA AGAGAACAGC AAATCCCTTC TGTTTTCCTC TCCGACTGTG
    TCCGATAATT CTGACAAGGG CGTCAGAGAA GAGGACTCTT TCAAAATGTC ATTCAGTGCA
    AAGGATGACA CATCGGTTCA CCTATTTCAC CTGTCTGTAG TCAAATCCCC AAAGCTGAAC
    CACAGCCAAA CTGACAAGCA GGCAACCCCG CTGAAACAGG AAAACGCTAA GACATGTGTT
    TCAATCGCTG ATGGATCTTG CCCTGGGGAC GGCATCAAAT ATAACCACTA CACAGACTCT
    GACTATTGCA CAGAAGATTC TAGCAGTAAA AGCTGCAAAC ATAAGGAAAA GAGCAAGCAC
    CATCACAAGG AGCCTAACTT GGAAGGAGAT GACGGCAGTT CGAGTCCTTT CAAAGACAGC
    AGTTTAAGCA ACAGTATAGA CAGCTCTGAG GGTGCGTTTA GGAAGACTGA CAAAGATGGG
    AAAGTTGTAA AAAAGCACAA GCTAAAACAC AAGGAGAAGG AAAAGGAGAA ATATAGGAAA
    GAGTACGAGG CAGAGAGGAA TCGCCACCGG CAGAAAGAGC CACGCAAGGA CGGACATAGA
    AACCTCGAGT TTGATCGAGA GTTCTGGAAG GAGAACTTCT TCAAAAGTGA TGAAAATGAG
    GAACCTGTGG GCAAAGGTGA GATACCTGCT GGTGGATCTC CAGTAAAATC CTCAGATTCG
    TCACCTGTTA AAGAGGAAAA AGGGGCATCA AAAGACAAAC ATTCAACTAG TAGCAGTAAC
    AAGGACAGGA GGCCAAAAGA GGAAAGAGAT AAAACCATTA AAAAGGAGAA AAAAGAGATT
    CCTCTTAAAG AGGAGCGAGG AAAAGAAGAT GAAACAGATG AGCGGACTGA TGGTACTTTC
    TCTGTACGAA TTCCTGATGG CTCACAACAC TTGTCAGAAG AAGTGGATGA GAAACCAGCA
    ACTTGTAATT CGGCTGACCA AGAGCAACTG GAGTCTCCAG AGAAGAACTC TCGAGAAAAA
    ACTGATAAGC GACCACCAAC AAAGGATCGG GAATCTGAGA AGTCTGATAA GAGACACTCG
    GATAAAGATA AGAAGGTAAA ATCTGAGCAT TTAGCTGACA AGCCTGAGCT CCACAACTCT
    ACAGATCGAT GGAAGGAAAA GGAGAAATTA ACAAATGTTT CATATTCGCC CAATGATAAG
    AGCCATAAAG AGGGTGAAAA ACTCAAACCA ATGACTCCAG TGAAAAAGCA TGAGGAGAAC
    AAGAAGAATA AGGACAAGCT TGATAAAAAA GCGGAGAAAG AGCACGCTTC TGGTGACCAC
    AGAGACAAAG ATAAAACAAC TTCTGAAAAG AAAGGAAAAG CTCCTGAGAA AACTGCTGAT
    CATGGAAAAT CTGACCGCAG TAAAGACAAA GAACGGGACA AAGATTCTGA CAAGAGGAAA
    AAAGATAAAT CAACCACTCC ATCTTCCTCT TCCTACTCGA ATCTAAAGTC GTTATTGGAA
    GAAAAGAAAG GCTATGTTTG TGAGAATAAT AAGGTTGTCT CATCTAAATC AAAGGAAGAG
    GTAACCAAGC CTTCAGAGAA AGACCGAGAT CGAAGAGAGA GGGACCGGGA GTCTGAAAGA
    CATCGAGATC GGGAACGAGA TCGGCACAAG GAAAAGGACA AAGATCGATC CCAGTTTAAC
    AGGGATGGCA AAATTAACAA ACCGAAACCA AGTGAAGTGG ACTCCAAATC TAAGGTTACA
    CCTATTCTAA AGGATACTCG TCCCAAAGAA AAGAGGCTGG TGAATGATGA CCTCATGAAG
    ACCAGCTTTG AACGCATGCT CAGTCTCAAA GATCAGGAAA TCGAACAGTG GCACAAAAAG
    CACTTGGAGA AAATCAAGCA GAAGGAACGG GAGCGGCTAA AACAGCGTCC TGGAATTGAC
    CCTGCGAAAC AACAAAAAAA CAAGGAAAAA ATTAAATCAT CCTCTACGTC CACTGAGCCA
    TGTCTAACCA AGGAACTAAC TCGGTCAAAG AGCTCAGAAG CGCCAGATGG ACAACGTGAA
    AAGATCTTAA AGGACGCCAC TAGTGTGAGA ACTCTCTCGC TAGATGCAAA AACCTTGGGG
    AAGAACGGTC CTATAATTGA AAACAATCTA AGTCGATCTC CGAGACCAGA AAGTGAAAAA
    TCTGGTCTTA TGTCAAGATC AATATCAATG ATCTCTGTGG CAAGTTCAGA AGACTCCTGC
    CAGGCAACTA TTTTGACACC TAGACCAACT GACCAATATG ATTCTGACAT GAACGTGGAA
    GCCTTAGATT CGCAGCCACC TTTACTTCAG TCTTCCCTTG TTGCACAGTC CTCCAGGTCG
    CCTAGTGTTC ATGATAAAGA TATTAGCAGT CTTCCCGAAT CATCGGCTCT CTGCAATCGC
    ACACCATTGG CAAGCAGGCA TGCATCACCA TGCTTAAGGG CTATTCTGGA TGAAGAAGCC
    AAGGTACCAA CAACTGAAAC AAAACCCACA GAAGAGTCTC CGGTAATCAG TATTGCATCA
    CAACCAACCA GCGAGCAATC TCAAGTTCAT CTAACTGAGA TTAGTGTCCC CCCTGTTCAG
    GAGACTCGGA GCAGTCAAAG TCTTACAAAC TCTTTTCCAG AAAATGAAAT TCTGTCTAGT
    AATGAAGCCG AAGTCGTCAG TTCCACATGT CAAGTACAAC CTTCGCAGGC TAGTGCTAAA
    GACAGTGTAA CACAAGCAAA CAGTGTGTTT CCGAGCCATT TGGAAGAGCA GAACAAGTTT
    TGCACCACTA GTAGTCAAAT AGAGCATGCA AGTCTAGGTC AGCTTGATGT CCCTGGTGCA
    GAGGGAGTAA AAAAGGAGGC TTCACTTGCT GTTGCATCAT TACAGTCATC TCATACATCA
    ACTTCATCAT CAGATTCCAA TGCACATTTG CCTTCGAGTA GTCAGCATTG TGAGATTAGC
    TCTGCTTCCA GTGGTGAACA GACAATGACA ACAGACTCTA GTTTGAGAAC AGAGCAAAGA
    GACAAACCAT TGGTTGCTTC AGAGGACAAG ATTGGGGAAC ATGTCACTAA AACTGATTGC
    GCGAGCACTC CAAGTCCATC TACAGCATCC TGTAGATCCA GCTCTGAGGA ATCTACTAAA
    CCACTGCTGA AGGCGACCAG TGTTCAGGAA GATACTGAAA AGGGCAATGA ACAAGTGCAA
    GAAGAAAGTA TCTCAAGGTT CTCCAATGAC CCATTGGTTG CAGTTGATGC TCAACCAGAG
    AAAGAAGAGC AAGGCCTACA TTTGGCTTCG GTGACAAATG TTTCTTGCTG TGCCAGTCCA
    GAAAGAATCC CAGAGGAGCC CATGGAGGTT CCAGAGGAAG TTTCGGATAA GAGCCGAATC
    ACAGAAATTG ATGAGGCCAA AGTCTTGTCT TCAGAAGAAG GTGCAGTGAC TTCATCTGAA
    AGTAAGGCTG ACTCAGAAAC GCCAGACCCG TTTTCTCTTG ACGAGAAGCC TTTGAAATCG
    GACATTCTGG CTAATGTAGA ACAGGCTCAA AGCAGTGCTC CCATCCACCC TGATCATCAG
    GCAGAGCCAA CCAGTGGAGA GACCTCTGGA AGTTCCTCTC CGATATCAGT CATGGACAGA
    GATTCAGATA TATCTGGGGC CAGAGCCAAA GTCAGACTCC TTGAAGAAGA AGCTGACATT
    CAAGCGACCC ATCCAAGAAA ACGAAAAATG CCTAGAGCTT CTCCGCTAGC CCAAGCAAAT
    CTTACAGCTC AGCAGGTCAG AGAAAAGACA CAGCAGTCCC TCGCTGCGAT TGTAGATGCA
    CTGAAGCTTG AGGAGATTCA GCCTTACCAG ACAGAGAGAG CCAACCCATA TTATGAGTAC
    TTGCACATTC GCAAAAAGAT CGAAGAGAAG AGGAAAGTCC TTTGTAGTGT CATTCCTCAA
    GCGCCTCAGT ACTACGACGA GTATGTGACA TTCAATGGGT CCTATCTGCT GGATGGAAAC
    CCTCTCAGCA AACTCTGCAT CCCAACAATA ACGCCTCCAC CCTCTTTACC TGAACCACTG
    AAGGAGATGT TCAAACAGCA AGAGATGGTG CGGATGAAGC TGAGACTGCA GCACAGCATC
    GAAAGGGAAA AACTGATTGT ATCCAATGAG CAGGAGGTTT TGAGAGTTCA TTACCGCGCT
    GCGAGAACAC TAGCCAATCA GACGCTTCCG TTCAGTGCCT GCACAGTCCT ATTGGATGCC
    GAAGTATACA ACATGCCCCA AGAAGTCCAG GGTGATGATG GGAAGACTTC TGTTCGAGAT
    CGATTCAATG CGAGGCAGTT CATGTCTTGG CTTCAGGATG TAGACGACAA GTTTGACAAG
    TTGAAGACGT GTCTCCTGAT GCGGCAGCAG CATGAAGCGG CAGCGTTAAA CGCAGTCCAG
    CGTCTGGAGT GGCAGCTAAA GCTACAGGAA CTGGATCCCG CCACTTACAA GTCCACCAGC
    ATTTTCGAGA TTCCCGAATT CTACATCCCG CTCGTGGAGG TCAACGACGA CTTCGACCTG
    ACGCCGATAT GA

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

    CloneID ODa56270
    Clone ID Related Accession (Same CDS sequence) XM_017357916.1 , XM_017357916.2
    Accession Version XM_017357916.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5892bp)
    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 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_007113.7) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 15, 2017 this sequence version replaced XM_017357916.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    ATGGCCAAAC CGGGATCCGA CCGAGATGAA GCCATGGTGG AGAAGACAGC GGGGAAGAAG 
    AGTAAAGAGA AAATCTCTCC GTTTGCTAAA ACTCCGAAGC TGGATCGGAG TGAACTCTTG
    GGGAAAGAGG GGAAGTCGAA ATCCTCCATG AAGCGGAAAC TCTCCTTCAC TGTCAGTCCA
    TCCCGAAACG AGGAGCGCGA CTCGGATGCA GACAAAGATG GACCGGATAA GAAGAAGGTT
    AAGAAGGAGT CGGGGGGTAA GAAGTCGACA CCAGTGAATA TTTTGTTCGG GTACCCTTTA
    TCAGAACGAA AGCAGATGGC ACTTGTCATG CAGATGACGG CGAGAGACAA CAGTCCAGAT
    ACCACACCGA ACCACCCGTC TCAATCTCCG GCGGTGCAGA AGAAGATCGC CAGCAGCTCA
    ACCTCACGAC AAAAAGACAA AGTGAACAAA CGCAACGAGA GAGGAGAGAC GCCTCTGCAT
    ATGGCCGCCA TCAGAGGAGA CGTCAAACAA GTGAAGGAGC TCATCGGCCT CGGAGCGGAT
    GTAAACGTCA AAGACTTTGC AGGTTGGACG CCTCTCCATG AAGCCTGCAA CCTTGGTTAC
    TATGATGTAG CCAAGGTTTT GATTGGTGCA GGAGCGGAAG TGAACACGCA GGGATTGGAC
    GATGACACGC CGCTTCATGA CGCCTCAAGC AGTGGACACA AAGACATTGT GAAGCTGCTC
    TTGCGTCATG GAGGCAATGC TTTCCAAGCC AACAAGAGAG GGGAGAGACC GGTTGATGTT
    GCTGACTCTC AGGAGCTGGA GCAGCTACTC AAGGGAGAAA TCCCACTGTC AGAACCAGAA
    GACAGCTCTT CAGAATCAGA GGACCCATCT TCAGTGAATC CATCCAGTGT AGACGAGAAC
    CTGGAGTTTT CTGATGCTGA AAAAGACTCT GACTGTAAAT CGACAACTGT CAAAGCCTCA
    TCGTCCATGT CAGGGCTGGA TGAATATGAG TTTAAAGATG AGGAAGAGGA AGAGGACCTC
    AGTAAGTCAC TTAATGAGCG ACACCTCTTT AGGCGAGAGC TACGGCAAAA GGAGAAGGAG
    GAAAAGGACA GAAACCACTA TGCTTCAAAA CAAGGTAGCA AAAGCGACCA GTCCATGCTG
    GCTTGCAAGT CTAAAAAAAC AAAGGCGTCC CGTGTCTACT GCAGTTCAGA CAGTTCAAGC
    GATGAAGCAG AGGTGCAGAC GGAAAGAAGG AGCTCACCTA CTAGGTCAGT CAGTGTGGAT
    GGACATAAAA CGGACAGTAG ATCGAAAAAA GAAAGCTTGA CTCTAACGCC AGTGGAGCAG
    AAAGAAAAAG GTAAACAGAA GAAAAAGAAC AAGAGCCAAA GCAAAAACAA AGAAAACCAG
    GAAGTCAGAG AAGAAGGGAA AGAGAACAGC AAATCCCTTC TGTTTTCCTC TCCGACTGTG
    TCCGATAATT CTGACAAGGG CGTCAGAGAA GAGGACTCTT TCAAAATGTC ATTCAGTGCA
    AAGGATGACA CATCGGTTCA CCTATTTCAC CTGTCTGTAG TCAAATCCCC AAAGCTGAAC
    CACAGCCAAA CTGACAAGCA GGCAACCCCG CTGAAACAGG AAAACGCTAA GACATGTGTT
    TCAATCGCTG ATGGATCTTG CCCTGGGGAC GGCATCAAAT ATAACCACTA CACAGACTCT
    GACTATTGCA CAGAAGATTC TAGCAGTAAA AGCTGCAAAC ATAAGGAAAA GAGCAAGCAC
    CATCACAAGG AGCCTAACTT GGAAGGAGAT GACGGCAGTT CGAGTCCTTT CAAAGACAGC
    AGTTTAAGCA ACAGTATAGA CAGCTCTGAG GGTGCGTTTA GGAAGACTGA CAAAGATGGG
    AAAGTTGTAA AAAAGCACAA GCTAAAACAC AAGGAGAAGG AAAAGGAGAA ATATAGGAAA
    GAGTACGAGG CAGAGAGGAA TCGCCACCGG CAGAAAGAGC CACGCAAGGA CGGACATAGA
    AACCTCGAGT TTGATCGAGA GTTCTGGAAG GAGAACTTCT TCAAAAGTGA TGAAAATGAG
    GAACCTGTGG GCAAAGGTGA GATACCTGCT GGTGGATCTC CAGTAAAATC CTCAGATTCG
    TCACCTGTTA AAGAGGAAAA AGGGGCATCA AAAGACAAAC ATTCAACTAG TAGCAGTAAC
    AAGGACAGGA GGCCAAAAGA GGAAAGAGAT AAAACCATTA AAAAGGAGAA AAAAGAGATT
    CCTCTTAAAG AGGAGCGAGG AAAAGAAGAT GAAACAGATG AGCGGACTGA TGGTACTTTC
    TCTGTACGAA TTCCTGATGG CTCACAACAC TTGTCAGAAG AAGTGGATGA GAAACCAGCA
    ACTTGTAATT CGGCTGACCA AGAGCAACTG GAGTCTCCAG AGAAGAACTC TCGAGAAAAA
    ACTGATAAGC GACCACCAAC AAAGGATCGG GAATCTGAGA AGTCTGATAA GAGACACTCG
    GATAAAGATA AGAAGGTAAA ATCTGAGCAT TTAGCTGACA AGCCTGAGCT CCACAACTCT
    ACAGATCGAT GGAAGGAAAA GGAGAAATTA ACAAATGTTT CATATTCGCC CAATGATAAG
    AGCCATAAAG AGGGTGAAAA ACTCAAACCA ATGACTCCAG TGAAAAAGCA TGAGGAGAAC
    AAGAAGAATA AGGACAAGCT TGATAAAAAA GCGGAGAAAG AGCACGCTTC TGGTGACCAC
    AGAGACAAAG ATAAAACAAC TTCTGAAAAG AAAGGAAAAG CTCCTGAGAA AACTGCTGAT
    CATGGAAAAT CTGACCGCAG TAAAGACAAA GAACGGGACA AAGATTCTGA CAAGAGGAAA
    AAAGATAAAT CAACCACTCC ATCTTCCTCT TCCTACTCGA ATCTAAAGTC GTTATTGGAA
    GAAAAGAAAG GCTATGTTTG TGAGAATAAT AAGGTTGTCT CATCTAAATC AAAGGAAGAG
    GTAACCAAGC CTTCAGAGAA AGACCGAGAT CGAAGAGAGA GGGACCGGGA GTCTGAAAGA
    CATCGAGATC GGGAACGAGA TCGGCACAAG GAAAAGGACA AAGATCGATC CCAGTTTAAC
    AGGGATGGCA AAATTAACAA ACCGAAACCA AGTGAAGTGG ACTCCAAATC TAAGGTTACA
    CCTATTCTAA AGGATACTCG TCCCAAAGAA AAGAGGCTGG TGAATGATGA CCTCATGAAG
    ACCAGCTTTG AACGCATGCT CAGTCTCAAA GATCAGGAAA TCGAACAGTG GCACAAAAAG
    CACTTGGAGA AAATCAAGCA GAAGGAACGG GAGCGGCTAA AACAGCGTCC TGGAATTGAC
    CCTGCGAAAC AACAAAAAAA CAAGGAAAAA ATTAAATCAT CCTCTACGTC CACTGAGCCA
    TGTCTAACCA AGGAACTAAC TCGGTCAAAG AGCTCAGAAG CGCCAGATGG ACAACGTGAA
    AAGATCTTAA AGGACGCCAC TAGTGTGAGA ACTCTCTCGC TAGATGCAAA AACCTTGGGG
    AAGAACGGTC CTATAATTGA AAACAATCTA AGTCGATCTC CGAGACCAGA AAGTGAAAAA
    TCTGGTCTTA TGTCAAGATC AATATCAATG ATCTCTGTGG CAAGTTCAGA AGACTCCTGC
    CAGGCAACTA TTTTGACACC TAGACCAACT GACCAATATG ATTCTGACAT GAACGTGGAA
    GCCTTAGATT CGCAGCCACC TTTACTTCAG TCTTCCCTTG TTGCACAGTC CTCCAGGTCG
    CCTAGTGTTC ATGATAAAGA TATTAGCAGT CTTCCCGAAT CATCGGCTCT CTGCAATCGC
    ACACCATTGG CAAGCAGGCA TGCATCACCA TGCTTAAGGG CTATTCTGGA TGAAGAAGCC
    AAGGTACCAA CAACTGAAAC AAAACCCACA GAAGAGTCTC CGGTAATCAG TATTGCATCA
    CAACCAACCA GCGAGCAATC TCAAGTTCAT CTAACTGAGA TTAGTGTCCC CCCTGTTCAG
    GAGACTCGGA GCAGTCAAAG TCTTACAAAC TCTTTTCCAG AAAATGAAAT TCTGTCTAGT
    AATGAAGCCG AAGTCGTCAG TTCCACATGT CAAGTACAAC CTTCGCAGGC TAGTGCTAAA
    GACAGTGTAA CACAAGCAAA CAGTGTGTTT CCGAGCCATT TGGAAGAGCA GAACAAGTTT
    TGCACCACTA GTAGTCAAAT AGAGCATGCA AGTCTAGGTC AGCTTGATGT CCCTGGTGCA
    GAGGGAGTAA AAAAGGAGGC TTCACTTGCT GTTGCATCAT TACAGTCATC TCATACATCA
    ACTTCATCAT CAGATTCCAA TGCACATTTG CCTTCGAGTA GTCAGCATTG TGAGATTAGC
    TCTGCTTCCA GTGGTGAACA GACAATGACA ACAGACTCTA GTTTGAGAAC AGAGCAAAGA
    GACAAACCAT TGGTTGCTTC AGAGGACAAG ATTGGGGAAC ATGTCACTAA AACTGATTGC
    GCGAGCACTC CAAGTCCATC TACAGCATCC TGTAGATCCA GCTCTGAGGA ATCTACTAAA
    CCACTGCTGA AGGCGACCAG TGTTCAGGAA GATACTGAAA AGGGCAATGA ACAAGTGCAA
    GAAGAAAGTA TCTCAAGGTT CTCCAATGAC CCATTGGTTG CAGTTGATGC TCAACCAGAG
    AAAGAAGAGC AAGGCCTACA TTTGGCTTCG GTGACAAATG TTTCTTGCTG TGCCAGTCCA
    GAAAGAATCC CAGAGGAGCC CATGGAGGTT CCAGAGGAAG TTTCGGATAA GAGCCGAATC
    ACAGAAATTG ATGAGGCCAA AGTCTTGTCT TCAGAAGAAG GTGCAGTGAC TTCATCTGAA
    AGTAAGGCTG ACTCAGAAAC GCCAGACCCG TTTTCTCTTG ACGAGAAGCC TTTGAAATCG
    GACATTCTGG CTAATGTAGA ACAGGCTCAA AGCAGTGCTC CCATCCACCC TGATCATCAG
    GCAGAGCCAA CCAGTGGAGA GACCTCTGGA AGTTCCTCTC CGATATCAGT CATGGACAGA
    GATTCAGATA TATCTGGGGC CAGAGCCAAA GTCAGACTCC TTGAAGAAGA AGCTGACATT
    CAAGCGACCC ATCCAAGAAA ACGAAAAATG CCTAGAGCTT CTCCGCTAGC CCAAGCAAAT
    CTTACAGCTC AGCAGGTCAG AGAAAAGACA CAGCAGTCCC TCGCTGCGAT TGTAGATGCA
    CTGAAGCTTG AGGAGATTCA GCCTTACCAG ACAGAGAGAG CCAACCCATA TTATGAGTAC
    TTGCACATTC GCAAAAAGAT CGAAGAGAAG AGGAAAGTCC TTTGTAGTGT CATTCCTCAA
    GCGCCTCAGT ACTACGACGA GTATGTGACA TTCAATGGGT CCTATCTGCT GGATGGAAAC
    CCTCTCAGCA AACTCTGCAT CCCAACAATA ACGCCTCCAC CCTCTTTACC TGAACCACTG
    AAGGAGATGT TCAAACAGCA AGAGATGGTG CGGATGAAGC TGAGACTGCA GCACAGCATC
    GAAAGGGAAA AACTGATTGT ATCCAATGAG CAGGAGGTTT TGAGAGTTCA TTACCGCGCT
    GCGAGAACAC TAGCCAATCA GACGCTTCCG TTCAGTGCCT GCACAGTCCT ATTGGATGCC
    GAAGTATACA ACATGCCCCA AGAAGTCCAG GGTGATGATG GGAAGACTTC TGTTCGAGAT
    CGATTCAATG CGAGGCAGTT CATGTCTTGG CTTCAGGATG TAGACGACAA GTTTGACAAG
    TTGAAGACGT GTCTCCTGAT GCGGCAGCAG CATGAAGCGG CAGCGTTAAA CGCAGTCCAG
    CGTCTGGAGT GGCAGCTAAA GCTACAGGAA CTGGATCCCG CCACTTACAA GTCCACCAGC
    ATTTTCGAGA TTCCCGAATT CTACATCCCG CTCGTGGAGG TCAACGACGA CTTCGACCTG
    ACGCCGATAT GA

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

    RefSeq XP_017213405.1
    CDS259..6150
    Translation

    Target ORF information:

    RefSeq Version XM_017357916.2
    Organism Danio rerio(zebrafish)
    Definition Danio rerio 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_017357916.2

    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
    ATGGCCAAAC CGGGATCCGA CCGAGATGAA GCCATGGTGG AGAAGACAGC GGGGAAGAAG 
    AGTAAAGAGA AAATCTCTCC GTTTGCTAAA ACTCCGAAGC TGGATCGGAG TGAACTCTTG
    GGGAAAGAGG GGAAGTCGAA ATCCTCCATG AAGCGGAAAC TCTCCTTCAC TGTCAGTCCA
    TCCCGAAACG AGGAGCGCGA CTCGGATGCA GACAAAGATG GACCGGATAA GAAGAAGGTT
    AAGAAGGAGT CGGGGGGTAA GAAGTCGACA CCAGTGAATA TTTTGTTCGG GTACCCTTTA
    TCAGAACGAA AGCAGATGGC ACTTGTCATG CAGATGACGG CGAGAGACAA CAGTCCAGAT
    ACCACACCGA ACCACCCGTC TCAATCTCCG GCGGTGCAGA AGAAGATCGC CAGCAGCTCA
    ACCTCACGAC AAAAAGACAA AGTGAACAAA CGCAACGAGA GAGGAGAGAC GCCTCTGCAT
    ATGGCCGCCA TCAGAGGAGA CGTCAAACAA GTGAAGGAGC TCATCGGCCT CGGAGCGGAT
    GTAAACGTCA AAGACTTTGC AGGTTGGACG CCTCTCCATG AAGCCTGCAA CCTTGGTTAC
    TATGATGTAG CCAAGGTTTT GATTGGTGCA GGAGCGGAAG TGAACACGCA GGGATTGGAC
    GATGACACGC CGCTTCATGA CGCCTCAAGC AGTGGACACA AAGACATTGT GAAGCTGCTC
    TTGCGTCATG GAGGCAATGC TTTCCAAGCC AACAAGAGAG GGGAGAGACC GGTTGATGTT
    GCTGACTCTC AGGAGCTGGA GCAGCTACTC AAGGGAGAAA TCCCACTGTC AGAACCAGAA
    GACAGCTCTT CAGAATCAGA GGACCCATCT TCAGTGAATC CATCCAGTGT AGACGAGAAC
    CTGGAGTTTT CTGATGCTGA AAAAGACTCT GACTGTAAAT CGACAACTGT CAAAGCCTCA
    TCGTCCATGT CAGGGCTGGA TGAATATGAG TTTAAAGATG AGGAAGAGGA AGAGGACCTC
    AGTAAGTCAC TTAATGAGCG ACACCTCTTT AGGCGAGAGC TACGGCAAAA GGAGAAGGAG
    GAAAAGGACA GAAACCACTA TGCTTCAAAA CAAGGTAGCA AAAGCGACCA GTCCATGCTG
    GCTTGCAAGT CTAAAAAAAC AAAGGCGTCC CGTGTCTACT GCAGTTCAGA CAGTTCAAGC
    GATGAAGCAG AGGTGCAGAC GGAAAGAAGG AGCTCACCTA CTAGGTCAGT CAGTGTGGAT
    GGACATAAAA CGGACAGTAG ATCGAAAAAA GAAAGCTTGA CTCTAACGCC AGTGGAGCAG
    AAAGAAAAAG GTAAACAGAA GAAAAAGAAC AAGAGCCAAA GCAAAAACAA AGAAAACCAG
    GAAGTCAGAG AAGAAGGGAA AGAGAACAGC AAATCCCTTC TGTTTTCCTC TCCGACTGTG
    TCCGATAATT CTGACAAGGG CGTCAGAGAA GAGGACTCTT TCAAAATGTC ATTCAGTGCA
    AAGGATGACA CATCGGTTCA CCTATTTCAC CTGTCTGTAG TCAAATCCCC AAAGCTGAAC
    CACAGCCAAA CTGACAAGCA GGCAACCCCG CTGAAACAGG AAAACGCTAA GACATGTGTT
    TCAATCGCTG ATGGATCTTG CCCTGGGGAC GGCATCAAAT ATAACCACTA CACAGACTCT
    GACTATTGCA CAGAAGATTC TAGCAGTAAA AGCTGCAAAC ATAAGGAAAA GAGCAAGCAC
    CATCACAAGG AGCCTAACTT GGAAGGAGAT GACGGCAGTT CGAGTCCTTT CAAAGACAGC
    AGTTTAAGCA ACAGTATAGA CAGCTCTGAG GGTGCGTTTA GGAAGACTGA CAAAGATGGG
    AAAGTTGTAA AAAAGCACAA GCTAAAACAC AAGGAGAAGG AAAAGGAGAA ATATAGGAAA
    GAGTACGAGG CAGAGAGGAA TCGCCACCGG CAGAAAGAGC CACGCAAGGA CGGACATAGA
    AACCTCGAGT TTGATCGAGA GTTCTGGAAG GAGAACTTCT TCAAAAGTGA TGAAAATGAG
    GAACCTGTGG GCAAAGGTGA GATACCTGCT GGTGGATCTC CAGTAAAATC CTCAGATTCG
    TCACCTGTTA AAGAGGAAAA AGGGGCATCA AAAGACAAAC ATTCAACTAG TAGCAGTAAC
    AAGGACAGGA GGCCAAAAGA GGAAAGAGAT AAAACCATTA AAAAGGAGAA AAAAGAGATT
    CCTCTTAAAG AGGAGCGAGG AAAAGAAGAT GAAACAGATG AGCGGACTGA TGGTACTTTC
    TCTGTACGAA TTCCTGATGG CTCACAACAC TTGTCAGAAG AAGTGGATGA GAAACCAGCA
    ACTTGTAATT CGGCTGACCA AGAGCAACTG GAGTCTCCAG AGAAGAACTC TCGAGAAAAA
    ACTGATAAGC GACCACCAAC AAAGGATCGG GAATCTGAGA AGTCTGATAA GAGACACTCG
    GATAAAGATA AGAAGGTAAA ATCTGAGCAT TTAGCTGACA AGCCTGAGCT CCACAACTCT
    ACAGATCGAT GGAAGGAAAA GGAGAAATTA ACAAATGTTT CATATTCGCC CAATGATAAG
    AGCCATAAAG AGGGTGAAAA ACTCAAACCA ATGACTCCAG TGAAAAAGCA TGAGGAGAAC
    AAGAAGAATA AGGACAAGCT TGATAAAAAA GCGGAGAAAG AGCACGCTTC TGGTGACCAC
    AGAGACAAAG ATAAAACAAC TTCTGAAAAG AAAGGAAAAG CTCCTGAGAA AACTGCTGAT
    CATGGAAAAT CTGACCGCAG TAAAGACAAA GAACGGGACA AAGATTCTGA CAAGAGGAAA
    AAAGATAAAT CAACCACTCC ATCTTCCTCT TCCTACTCGA ATCTAAAGTC GTTATTGGAA
    GAAAAGAAAG GCTATGTTTG TGAGAATAAT AAGGTTGTCT CATCTAAATC AAAGGAAGAG
    GTAACCAAGC CTTCAGAGAA AGACCGAGAT CGAAGAGAGA GGGACCGGGA GTCTGAAAGA
    CATCGAGATC GGGAACGAGA TCGGCACAAG GAAAAGGACA AAGATCGATC CCAGTTTAAC
    AGGGATGGCA AAATTAACAA ACCGAAACCA AGTGAAGTGG ACTCCAAATC TAAGGTTACA
    CCTATTCTAA AGGATACTCG TCCCAAAGAA AAGAGGCTGG TGAATGATGA CCTCATGAAG
    ACCAGCTTTG AACGCATGCT CAGTCTCAAA GATCAGGAAA TCGAACAGTG GCACAAAAAG
    CACTTGGAGA AAATCAAGCA GAAGGAACGG GAGCGGCTAA AACAGCGTCC TGGAATTGAC
    CCTGCGAAAC AACAAAAAAA CAAGGAAAAA ATTAAATCAT CCTCTACGTC CACTGAGCCA
    TGTCTAACCA AGGAACTAAC TCGGTCAAAG AGCTCAGAAG CGCCAGATGG ACAACGTGAA
    AAGATCTTAA AGGACGCCAC TAGTGTGAGA ACTCTCTCGC TAGATGCAAA AACCTTGGGG
    AAGAACGGTC CTATAATTGA AAACAATCTA AGTCGATCTC CGAGACCAGA AAGTGAAAAA
    TCTGGTCTTA TGTCAAGATC AATATCAATG ATCTCTGTGG CAAGTTCAGA AGACTCCTGC
    CAGGCAACTA TTTTGACACC TAGACCAACT GACCAATATG ATTCTGACAT GAACGTGGAA
    GCCTTAGATT CGCAGCCACC TTTACTTCAG TCTTCCCTTG TTGCACAGTC CTCCAGGTCG
    CCTAGTGTTC ATGATAAAGA TATTAGCAGT CTTCCCGAAT CATCGGCTCT CTGCAATCGC
    ACACCATTGG CAAGCAGGCA TGCATCACCA TGCTTAAGGG CTATTCTGGA TGAAGAAGCC
    AAGGTACCAA CAACTGAAAC AAAACCCACA GAAGAGTCTC CGGTAATCAG TATTGCATCA
    CAACCAACCA GCGAGCAATC TCAAGTTCAT CTAACTGAGA TTAGTGTCCC CCCTGTTCAG
    GAGACTCGGA GCAGTCAAAG TCTTACAAAC TCTTTTCCAG AAAATGAAAT TCTGTCTAGT
    AATGAAGCCG AAGTCGTCAG TTCCACATGT CAAGTACAAC CTTCGCAGGC TAGTGCTAAA
    GACAGTGTAA CACAAGCAAA CAGTGTGTTT CCGAGCCATT TGGAAGAGCA GAACAAGTTT
    TGCACCACTA GTAGTCAAAT AGAGCATGCA AGTCTAGGTC AGCTTGATGT CCCTGGTGCA
    GAGGGAGTAA AAAAGGAGGC TTCACTTGCT GTTGCATCAT TACAGTCATC TCATACATCA
    ACTTCATCAT CAGATTCCAA TGCACATTTG CCTTCGAGTA GTCAGCATTG TGAGATTAGC
    TCTGCTTCCA GTGGTGAACA GACAATGACA ACAGACTCTA GTTTGAGAAC AGAGCAAAGA
    GACAAACCAT TGGTTGCTTC AGAGGACAAG ATTGGGGAAC ATGTCACTAA AACTGATTGC
    GCGAGCACTC CAAGTCCATC TACAGCATCC TGTAGATCCA GCTCTGAGGA ATCTACTAAA
    CCACTGCTGA AGGCGACCAG TGTTCAGGAA GATACTGAAA AGGGCAATGA ACAAGTGCAA
    GAAGAAAGTA TCTCAAGGTT CTCCAATGAC CCATTGGTTG CAGTTGATGC TCAACCAGAG
    AAAGAAGAGC AAGGCCTACA TTTGGCTTCG GTGACAAATG TTTCTTGCTG TGCCAGTCCA
    GAAAGAATCC CAGAGGAGCC CATGGAGGTT CCAGAGGAAG TTTCGGATAA GAGCCGAATC
    ACAGAAATTG ATGAGGCCAA AGTCTTGTCT TCAGAAGAAG GTGCAGTGAC TTCATCTGAA
    AGTAAGGCTG ACTCAGAAAC GCCAGACCCG TTTTCTCTTG ACGAGAAGCC TTTGAAATCG
    GACATTCTGG CTAATGTAGA ACAGGCTCAA AGCAGTGCTC CCATCCACCC TGATCATCAG
    GCAGAGCCAA CCAGTGGAGA GACCTCTGGA AGTTCCTCTC CGATATCAGT CATGGACAGA
    GATTCAGATA TATCTGGGGC CAGAGCCAAA GTCAGACTCC TTGAAGAAGA AGCTGACATT
    CAAGCGACCC ATCCAAGAAA ACGAAAAATG CCTAGAGCTT CTCCGCTAGC CCAAGCAAAT
    CTTACAGCTC AGCAGGTCAG AGAAAAGACA CAGCAGTCCC TCGCTGCGAT TGTAGATGCA
    CTGAAGCTTG AGGAGATTCA GCCTTACCAG ACAGAGAGAG CCAACCCATA TTATGAGTAC
    TTGCACATTC GCAAAAAGAT CGAAGAGAAG AGGAAAGTCC TTTGTAGTGT CATTCCTCAA
    GCGCCTCAGT ACTACGACGA GTATGTGACA TTCAATGGGT CCTATCTGCT GGATGGAAAC
    CCTCTCAGCA AACTCTGCAT CCCAACAATA ACGCCTCCAC CCTCTTTACC TGAACCACTG
    AAGGAGATGT TCAAACAGCA AGAGATGGTG CGGATGAAGC TGAGACTGCA GCACAGCATC
    GAAAGGGAAA AACTGATTGT ATCCAATGAG CAGGAGGTTT TGAGAGTTCA TTACCGCGCT
    GCGAGAACAC TAGCCAATCA GACGCTTCCG TTCAGTGCCT GCACAGTCCT ATTGGATGCC
    GAAGTATACA ACATGCCCCA AGAAGTCCAG GGTGATGATG GGAAGACTTC TGTTCGAGAT
    CGATTCAATG CGAGGCAGTT CATGTCTTGG CTTCAGGATG TAGACGACAA GTTTGACAAG
    TTGAAGACGT GTCTCCTGAT GCGGCAGCAG CATGAAGCGG CAGCGTTAAA CGCAGTCCAG
    CGTCTGGAGT GGCAGCTAAA GCTACAGGAA CTGGATCCCG CCACTTACAA GTCCACCAGC
    ATTTTCGAGA TTCCCGAATT CTACATCCCG CTCGTGGAGG TCAACGACGA CTTCGACCTG
    ACGCCGATAT GA

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