wdr19 cDNA ORF clone, Danio rerio(zebrafish)

The following wdr19 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the wdr19 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
ODa144241 XM_021471185.1
Latest version!
Danio rerio WD repeat domain 19 (wdr19), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
ODa144242 XM_021471186.1
Latest version!
Danio rerio WD repeat domain 19 (wdr19), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
ODa53879 XM_017356042.1
Latest version!
Danio rerio WD repeat domain 19 (wdr19), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $629.30
$899.00
ODa05697 XM_005170934.3
Latest version!
Danio rerio WD repeat domain 19 (wdr19), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
ODa05697 XM_021476315.1
Latest version!
Danio rerio WD repeat domain 19 (wdr19), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
ODa42354 XM_009291110.2
Latest version!
Danio rerio WD repeat domain 19 (wdr19), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00

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

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

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

  • Reference Sequences (Refseq)
    CloneID ODa144241
    Clone ID Related Accession (Same CDS sequence) XM_021471185.1
    Accession Version XM_021471185.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4047bp)
    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 WD repeat-containing protein 19 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_018394478.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGAAGCGTG TTTTCACGCT GTCAGAAAAG TCCTGGTCTG GATCATGTTT GCAATACAAG 
    TGGCAAAAAA CAGTGGGAAA CTATCTTGCT GTTGCAGGCC CTGACAATTT AGTGAAAATC
    TTCGATCGGC ATGGACAGAA GGTGAATGAG TTAATTCTCC CTGGCAATTG TGTATCTCTT
    GACTGGGATA AAGATGGCGA TATTTTGGCG GTGATTGCTG AGAAGTCTAG TTCTGTTTAC
    TTGTGGGATG CGAATGTCAA CAAAACCTCA CAGCTGGACA GTGGTATGAG AGATCAGATG
    TCATTTCTGC TGTGGTCCAA AACTGGGCCA CTATTGGCTG TTGGCACGTC CAAAGGCAAC
    CTACTGATCT ACAATCAGCA AACATCACGG AAGATTCCTG TTCTGGGTAA ACACACAAAG
    AAAATCACAT GTGGCTGCTG GAGCTCTCAG AACCTCCTGG CGTTGGGTAG CGAAGACCGC
    AGCATAACAA TCAGCAACCA CGAGGGAGAC ACCATTCGAC AGACCTCTGT GAGAGCTGAC
    CCTGCAGATG TTCAATTCTC TGTGATGAAA ACAGATGAGA GATCATCTCC AGGGCAAAGT
    ACTGTGAGTG TGGCTTTAGG TAAGAAGACG CTGTTTCTGT TTAACCTGAA TGATCCTGAT
    AACCCTATAG AACTGGCCTT CCAGCAGCGT TATGGCAACA TCATCTCCTA CCGCTGGTAT
    GGAGATGGCT ATATCATGAT TGGGTTTTCG CATGGTTATT TTGTGGTCAT TTCCACGCAC
    ATCCGTGAGA TTGGTCAAGA GTTGTTTCAG GCACACAATC ATAAAGACAG CCTGACAAGC
    ATCGCCATCT CACAGTCTCT AAACAAGGCC GCATCCTGTG GAGACAACTG TATCAAGATA
    CATGACCTGA CTGATCTGAA GGAGATGTAT GCTATAGTCA CTCTGGATGA GGAGACCAAA
    GGCCTTGATC AGATGTGTTG GACGGATGAC GGGCAGCTGT TAGCCGTGTC GTCTCAGCAG
    GGCACTTTGC ATGTCTTTCT CACCAAGCTG CCTATACTGG GAGACAGCAG TGGCACCAGA
    ATTGCCTATC TTACATCCCT GCTGGAGGTT ACAGTCGCTA ATCCAGTGGA AGGGGAATCC
    CCTGTTCCAG TTGCAGTTGA GGTGGAACCC AGTTTTATAG CTGTGGGACC ATATCATGTA
    GCTGTGGGCA TGAATAACAG AGCGTGGTTT TATGCATTAG GAGATAGCGG TGTGGAGCGT
    GTAAAGGACA CTGAGTATTT AGGGACAGTG GCCAGTATGT GTCTGAACTG TGACTATGCT
    GCTGCTCTGT TTGAGGGGAA ACTTCAGTTG CATGTGATTG ATGGAGATGA GCAGGTTGTT
    CAAGAGGACA GACAGACCAA ACTTTTTCCA GAACCCGATC AGAAATACAG AATCCTCAGT
    CATGCTCTCA CCTCTGATTT TCTCTATTAT GGGACTGATA CCGGGTTGAT TCAGTGTTTC
    TATTTCGAAG ATTGGCAGAG TGTGACTGAG TATCGACACA CAGTGGGTGT ACGCAAAGTC
    TTTCCAGACC CCAATGGAAC ACGTCTTGTT TTTATCGATG AAAAAAGTGA CGGCTTCCTA
    TACTGCCCGG TGAATGACTC AGTGTTTGAG ATCCCAGACT TTTCTCCTGC TATTAAAGGG
    GTGTTGTGGG AAAACTGGAT CAGCAGTAAG GGTGTGTTTG TAGCCTATGA AGAAGACAAA
    GTCTATACGT ATGCCTTCCA CAAAGACACC ATACAAGGTT CGAAAGTGAT TCTAGTTGGA
    GGCACCAAGT TGCCTTTTTC CCATAAGCCC TTGCTGTTGC ATAATGGCGA GCTGACATGT
    CAGACCCAGA GTGGGAAAAT CAACAGCGTG GTTCTGAACA CACATGCCTT CCTTAACAAC
    CAACACAGTG AATCCAGCAA AGACAAACTC CAGTCATTTC TGCAGCAGGC TGTCATGCTG
    AAACGGTTTT CAGATGCGTG GAGTATCTGT AAAGCTCTGA ACAGCAGTGA GGCGTGGGGT
    GAGCTGGGCA GGGCTTGTCT GCACCACATG GAGGTGGAAC TGGCCATCAG AGTGTATCGC
    ATGATGGGAA ATGTTGGCAT GGTCATGTCT CTAGAGGACA TTAAGGGAAT AGAGGATCAA
    AATTTGCTGG CGGGTCATTT GGCCATGTTC TGCAATGACT ACAACCGAGC CCAGGACCTC
    TATCTAACAT CTTCATATCC TATGGCGGCC CTAGAGATGA GAAGGGATCT GCAGCATTGG
    GACAGTGCAT TGCAGCTGGC TAAAAGACTG GACCCAGATG AGATCCCATT TATTTCTAAA
    GAATATGCAA TACAACTGGA GTTTGTTGGA GATTATGTGA ATGCATTGGC TCACTATGAG
    AAAGGAACAA CAGGAAACAA CAAGTTTCAG GATCATGATG AGAGCTGTCT GGCAGGAGTG
    GCTCGTATGT CTATTCGAAT GGGTGACATT CGTAGAGGAG CAAACCAGGC CATCAAACAC
    CCCAGTAAAG CTCTGAAAAA AGACTGCGGA GCCATCCTGG AGAGCATGAA GCAATACTCA
    GAAGCAGCTC AGCTGTATGA GAAAGGCCAG TACTATGACA AAGCTGCCTC TGTCTACATA
    CGCTGTAAAA ACTGGGCAAA GGTGGGAGAG CTCTTGCCCA ATGTGACTTC CCCAAAGATT
    CACCTTCAGT ACGCTAAGGC AAAAGAAGCT GATGGAAAAT ATAAAGAGGC AGCTATGGCC
    TATGAAAGTG CACGAGATTG GGACAACGTG ATTCGAATCT TGCTGGAGCA TCTTAACAAC
    CCAGAGGAAG CTGTGCGCAT TGTACGAGAA ACTCATTCTA TCGAAGGAGC CAAAATGGTT
    GCCAGGTTTT TCCTGCGTTT GAGTGATTAC GGATCAGCCA TCCAGTTCTT GGTCTTGTCA
    CGTTGCAGCG ACGAAGCATT TCAGCTAGCC CAGCAGCACG GCCAGATGGA GGTCTACGCT
    GACATCATTG GTTCGGAGGC CACAATAGAG GATTATCAGA GCATAGCACT TTATTTTGAA
    GGGGAGAAGA ATCATCTTCA GGCTGGGAAG TTCTTTCAGA AGTGCGGACA GTACAGCAGG
    GCGCTGAAGC ACTTTTTGAA ATGTCCTAGC TCTGATGACA GTGTGGCCAT AGAGATGGCA
    ATTGAGGCGG TTGGAGAAGC TAAGGATGAA TCTTTAACCA ACCAGCTTAT TGATCATCTG
    ATGGGGGAAA GTGATGGAAT GCCAAAGTCT CTCGCCGATG CAAAATATCT TTTCCGGTTG
    TATATGGCTC TCAAACAGTA CAGAGAGGCA GCAAGAACTG CGATAATAAT CGCCAGAGAG
    GAGCAATCTG CAGGAAACTA CCGGAATGCC CATGATGTTT TGTTCAGCAT GTACGCTGAG
    CTTCAGACGC AGCACATTAA AATCCCCGCA GAGATGGCCA CAAACCTGAT GATCCTGCAC
    AGCTACATAT TAGTGAAGAT TCATGTTAAA AGAGGAGATC ATTTAAAGGG GGCACGAATG
    CTTATCCGCG TGTCCAACAA TATCAGCAAA TTCCCATCCC ACATTGTTCC AATCCTCACA
    TCAGCGGTCA TTGAATGTCA TCGTGCTGGG TTAAGAAACT CTGCCTTCAG TTTTGCCTCA
    ATGCTGATGA GACCAGAGTA TCGTAACAAG ATCGATCTGA AATACAAGAA GAAGATAGAA
    GCCATGGTCC GTCGTCCAGA TACTTCAGAG GTGGAGGAGG AGAGTTCACC CTGTCCCTAC
    TGCGGCTTCA GCCTGCCCGA CTGTGAGCTG CTGTGTCCCG GCTGCAAAAA CAATCTGCCT
    TACTGCATCG CCACAGGTCG TCACATGGTC AAGGAGGATT GGTGTGTCTG CCCACAATGT
    GATTTTCCTG CTCTTCATTC GCAGTTCACC CAGCTGTTAG AGACTGAGTC GGTTTGCCCC
    ATGTGCTCGG AGGCTTTAAA TGTCAGTGAG GTGAAAAAGG TTTTGGAGTG CTCCAAATAT
    CTGCAACAGG ACCAACTTGA GCACTGA

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

    RefSeq XP_021326860.1
    CDS81..4127
    Translation

    Target ORF information:

    RefSeq Version XM_021471185.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio WD repeat domain 19 (wdr19), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021471185.1

    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
    ATGAAGCGTG TTTTCACGCT GTCAGAAAAG TCCTGGTCTG GATCATGTTT GCAATACAAG 
    TGGCAAAAAA CAGTGGGAAA CTATCTTGCT GTTGCAGGCC CTGACAATTT AGTGAAAATC
    TTCGATCGGC ATGGACAGAA GGTGAATGAG TTAATTCTCC CTGGCAATTG TGTATCTCTT
    GACTGGGATA AAGATGGCGA TATTTTGGCG GTGATTGCTG AGAAGTCTAG TTCTGTTTAC
    TTGTGGGATG CGAATGTCAA CAAAACCTCA CAGCTGGACA GTGGTATGAG AGATCAGATG
    TCATTTCTGC TGTGGTCCAA AACTGGGCCA CTATTGGCTG TTGGCACGTC CAAAGGCAAC
    CTACTGATCT ACAATCAGCA AACATCACGG AAGATTCCTG TTCTGGGTAA ACACACAAAG
    AAAATCACAT GTGGCTGCTG GAGCTCTCAG AACCTCCTGG CGTTGGGTAG CGAAGACCGC
    AGCATAACAA TCAGCAACCA CGAGGGAGAC ACCATTCGAC AGACCTCTGT GAGAGCTGAC
    CCTGCAGATG TTCAATTCTC TGTGATGAAA ACAGATGAGA GATCATCTCC AGGGCAAAGT
    ACTGTGAGTG TGGCTTTAGG TAAGAAGACG CTGTTTCTGT TTAACCTGAA TGATCCTGAT
    AACCCTATAG AACTGGCCTT CCAGCAGCGT TATGGCAACA TCATCTCCTA CCGCTGGTAT
    GGAGATGGCT ATATCATGAT TGGGTTTTCG CATGGTTATT TTGTGGTCAT TTCCACGCAC
    ATCCGTGAGA TTGGTCAAGA GTTGTTTCAG GCACACAATC ATAAAGACAG CCTGACAAGC
    ATCGCCATCT CACAGTCTCT AAACAAGGCC GCATCCTGTG GAGACAACTG TATCAAGATA
    CATGACCTGA CTGATCTGAA GGAGATGTAT GCTATAGTCA CTCTGGATGA GGAGACCAAA
    GGCCTTGATC AGATGTGTTG GACGGATGAC GGGCAGCTGT TAGCCGTGTC GTCTCAGCAG
    GGCACTTTGC ATGTCTTTCT CACCAAGCTG CCTATACTGG GAGACAGCAG TGGCACCAGA
    ATTGCCTATC TTACATCCCT GCTGGAGGTT ACAGTCGCTA ATCCAGTGGA AGGGGAATCC
    CCTGTTCCAG TTGCAGTTGA GGTGGAACCC AGTTTTATAG CTGTGGGACC ATATCATGTA
    GCTGTGGGCA TGAATAACAG AGCGTGGTTT TATGCATTAG GAGATAGCGG TGTGGAGCGT
    GTAAAGGACA CTGAGTATTT AGGGACAGTG GCCAGTATGT GTCTGAACTG TGACTATGCT
    GCTGCTCTGT TTGAGGGGAA ACTTCAGTTG CATGTGATTG ATGGAGATGA GCAGGTTGTT
    CAAGAGGACA GACAGACCAA ACTTTTTCCA GAACCCGATC AGAAATACAG AATCCTCAGT
    CATGCTCTCA CCTCTGATTT TCTCTATTAT GGGACTGATA CCGGGTTGAT TCAGTGTTTC
    TATTTCGAAG ATTGGCAGAG TGTGACTGAG TATCGACACA CAGTGGGTGT ACGCAAAGTC
    TTTCCAGACC CCAATGGAAC ACGTCTTGTT TTTATCGATG AAAAAAGTGA CGGCTTCCTA
    TACTGCCCGG TGAATGACTC AGTGTTTGAG ATCCCAGACT TTTCTCCTGC TATTAAAGGG
    GTGTTGTGGG AAAACTGGAT CAGCAGTAAG GGTGTGTTTG TAGCCTATGA AGAAGACAAA
    GTCTATACGT ATGCCTTCCA CAAAGACACC ATACAAGGTT CGAAAGTGAT TCTAGTTGGA
    GGCACCAAGT TGCCTTTTTC CCATAAGCCC TTGCTGTTGC ATAATGGCGA GCTGACATGT
    CAGACCCAGA GTGGGAAAAT CAACAGCGTG GTTCTGAACA CACATGCCTT CCTTAACAAC
    CAACACAGTG AATCCAGCAA AGACAAACTC CAGTCATTTC TGCAGCAGGC TGTCATGCTG
    AAACGGTTTT CAGATGCGTG GAGTATCTGT AAAGCTCTGA ACAGCAGTGA GGCGTGGGGT
    GAGCTGGGCA GGGCTTGTCT GCACCACATG GAGGTGGAAC TGGCCATCAG AGTGTATCGC
    ATGATGGGAA ATGTTGGCAT GGTCATGTCT CTAGAGGACA TTAAGGGAAT AGAGGATCAA
    AATTTGCTGG CGGGTCATTT GGCCATGTTC TGCAATGACT ACAACCGAGC CCAGGACCTC
    TATCTAACAT CTTCATATCC TATGGCGGCC CTAGAGATGA GAAGGGATCT GCAGCATTGG
    GACAGTGCAT TGCAGCTGGC TAAAAGACTG GACCCAGATG AGATCCCATT TATTTCTAAA
    GAATATGCAA TACAACTGGA GTTTGTTGGA GATTATGTGA ATGCATTGGC TCACTATGAG
    AAAGGAACAA CAGGAAACAA CAAGTTTCAG GATCATGATG AGAGCTGTCT GGCAGGAGTG
    GCTCGTATGT CTATTCGAAT GGGTGACATT CGTAGAGGAG CAAACCAGGC CATCAAACAC
    CCCAGTAAAG CTCTGAAAAA AGACTGCGGA GCCATCCTGG AGAGCATGAA GCAATACTCA
    GAAGCAGCTC AGCTGTATGA GAAAGGCCAG TACTATGACA AAGCTGCCTC TGTCTACATA
    CGCTGTAAAA ACTGGGCAAA GGTGGGAGAG CTCTTGCCCA ATGTGACTTC CCCAAAGATT
    CACCTTCAGT ACGCTAAGGC AAAAGAAGCT GATGGAAAAT ATAAAGAGGC AGCTATGGCC
    TATGAAAGTG CACGAGATTG GGACAACGTG ATTCGAATCT TGCTGGAGCA TCTTAACAAC
    CCAGAGGAAG CTGTGCGCAT TGTACGAGAA ACTCATTCTA TCGAAGGAGC CAAAATGGTT
    GCCAGGTTTT TCCTGCGTTT GAGTGATTAC GGATCAGCCA TCCAGTTCTT GGTCTTGTCA
    CGTTGCAGCG ACGAAGCATT TCAGCTAGCC CAGCAGCACG GCCAGATGGA GGTCTACGCT
    GACATCATTG GTTCGGAGGC CACAATAGAG GATTATCAGA GCATAGCACT TTATTTTGAA
    GGGGAGAAGA ATCATCTTCA GGCTGGGAAG TTCTTTCAGA AGTGCGGACA GTACAGCAGG
    GCGCTGAAGC ACTTTTTGAA ATGTCCTAGC TCTGATGACA GTGTGGCCAT AGAGATGGCA
    ATTGAGGCGG TTGGAGAAGC TAAGGATGAA TCTTTAACCA ACCAGCTTAT TGATCATCTG
    ATGGGGGAAA GTGATGGAAT GCCAAAGTCT CTCGCCGATG CAAAATATCT TTTCCGGTTG
    TATATGGCTC TCAAACAGTA CAGAGAGGCA GCAAGAACTG CGATAATAAT CGCCAGAGAG
    GAGCAATCTG CAGGAAACTA CCGGAATGCC CATGATGTTT TGTTCAGCAT GTACGCTGAG
    CTTCAGACGC AGCACATTAA AATCCCCGCA GAGATGGCCA CAAACCTGAT GATCCTGCAC
    AGCTACATAT TAGTGAAGAT TCATGTTAAA AGAGGAGATC ATTTAAAGGG GGCACGAATG
    CTTATCCGCG TGTCCAACAA TATCAGCAAA TTCCCATCCC ACATTGTTCC AATCCTCACA
    TCAGCGGTCA TTGAATGTCA TCGTGCTGGG TTAAGAAACT CTGCCTTCAG TTTTGCCTCA
    ATGCTGATGA GACCAGAGTA TCGTAACAAG ATCGATCTGA AATACAAGAA GAAGATAGAA
    GCCATGGTCC GTCGTCCAGA TACTTCAGAG GTGGAGGAGG AGAGTTCACC CTGTCCCTAC
    TGCGGCTTCA GCCTGCCCGA CTGTGAGCTG CTGTGTCCCG GCTGCAAAAA CAATCTGCCT
    TACTGCATCG CCACAGGTCG TCACATGGTC AAGGAGGATT GGTGTGTCTG CCCACAATGT
    GATTTTCCTG CTCTTCATTC GCAGTTCACC CAGCTGTTAG AGACTGAGTC GGTTTGCCCC
    ATGTGCTCGG AGGCTTTAAA TGTCAGTGAG GTGAAAAAGG TTTTGGAGTG CTCCAAATAT
    CTGCAACAGG ACCAACTTGA GCACTGA

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

    CloneID ODa144242
    Clone ID Related Accession (Same CDS sequence) XM_021471186.1
    Accession Version XM_021471186.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4038bp)
    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 WD repeat-containing protein 19 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_018394478.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGAAGCGTG TTTTCACGCT GTCAGAAAAG TCCTGGTCTG GATCATGTTT GCAATACAAG 
    TGGCAAAAAA CAGTGGGAAA CTATCTTGCT GTTGCAGGCC CTGACAATTT AGTGAAAATC
    TTCGATCGGC ATGGACAGAA GGTGAATGAG TTAATTCTCC CTGGCAATTG TGTATCTCTT
    GACTGGGATA AAGATGGCGA TATTTTGGCG GTGATTGCTG AGAAGTCTAG TTCTGTTTAC
    TTGTGGGATG CGAATGTCAA CAAAACCTCA CAGCTGGACA GTGGTATGAG AGATCAGATG
    TCATTTCTGC TGTGGTCCAA AACTGGGCCA CTATTGGCTG TTGGCACGTC CAAAGGCAAC
    CTACTGATCT ACAATCAGCA AACATCACGG AAGATTCCTG TTCTGGGTAA ACACACAAAG
    AAAATCACAT GTGGCTGCTG GAGCTCTCAG AACCTCCTGG CGTTGGGTAG CGAAGACCGC
    AGCATAACAA TCAGCAACCA CGAGGGAGAC ACCATTCGAC AGACCTCTGT GAGAGCTGAC
    CCTGCAGATG TTCAATTCTC TGTGATGAAA ACAGATGAGA GATCATCTCC AGGGCAAAGT
    ACTGTGAGTG TGGCTTTAGG TAAGAAGACG CTGTTTCTGT TTAACCTGAA TGATCCTGAT
    AACCCTATAG AACTGGCCTT CCAGCAGCGT TATGGCAACA TCATCTCCTA CCGCTGGTAT
    GGAGATGGCT ATATCATGAT TGGGTTTTCG CATGGTTATT TTGTGGTCAT TTCCACGCAC
    ATCCGTGAGA TTGGTCAAGA GTTGTTTCAG GCACACAATC ATAAAGACAG CCTGACAAGC
    ATCGCCATCT CACAGTCTCT AAACAAGGCC GCATCCTGTG GAGACAACTG TATCAAGATA
    CATGACCTGA CTGATCTGAA GGAGATGTAT GCTATAGTCA CTCTGGATGA GGAGACCAAA
    GGCCTTGATC AGATGTGTTG GACGGATGAC GGGCAGCTGT TAGCCGTGTC GTCTCAGCAG
    GGCACTTTGC ATGTCTTTCT CACCAAGCTG CCTATACTGG GAGACAGCAG TGGCACCAGA
    ATTGCCTATC TTACATCCCT GCTGGAGGTT ACAGTCGCTA ATCCAGTGGA AGGGGAATCC
    CCTGTTCCAG TTGCAGTTGA GGTGGAACCC AGTTTTATAG CTGTGGGACC ATATCATGTA
    GCTGTGGGCA TGAATAACAG AGCGTGGTTT TATGCATTAG GAGATAGCGG TGTGGAGCGT
    GTAAAGGACA CTGAGTATTT AGGGACAGTG GCCAGTATGT GTCTGAACTG TGACTATGCT
    GCTGCTCTGT TTGAGGGGAA ACTTCAGTTG CATGTGATTG ATGGAGATGA GCAGGTTGTT
    CAAGAGGACA GACAGACCAA ACTTTTTCCA GAACCCGATC AGAAATACAG AATCCTCAGT
    CATGCTCTCA CCTCTGATTT TCTCTATTAT GGGACTGATA CCGGGTTGAT TCAGTGTTTC
    TATTTCGAAG ATTGGCAGAG TGTGACTGAG TATCGACACA CAGTGGGTGT ACGCAAAGTC
    TTTCCAGACC CCAATGGAAC ACGTCTTGTT TTTATCGATG AAAAAAGTGA CGGCTTCCTA
    TACTGCCCGG TGAATGACTC AGTGTTTGAG ATCCCAGACT TTTCTCCTGC TATTAAAGGG
    GTGTTGTGGG AAAACTGGAT CAGCAGTAAG GGTGTGTTTG TAGCCTATGA AGAAGACAAA
    GTCTATACGT ATGCCTTCCA CAAAGACACC ATACAAGGTT CGAAAGTGAT TCTAGTTGGA
    GGCACCAAGT TGCCTTTTTC CCATAAGCCC TTGCTGTTGC ATAATGGCGA GCTGACATGT
    CAGACCCAGA GTGGGAAAAT CAACAGCGTG GTTCTGAACA CACATGCCTT CCTTAACAAC
    CAACACAGTG AATCCAGCAA AGACAAACTC CAGTCATTTC TGCAGCAGGC TGTCATGCTG
    AAACGGTTTT CAGATGCGTG GAGTATCTGT AAAGCTCTGA ACAGCAGTGA GGCGTGGGGT
    GAGCTGGGCA GGGCTTGTCT GCACCACATG GAGGTGGAAC TGGCCATCAG AGTGTATCGC
    ATGATGGGAA ATGTTGGCAT GGTCATGTCT CTAGAGGACA TTAAGGGAAT AGAGGATCAA
    AATTTGCTGG CGGGTCATTT GGCCATGTTC TGCAATGACT ACAACCGAGC CCAGGACCTC
    TATCTAACAT CTTCATATCC TATGGCGGCC CTAGAGATGA GAAGGGATCT GCAGCATTGG
    GACAGTGCAT TGCAGCTGGC TAAAAGACTG GACCCAGATG AGATCCCATT TATTTCTAAA
    GAATATGCAA TACAACTGGA GTTTGTTGGA GATTATGTGA ATGCATTGGC TCACTATGAG
    AAAGGAACAA CAGGAAACAA CAAGTTTCAG GATCATGATG AGAGCTGTCT GGCAGGAGTG
    GCTCGTATGT CTATTCGAAT GGGTGACATT CGTAGAGGAG CAAACCAGGC CATCAAACAC
    CCCAGTAAAG CTCTGAAAAA AGACTGCGGA GCCATCCTGG AGAGCATGAA GCAATACTCA
    GAAGCAGCTC AGCTGTATGA GAAAGGCCAG TACTATGACA AAGCTGCCTC TGTCTACATA
    CGCTGTAAAA ACTGGGCAAA GGTGGGAGAG CTCTTGCCCA ATGTGACTTC CCCAAAGATT
    CACCTTCAGT ACGCTAAGGC AAAAGAAGCT GATGGAAAAT ATAAAGAGGC AGCTATGGCC
    TATGAAAGTG CACGAGATTG GGACAACGTG ATTCGAATCT TGCTGGAGCA TCTTAACAAC
    CCAGAGGAAG CTGTGCGCAT TGTACGAGAA ACTCATTCTA TCGAAGGAGC CAAAATGGTT
    GCCAGGTTTT TCCTGCGTTT GAGTGATTAC GGATCAGCCA TCCAGTTCTT GGTCTTGTCA
    CGTTGCAGCG ACGAAGCATT TCAGCTAGCC CAGCAGCACG GCCAGATGGA GGTCTACGCT
    GACATCATTG GTTCGGAGGC CACAATAGAG GATTATCAGA GCATAGCACT TTATTTTGAA
    GGGGAGAAGA ATCATCTTCA GGCTGGGAAG TTCTTTCAGA AGTGCGGACA GTACAGCAGG
    GCGCTGAAGC ACTTTTTGAA ATGTCCTAGC TCTGATGACA GTGTGGCCAT AGAGATGGCA
    ATTGAGGCGG TTGGAGAAGC TAAGGATGAA TCTTTAACCA ACCAGCTTAT TGATCATCTG
    ATGGGGGAAA GTGATGGAAT GCCAAAGGAT GCAAAATATC TTTTCCGGTT GTATATGGCT
    CTCAAACAGT ACAGAGAGGC AGCAAGAACT GCGATAATAA TCGCCAGAGA GGAGCAATCT
    GCAGGAAACT ACCGGAATGC CCATGATGTT TTGTTCAGCA TGTACGCTGA GCTTCAGACG
    CAGCACATTA AAATCCCCGC AGAGATGGCC ACAAACCTGA TGATCCTGCA CAGCTACATA
    TTAGTGAAGA TTCATGTTAA AAGAGGAGAT CATTTAAAGG GGGCACGAAT GCTTATCCGC
    GTGTCCAACA ATATCAGCAA ATTCCCATCC CACATTGTTC CAATCCTCAC ATCAGCGGTC
    ATTGAATGTC ATCGTGCTGG GTTAAGAAAC TCTGCCTTCA GTTTTGCCTC AATGCTGATG
    AGACCAGAGT ATCGTAACAA GATCGATCTG AAATACAAGA AGAAGATAGA AGCCATGGTC
    CGTCGTCCAG ATACTTCAGA GGTGGAGGAG GAGAGTTCAC CCTGTCCCTA CTGCGGCTTC
    AGCCTGCCCG ACTGTGAGCT GCTGTGTCCC GGCTGCAAAA ACAATCTGCC TTACTGCATC
    GCCACAGGTC GTCACATGGT CAAGGAGGAT TGGTGTGTCT GCCCACAATG TGATTTTCCT
    GCTCTTCATT CGCAGTTCAC CCAGCTGTTA GAGACTGAGT CGGTTTGCCC CATGTGCTCG
    GAGGCTTTAA ATGTCAGTGA GGTGAAAAAG GTTTTGGAGT GCTCCAAATA TCTGCAACAG
    GACCAACTTG AGCACTGA

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

    RefSeq XP_021326861.1
    CDS81..4118
    Translation

    Target ORF information:

    RefSeq Version XM_021471186.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio WD repeat domain 19 (wdr19), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021471186.1

    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
    ATGAAGCGTG TTTTCACGCT GTCAGAAAAG TCCTGGTCTG GATCATGTTT GCAATACAAG 
    TGGCAAAAAA CAGTGGGAAA CTATCTTGCT GTTGCAGGCC CTGACAATTT AGTGAAAATC
    TTCGATCGGC ATGGACAGAA GGTGAATGAG TTAATTCTCC CTGGCAATTG TGTATCTCTT
    GACTGGGATA AAGATGGCGA TATTTTGGCG GTGATTGCTG AGAAGTCTAG TTCTGTTTAC
    TTGTGGGATG CGAATGTCAA CAAAACCTCA CAGCTGGACA GTGGTATGAG AGATCAGATG
    TCATTTCTGC TGTGGTCCAA AACTGGGCCA CTATTGGCTG TTGGCACGTC CAAAGGCAAC
    CTACTGATCT ACAATCAGCA AACATCACGG AAGATTCCTG TTCTGGGTAA ACACACAAAG
    AAAATCACAT GTGGCTGCTG GAGCTCTCAG AACCTCCTGG CGTTGGGTAG CGAAGACCGC
    AGCATAACAA TCAGCAACCA CGAGGGAGAC ACCATTCGAC AGACCTCTGT GAGAGCTGAC
    CCTGCAGATG TTCAATTCTC TGTGATGAAA ACAGATGAGA GATCATCTCC AGGGCAAAGT
    ACTGTGAGTG TGGCTTTAGG TAAGAAGACG CTGTTTCTGT TTAACCTGAA TGATCCTGAT
    AACCCTATAG AACTGGCCTT CCAGCAGCGT TATGGCAACA TCATCTCCTA CCGCTGGTAT
    GGAGATGGCT ATATCATGAT TGGGTTTTCG CATGGTTATT TTGTGGTCAT TTCCACGCAC
    ATCCGTGAGA TTGGTCAAGA GTTGTTTCAG GCACACAATC ATAAAGACAG CCTGACAAGC
    ATCGCCATCT CACAGTCTCT AAACAAGGCC GCATCCTGTG GAGACAACTG TATCAAGATA
    CATGACCTGA CTGATCTGAA GGAGATGTAT GCTATAGTCA CTCTGGATGA GGAGACCAAA
    GGCCTTGATC AGATGTGTTG GACGGATGAC GGGCAGCTGT TAGCCGTGTC GTCTCAGCAG
    GGCACTTTGC ATGTCTTTCT CACCAAGCTG CCTATACTGG GAGACAGCAG TGGCACCAGA
    ATTGCCTATC TTACATCCCT GCTGGAGGTT ACAGTCGCTA ATCCAGTGGA AGGGGAATCC
    CCTGTTCCAG TTGCAGTTGA GGTGGAACCC AGTTTTATAG CTGTGGGACC ATATCATGTA
    GCTGTGGGCA TGAATAACAG AGCGTGGTTT TATGCATTAG GAGATAGCGG TGTGGAGCGT
    GTAAAGGACA CTGAGTATTT AGGGACAGTG GCCAGTATGT GTCTGAACTG TGACTATGCT
    GCTGCTCTGT TTGAGGGGAA ACTTCAGTTG CATGTGATTG ATGGAGATGA GCAGGTTGTT
    CAAGAGGACA GACAGACCAA ACTTTTTCCA GAACCCGATC AGAAATACAG AATCCTCAGT
    CATGCTCTCA CCTCTGATTT TCTCTATTAT GGGACTGATA CCGGGTTGAT TCAGTGTTTC
    TATTTCGAAG ATTGGCAGAG TGTGACTGAG TATCGACACA CAGTGGGTGT ACGCAAAGTC
    TTTCCAGACC CCAATGGAAC ACGTCTTGTT TTTATCGATG AAAAAAGTGA CGGCTTCCTA
    TACTGCCCGG TGAATGACTC AGTGTTTGAG ATCCCAGACT TTTCTCCTGC TATTAAAGGG
    GTGTTGTGGG AAAACTGGAT CAGCAGTAAG GGTGTGTTTG TAGCCTATGA AGAAGACAAA
    GTCTATACGT ATGCCTTCCA CAAAGACACC ATACAAGGTT CGAAAGTGAT TCTAGTTGGA
    GGCACCAAGT TGCCTTTTTC CCATAAGCCC TTGCTGTTGC ATAATGGCGA GCTGACATGT
    CAGACCCAGA GTGGGAAAAT CAACAGCGTG GTTCTGAACA CACATGCCTT CCTTAACAAC
    CAACACAGTG AATCCAGCAA AGACAAACTC CAGTCATTTC TGCAGCAGGC TGTCATGCTG
    AAACGGTTTT CAGATGCGTG GAGTATCTGT AAAGCTCTGA ACAGCAGTGA GGCGTGGGGT
    GAGCTGGGCA GGGCTTGTCT GCACCACATG GAGGTGGAAC TGGCCATCAG AGTGTATCGC
    ATGATGGGAA ATGTTGGCAT GGTCATGTCT CTAGAGGACA TTAAGGGAAT AGAGGATCAA
    AATTTGCTGG CGGGTCATTT GGCCATGTTC TGCAATGACT ACAACCGAGC CCAGGACCTC
    TATCTAACAT CTTCATATCC TATGGCGGCC CTAGAGATGA GAAGGGATCT GCAGCATTGG
    GACAGTGCAT TGCAGCTGGC TAAAAGACTG GACCCAGATG AGATCCCATT TATTTCTAAA
    GAATATGCAA TACAACTGGA GTTTGTTGGA GATTATGTGA ATGCATTGGC TCACTATGAG
    AAAGGAACAA CAGGAAACAA CAAGTTTCAG GATCATGATG AGAGCTGTCT GGCAGGAGTG
    GCTCGTATGT CTATTCGAAT GGGTGACATT CGTAGAGGAG CAAACCAGGC CATCAAACAC
    CCCAGTAAAG CTCTGAAAAA AGACTGCGGA GCCATCCTGG AGAGCATGAA GCAATACTCA
    GAAGCAGCTC AGCTGTATGA GAAAGGCCAG TACTATGACA AAGCTGCCTC TGTCTACATA
    CGCTGTAAAA ACTGGGCAAA GGTGGGAGAG CTCTTGCCCA ATGTGACTTC CCCAAAGATT
    CACCTTCAGT ACGCTAAGGC AAAAGAAGCT GATGGAAAAT ATAAAGAGGC AGCTATGGCC
    TATGAAAGTG CACGAGATTG GGACAACGTG ATTCGAATCT TGCTGGAGCA TCTTAACAAC
    CCAGAGGAAG CTGTGCGCAT TGTACGAGAA ACTCATTCTA TCGAAGGAGC CAAAATGGTT
    GCCAGGTTTT TCCTGCGTTT GAGTGATTAC GGATCAGCCA TCCAGTTCTT GGTCTTGTCA
    CGTTGCAGCG ACGAAGCATT TCAGCTAGCC CAGCAGCACG GCCAGATGGA GGTCTACGCT
    GACATCATTG GTTCGGAGGC CACAATAGAG GATTATCAGA GCATAGCACT TTATTTTGAA
    GGGGAGAAGA ATCATCTTCA GGCTGGGAAG TTCTTTCAGA AGTGCGGACA GTACAGCAGG
    GCGCTGAAGC ACTTTTTGAA ATGTCCTAGC TCTGATGACA GTGTGGCCAT AGAGATGGCA
    ATTGAGGCGG TTGGAGAAGC TAAGGATGAA TCTTTAACCA ACCAGCTTAT TGATCATCTG
    ATGGGGGAAA GTGATGGAAT GCCAAAGGAT GCAAAATATC TTTTCCGGTT GTATATGGCT
    CTCAAACAGT ACAGAGAGGC AGCAAGAACT GCGATAATAA TCGCCAGAGA GGAGCAATCT
    GCAGGAAACT ACCGGAATGC CCATGATGTT TTGTTCAGCA TGTACGCTGA GCTTCAGACG
    CAGCACATTA AAATCCCCGC AGAGATGGCC ACAAACCTGA TGATCCTGCA CAGCTACATA
    TTAGTGAAGA TTCATGTTAA AAGAGGAGAT CATTTAAAGG GGGCACGAAT GCTTATCCGC
    GTGTCCAACA ATATCAGCAA ATTCCCATCC CACATTGTTC CAATCCTCAC ATCAGCGGTC
    ATTGAATGTC ATCGTGCTGG GTTAAGAAAC TCTGCCTTCA GTTTTGCCTC AATGCTGATG
    AGACCAGAGT ATCGTAACAA GATCGATCTG AAATACAAGA AGAAGATAGA AGCCATGGTC
    CGTCGTCCAG ATACTTCAGA GGTGGAGGAG GAGAGTTCAC CCTGTCCCTA CTGCGGCTTC
    AGCCTGCCCG ACTGTGAGCT GCTGTGTCCC GGCTGCAAAA ACAATCTGCC TTACTGCATC
    GCCACAGGTC GTCACATGGT CAAGGAGGAT TGGTGTGTCT GCCCACAATG TGATTTTCCT
    GCTCTTCATT CGCAGTTCAC CCAGCTGTTA GAGACTGAGT CGGTTTGCCC CATGTGCTCG
    GAGGCTTTAA ATGTCAGTGA GGTGAAAAAG GTTTTGGAGT GCTCCAAATA TCTGCAACAG
    GACCAACTTG AGCACTGA

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

    CloneID ODa53879
    Clone ID Related Accession (Same CDS sequence) XM_017356042.1
    Accession Version XM_017356042.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3468bp)
    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 WD repeat-containing protein 19 isoform X3
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007112.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##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
    ATGAGAGATC ATCTCCAGGG CAAAGTGAGT GTGGCTTTAG GAAAGAAGAC GCTGTTTCTG 
    TTTAACCTGA ATGATCCTGA TAACCCTATA GAACTGGCCT TCCAGCAGCG TTATGGCAAC
    ATCATCTCCT ACCGCTGGTA TGGAGATGGC TATATCATGA TTGGGTTTTC GCATGGTTAT
    TTTGTGGTCA TTTCCACGCA CATCCGTGAG ATTGGTCAAG AGTTGTTTCA GGCACACAAT
    CATAAAGACA GCCTGACAAG CATCGCCATC TCACAGTCTC TAAACAAGGC CGCATCCTGT
    GGAGACAACT GTATCAAGAT ACATGACCTG ACTGATCTGA AGGAGATGTA TGCTATAGTC
    ACTCTGGATG AGGAGACCAA AGGCCTTGAT CAGATGTGTT GGACTGATGA CGGGCAGCTG
    TTAGCCGTGT CGTCTCAGCA GGGCACTTTG CATGTCTTTC TCACCAAGCT GCCTATACTG
    GGAGACAGCA GTGGCACTAG AATTGCCTAT CTTACATCCC TGCTGGAGGT TACAGTCGCT
    AATCCAGTGG AAGGGGAATC CCCTGTTCCA GTTGCAGTTG AGGTGGAACC CAGTTTTATA
    GCTGTGGGAC CATATCATGT AGCTGTGGGC ATGAATAACA GAGCGTGGTT TTATGCATTA
    GGAGATAGCG GTGTGGAGCG TGTAAAGGAC ACTGAGTATT TAGGGACAGT GGCCAGTATG
    TGTCTGAACT GTGACTATGC TGCTGCTCTG TTTGAGGGGA AACTTCAGTT GCATGTGATT
    GATGGAGATG AGCAGGTTGT TCAAGAGGAC AGACAGACCA AACTTTTTCC AGAACCCGAT
    CAGAAATACA GAATCCTCAG TCATGCTCTC ACCTCTGATT TTCTCTATTA TGGGACTGAT
    ACCGGGTTGA TTCAGTGTTT CTATTTCGAA GATTGGCAGA GTGTGACTGA GTATCGACAC
    ACAGTGGGTG TACGCAAAGT CTTTCCAGAC CCCAATGGAA CACGTCTTGT TTTTATCGAT
    GAAAAAAGTG ACGGCTTCCT ATACTGCCCG GTGAATGACT CAGTGTTTGA GATCCCAGAC
    TTTTCTCCTG CTATTAAAGG GGTGTTGTGG GAAAACTGGA TCAGCAGTAA GGGTGTGTTT
    GTAGCCTATG AAGAAGACAA AGTCTATACG TATGCCTTCC ACAAAGACAC TATACAAGGT
    TCGAAAGTGA TTCTAGTTGG AGGCACCAAA TTGCCTTTTT CCCATAAGCC CTTGCTGTTG
    CATAACGGCG AGCTGACATG TCAGACCCAG AGTGGGAAAA TCAACAGCGT GGTTCTGAAC
    ACACATGCCT TCCTTAACAA CCAACACAGT GAATCCAGCA AAGACAAACT CCAGTCATTT
    CTGCAGCAGG CTGTCATGCT GAAACGGTTT TCAGATGCGT GGAGTATCTG TAAAGCTCTG
    AACAGCAGTG AGGCGTGGGG TGAGCTGGGC AGGGCTTGTC TGCACCACAT GGAGGTGGAA
    CTGGCCATCA GAGTGTATCG CATGATGGGA AATGTTGGCA TGGTCATGTC TCTAGAGGAC
    ATTAAGGGAA TAGAGGATCA AAATTTGCTG GCGGGTCATT TGGCCATGTT CTGCAATGAC
    TACAACCGAG CCCAGGACCT CTATCTAACA TCTTCATATC CTATGGCGGC CCTAGAGATG
    AGAAGGGATC TGCAGCATTG GGACAGTGCA TTGCAGCTGG CTAAAAGACT GGACCCAGAT
    GAGATCCCAT TCATTTCTAA AGAATATGCA ATACAACTGG AGTTTGTTGG AGATTATGTG
    AATGCATTGG CTCACTATGA GAAAGGAACA ACAGGAAACA ACAAGTTTCA GGATCATGAT
    GAGAGCTGTC TGGCAGGAGT GGCTCGTATG TCTATTCGAA TGGGTGACAT TCGTAGAGGA
    GCAAACCAGG CCATCAAACA CCCCAGTAAA GCTCTGAAAA AAGACTGCGG AGCCATCCTG
    GAGAGCATGA AGCAATACTC AGAAGCAGCT CAGCTGTATG AGAAAGGCCA GTACTATGAC
    AAAGCTGCCT CTGTCTACAT ACGCTGTAAA AACTGGGCAA AGGTGGGAGA GCTCTTGCCC
    CATGTGACTT CCCCAAAGAT TCACCTTCAG TACGCTAAGG CAAAAGAAGC TGATGGAAAA
    TATAAAGAGG CAGCTATGGC CTATGAAAGT GCACGAGATT GGGACAACGT GATTCGAATC
    TTGCTGGAGC ATCTTAACAA CCCAGAGGAA GCCGTGCGCA TTGTACGAGA AACTCATTCT
    ATCGAAGGAG CCAAAATGGT TGCCAGGTTT TTCCTGCGTT TGAGTGATTA CGGATCAGCC
    ATCCAGTTCC TGGTCTTGTC ACGTTGCAGC GACGAAGCAT TTCAGCTAGC CCAGCAGCAC
    GGCCAGATGG AGGTCTACGC TGACATCATT GGTTCGGAGG CCACAATAGA GGATTATCAG
    AGCATAGCAC TTTATTTTGA AGGGGAGAAG AATCATCTTC AGGCTGGGAA GTTCTTTCAG
    AAGTGCGGAC AGTACAGCAG GGCGCTGAAG CACTTTTTGA AATGTCCTAG CTCTGATGAC
    AGTGTGGCCA TAGAGATGGC AATTGAGGCG GTTGGAGAAG CTAAGGATGA ATCTTTAACC
    AACCAGCTTA TTGATCATCT GATGGGGGAA AGTGATGGAA TGCCAAAGTC TCTCGCCGAT
    GCAAAATATC TTTTCCGGTT GTATATGGCT CTCAAACAAT ACAGAGAGGC AGCAAGAACT
    GCGATAATAA TCGCCAGAGA GGAGCAATCT GCAGGAAACT ACCGGAATGC CCATGATGTT
    TTGTTCAGCA TGTACGCTGA GCTTCAGACG CAGCACATTA AAATCCCCGC AGAGATGGCC
    ACAAACCTGA TGATCCTGCA CAGCTACATA TTAGTGAAGA TTCATGTTAA AAGAGGAGAT
    CATTTAAAGG GGGCACGAAT GCTTATCCGC GTGTCCAACA ATATCAGCAA ATTCCCATCC
    CACATTGTTC CAATCCTCAC ATCAGCGGTC ATTGAATGTC ATCGTGCTGG GTTAAGAAAC
    TCTGCCTTCA GTTTTGCCTC AATGCTGATG AGACCAGAGT ATCGTAACAA GATCGATCTG
    AAATACAAGA AGAAGATAGA AGCCATGGTC CGTCGTCCAG ATACTTCAGA GGTGGAGGAG
    GAGAGTTCAC CCTGTCCCTA CTGCGGCTTC AGCCTGCCCG ACTGTGAGCT GCTGTGTCCC
    GGCTGCAAAA ACAATCTGCC TTACTGCATC GCCACAGGTC GTCACATGGT CAAGGAGGAT
    TGGTGTGTCT GCCCACACTG TGATTTTCCT GCTCTTCATT CGCAGTTCAC CCAGCTGTTA
    GAGACTGAGT CGGTTTGCCC CATGTGCTCG GAGGCTTTAA ATGTCAGTGA GGTGAAAAAG
    GTTTTGGAGT GCTCCAAATA TCTGCAACAG GACCAACTAG AGCACTGA

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

    RefSeq XP_017211531.1
    CDS146..3613
    Translation

    Target ORF information:

    RefSeq Version XM_017356042.1
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio WD repeat domain 19 (wdr19), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017356042.1

    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
    ATGAGAGATC ATCTCCAGGG CAAAGTGAGT GTGGCTTTAG GAAAGAAGAC GCTGTTTCTG 
    TTTAACCTGA ATGATCCTGA TAACCCTATA GAACTGGCCT TCCAGCAGCG TTATGGCAAC
    ATCATCTCCT ACCGCTGGTA TGGAGATGGC TATATCATGA TTGGGTTTTC GCATGGTTAT
    TTTGTGGTCA TTTCCACGCA CATCCGTGAG ATTGGTCAAG AGTTGTTTCA GGCACACAAT
    CATAAAGACA GCCTGACAAG CATCGCCATC TCACAGTCTC TAAACAAGGC CGCATCCTGT
    GGAGACAACT GTATCAAGAT ACATGACCTG ACTGATCTGA AGGAGATGTA TGCTATAGTC
    ACTCTGGATG AGGAGACCAA AGGCCTTGAT CAGATGTGTT GGACTGATGA CGGGCAGCTG
    TTAGCCGTGT CGTCTCAGCA GGGCACTTTG CATGTCTTTC TCACCAAGCT GCCTATACTG
    GGAGACAGCA GTGGCACTAG AATTGCCTAT CTTACATCCC TGCTGGAGGT TACAGTCGCT
    AATCCAGTGG AAGGGGAATC CCCTGTTCCA GTTGCAGTTG AGGTGGAACC CAGTTTTATA
    GCTGTGGGAC CATATCATGT AGCTGTGGGC ATGAATAACA GAGCGTGGTT TTATGCATTA
    GGAGATAGCG GTGTGGAGCG TGTAAAGGAC ACTGAGTATT TAGGGACAGT GGCCAGTATG
    TGTCTGAACT GTGACTATGC TGCTGCTCTG TTTGAGGGGA AACTTCAGTT GCATGTGATT
    GATGGAGATG AGCAGGTTGT TCAAGAGGAC AGACAGACCA AACTTTTTCC AGAACCCGAT
    CAGAAATACA GAATCCTCAG TCATGCTCTC ACCTCTGATT TTCTCTATTA TGGGACTGAT
    ACCGGGTTGA TTCAGTGTTT CTATTTCGAA GATTGGCAGA GTGTGACTGA GTATCGACAC
    ACAGTGGGTG TACGCAAAGT CTTTCCAGAC CCCAATGGAA CACGTCTTGT TTTTATCGAT
    GAAAAAAGTG ACGGCTTCCT ATACTGCCCG GTGAATGACT CAGTGTTTGA GATCCCAGAC
    TTTTCTCCTG CTATTAAAGG GGTGTTGTGG GAAAACTGGA TCAGCAGTAA GGGTGTGTTT
    GTAGCCTATG AAGAAGACAA AGTCTATACG TATGCCTTCC ACAAAGACAC TATACAAGGT
    TCGAAAGTGA TTCTAGTTGG AGGCACCAAA TTGCCTTTTT CCCATAAGCC CTTGCTGTTG
    CATAACGGCG AGCTGACATG TCAGACCCAG AGTGGGAAAA TCAACAGCGT GGTTCTGAAC
    ACACATGCCT TCCTTAACAA CCAACACAGT GAATCCAGCA AAGACAAACT CCAGTCATTT
    CTGCAGCAGG CTGTCATGCT GAAACGGTTT TCAGATGCGT GGAGTATCTG TAAAGCTCTG
    AACAGCAGTG AGGCGTGGGG TGAGCTGGGC AGGGCTTGTC TGCACCACAT GGAGGTGGAA
    CTGGCCATCA GAGTGTATCG CATGATGGGA AATGTTGGCA TGGTCATGTC TCTAGAGGAC
    ATTAAGGGAA TAGAGGATCA AAATTTGCTG GCGGGTCATT TGGCCATGTT CTGCAATGAC
    TACAACCGAG CCCAGGACCT CTATCTAACA TCTTCATATC CTATGGCGGC CCTAGAGATG
    AGAAGGGATC TGCAGCATTG GGACAGTGCA TTGCAGCTGG CTAAAAGACT GGACCCAGAT
    GAGATCCCAT TCATTTCTAA AGAATATGCA ATACAACTGG AGTTTGTTGG AGATTATGTG
    AATGCATTGG CTCACTATGA GAAAGGAACA ACAGGAAACA ACAAGTTTCA GGATCATGAT
    GAGAGCTGTC TGGCAGGAGT GGCTCGTATG TCTATTCGAA TGGGTGACAT TCGTAGAGGA
    GCAAACCAGG CCATCAAACA CCCCAGTAAA GCTCTGAAAA AAGACTGCGG AGCCATCCTG
    GAGAGCATGA AGCAATACTC AGAAGCAGCT CAGCTGTATG AGAAAGGCCA GTACTATGAC
    AAAGCTGCCT CTGTCTACAT ACGCTGTAAA AACTGGGCAA AGGTGGGAGA GCTCTTGCCC
    CATGTGACTT CCCCAAAGAT TCACCTTCAG TACGCTAAGG CAAAAGAAGC TGATGGAAAA
    TATAAAGAGG CAGCTATGGC CTATGAAAGT GCACGAGATT GGGACAACGT GATTCGAATC
    TTGCTGGAGC ATCTTAACAA CCCAGAGGAA GCCGTGCGCA TTGTACGAGA AACTCATTCT
    ATCGAAGGAG CCAAAATGGT TGCCAGGTTT TTCCTGCGTT TGAGTGATTA CGGATCAGCC
    ATCCAGTTCC TGGTCTTGTC ACGTTGCAGC GACGAAGCAT TTCAGCTAGC CCAGCAGCAC
    GGCCAGATGG AGGTCTACGC TGACATCATT GGTTCGGAGG CCACAATAGA GGATTATCAG
    AGCATAGCAC TTTATTTTGA AGGGGAGAAG AATCATCTTC AGGCTGGGAA GTTCTTTCAG
    AAGTGCGGAC AGTACAGCAG GGCGCTGAAG CACTTTTTGA AATGTCCTAG CTCTGATGAC
    AGTGTGGCCA TAGAGATGGC AATTGAGGCG GTTGGAGAAG CTAAGGATGA ATCTTTAACC
    AACCAGCTTA TTGATCATCT GATGGGGGAA AGTGATGGAA TGCCAAAGTC TCTCGCCGAT
    GCAAAATATC TTTTCCGGTT GTATATGGCT CTCAAACAAT ACAGAGAGGC AGCAAGAACT
    GCGATAATAA TCGCCAGAGA GGAGCAATCT GCAGGAAACT ACCGGAATGC CCATGATGTT
    TTGTTCAGCA TGTACGCTGA GCTTCAGACG CAGCACATTA AAATCCCCGC AGAGATGGCC
    ACAAACCTGA TGATCCTGCA CAGCTACATA TTAGTGAAGA TTCATGTTAA AAGAGGAGAT
    CATTTAAAGG GGGCACGAAT GCTTATCCGC GTGTCCAACA ATATCAGCAA ATTCCCATCC
    CACATTGTTC CAATCCTCAC ATCAGCGGTC ATTGAATGTC ATCGTGCTGG GTTAAGAAAC
    TCTGCCTTCA GTTTTGCCTC AATGCTGATG AGACCAGAGT ATCGTAACAA GATCGATCTG
    AAATACAAGA AGAAGATAGA AGCCATGGTC CGTCGTCCAG ATACTTCAGA GGTGGAGGAG
    GAGAGTTCAC CCTGTCCCTA CTGCGGCTTC AGCCTGCCCG ACTGTGAGCT GCTGTGTCCC
    GGCTGCAAAA ACAATCTGCC TTACTGCATC GCCACAGGTC GTCACATGGT CAAGGAGGAT
    TGGTGTGTCT GCCCACACTG TGATTTTCCT GCTCTTCATT CGCAGTTCAC CCAGCTGTTA
    GAGACTGAGT CGGTTTGCCC CATGTGCTCG GAGGCTTTAA ATGTCAGTGA GGTGAAAAAG
    GTTTTGGAGT GCTCCAAATA TCTGCAACAG GACCAACTAG AGCACTGA

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

    CloneID ODa05697
    Clone ID Related Accession (Same CDS sequence) XM_005170934.3 , XM_021476315.1
    Accession Version XM_005170934.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4038bp)
    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 WD repeat-containing protein 19 isoform X2
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007112.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_005170934.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Danio rerio Annotation Release 105 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGAAGCGTG TTTTCACGCT GTCAGAAAAG TCCTGGTCTG GATCATGTTT GCAATACAAG 
    TGGCAAAAAA CAGTGGGAAA CTATCTTGCT GTTGCAGGCC CTGACAATTT AGTGAAAATC
    TTCGATCGGC ATGGACAGAA GGTGAACGAG TTAAATCTCC CTGGCAATTG TGTATCTCTT
    GACTGGGATA AAGATGGCGA TATTTTGGCG GTGATTGCTG AGAAGTCCAG TTCTGTTTAC
    TTGTGGGATG CGAATGTCAA CAAAACCTCA CAGCTGGACA GTGGTATGAG AGATCAGATG
    TCATTTCTGC TGTGGTCCAA AACTGGGCCA CTATTGGCTG TTGGCACGTC CAAAGGCAAC
    CTACTGATCT ACAATCAGCA AACATCACGG AAGATTCCTG TTCTGGGTAA ACACACAAAG
    AAAATCACAT GTGGCTGCTG GAGCTCTCAG AACCTCCTGG CGTTGGGCAG CGAAGACCGC
    AGCATAACAA TCAGCAACCA CGAGGGAGAC ACCATTCGAC AGACCTCTGT GAGAGCTGAC
    CCTGCAGATG TTCAATTCTC TGTGATGAAA ACAGATGAGA GATCATCTCC AGGGCAAAGT
    ACTGTGAGTG TGGCTTTAGG AAAGAAGACG CTGTTTCTGT TTAACCTGAA TGATCCTGAT
    AACCCTATAG AACTGGCCTT CCAGCAGCGT TATGGCAACA TCATCTCCTA CCGCTGGTAT
    GGAGATGGCT ATATCATGAT TGGGTTTTCG CATGGTTATT TTGTGGTCAT TTCCACGCAC
    ATCCGTGAGA TTGGTCAAGA GTTGTTTCAG GCACACAATC ATAAAGACAG CCTGACAAGC
    ATCGCCATCT CACAGTCTCT AAACAAGGCC GCATCCTGTG GAGACAACTG TATCAAGATA
    CATGACCTGA CTGATCTGAA GGAGATGTAT GCTATAGTCA CTCTGGATGA GGAGACCAAA
    GGCCTTGATC AGATGTGTTG GACTGATGAC GGGCAGCTGT TAGCCGTGTC GTCTCAGCAG
    GGCACTTTGC ATGTCTTTCT CACCAAGCTG CCTATACTGG GAGACAGCAG TGGCACTAGA
    ATTGCCTATC TTACATCCCT GCTGGAGGTT ACAGTCGCTA ATCCAGTGGA AGGGGAATCC
    CCTGTTCCAG TTGCAGTTGA GGTGGAACCC AGTTTTATAG CTGTGGGACC ATATCATGTA
    GCTGTGGGCA TGAATAACAG AGCGTGGTTT TATGCATTAG GAGATAGCGG TGTGGAGCGT
    GTAAAGGACA CTGAGTATTT AGGGACAGTG GCCAGTATGT GTCTGAACTG TGACTATGCT
    GCTGCTCTGT TTGAGGGGAA ACTTCAGTTG CATGTGATTG ATGGAGATGA GCAGGTTGTT
    CAAGAGGACA GACAGACCAA ACTTTTTCCA GAACCCGATC AGAAATACAG AATCCTCAGT
    CATGCTCTCA CCTCTGATTT TCTCTATTAT GGGACTGATA CCGGGTTGAT TCAGTGTTTC
    TATTTCGAAG ATTGGCAGAG TGTGACTGAG TATCGACACA CAGTGGGTGT ACGCAAAGTC
    TTTCCAGACC CCAATGGAAC ACGTCTTGTT TTTATCGATG AAAAAAGTGA CGGCTTCCTA
    TACTGCCCGG TGAATGACTC AGTGTTTGAG ATCCCAGACT TTTCTCCTGC TATTAAAGGG
    GTGTTGTGGG AAAACTGGAT CAGCAGTAAG GGTGTGTTTG TAGCCTATGA AGAAGACAAA
    GTCTATACGT ATGCCTTCCA CAAAGACACT ATACAAGGTT CGAAAGTGAT TCTAGTTGGA
    GGCACCAAAT TGCCTTTTTC CCATAAGCCC TTGCTGTTGC ATAACGGCGA GCTGACATGT
    CAGACCCAGA GTGGGAAAAT CAACAGCGTG GTTCTGAACA CACATGCCTT CCTTAACAAC
    CAACACAGTG AATCCAGCAA AGACAAACTC CAGTCATTTC TGCAGCAGGC TGTCATGCTG
    AAACGGTTTT CAGATGCGTG GAGTATCTGT AAAGCTCTGA ACAGCAGTGA GGCGTGGGGT
    GAGCTGGGCA GGGCTTGTCT GCACCACATG GAGGTGGAAC TGGCCATCAG AGTGTATCGC
    ATGATGGGAA ATGTTGGCAT GGTCATGTCT CTAGAGGACA TTAAGGGAAT AGAGGATCAA
    AATTTGCTGG CGGGTCATTT GGCCATGTTC TGCAATGACT ACAACCGAGC CCAGGACCTC
    TATCTAACAT CTTCATATCC TATGGCGGCC CTAGAGATGA GAAGGGATCT GCAGCATTGG
    GACAGTGCAT TGCAGCTGGC TAAAAGACTG GACCCAGATG AGATCCCATT CATTTCTAAA
    GAATATGCAA TACAACTGGA GTTTGTTGGA GATTATGTGA ATGCATTGGC TCACTATGAG
    AAAGGAACAA CAGGAAACAA CAAGTTTCAG GATCATGATG AGAGCTGTCT GGCAGGAGTG
    GCTCGTATGT CTATTCGAAT GGGTGACATT CGTAGAGGAG CAAACCAGGC CATCAAACAC
    CCCAGTAAAG CTCTGAAAAA AGACTGCGGA GCCATCCTGG AGAGCATGAA GCAATACTCA
    GAAGCAGCTC AGCTGTATGA GAAAGGCCAG TACTATGACA AAGCTGCCTC TGTCTACATA
    CGCTGTAAAA ACTGGGCAAA GGTGGGAGAG CTCTTGCCCC ATGTGACTTC CCCAAAGATT
    CACCTTCAGT ACGCTAAGGC AAAAGAAGCT GATGGAAAAT ATAAAGAGGC AGCTATGGCC
    TATGAAAGTG CACGAGATTG GGACAACGTG ATTCGAATCT TGCTGGAGCA TCTTAACAAC
    CCAGAGGAAG CCGTGCGCAT TGTACGAGAA ACTCATTCTA TCGAAGGAGC CAAAATGGTT
    GCCAGGTTTT TCCTGCGTTT GAGTGATTAC GGATCAGCCA TCCAGTTCCT GGTCTTGTCA
    CGTTGCAGCG ACGAAGCATT TCAGCTAGCC CAGCAGCACG GCCAGATGGA GGTCTACGCT
    GACATCATTG GTTCGGAGGC CACAATAGAG GATTATCAGA GCATAGCACT TTATTTTGAA
    GGGGAGAAGA ATCATCTTCA GGCTGGGAAG TTCTTTCAGA AGTGCGGACA GTACAGCAGG
    GCGCTGAAGC ACTTTTTGAA ATGTCCTAGC TCTGATGACA GTGTGGCCAT AGAGATGGCA
    ATTGAGGCGG TTGGAGAAGC TAAGGATGAA TCTTTAACCA ACCAGCTTAT TGATCATCTG
    ATGGGGGAAA GTGATGGAAT GCCAAAGGAT GCAAAATATC TTTTCCGGTT GTATATGGCT
    CTCAAACAAT ACAGAGAGGC AGCAAGAACT GCGATAATAA TCGCCAGAGA GGAGCAATCT
    GCAGGAAACT ACCGGAATGC CCATGATGTT TTGTTCAGCA TGTACGCTGA GCTTCAGACG
    CAGCACATTA AAATCCCCGC AGAGATGGCC ACAAACCTGA TGATCCTGCA CAGCTACATA
    TTAGTGAAGA TTCATGTTAA AAGAGGAGAT CATTTAAAGG GGGCACGAAT GCTTATCCGC
    GTGTCCAACA ATATCAGCAA ATTCCCATCC CACATTGTTC CAATCCTCAC ATCAGCGGTC
    ATTGAATGTC ATCGTGCTGG GTTAAGAAAC TCTGCCTTCA GTTTTGCCTC AATGCTGATG
    AGACCAGAGT ATCGTAACAA GATCGATCTG AAATACAAGA AGAAGATAGA AGCCATGGTC
    CGTCGTCCAG ATACTTCAGA GGTGGAGGAG GAGAGTTCAC CCTGTCCCTA CTGCGGCTTC
    AGCCTGCCCG ACTGTGAGCT GCTGTGTCCC GGCTGCAAAA ACAATCTGCC TTACTGCATC
    GCCACAGGTC GTCACATGGT CAAGGAGGAT TGGTGTGTCT GCCCACACTG TGATTTTCCT
    GCTCTTCATT CGCAGTTCAC CCAGCTGTTA GAGACTGAGT CGGTTTGCCC CATGTGCTCG
    GAGGCTTTAA ATGTCAGTGA GGTGAAAAAG GTTTTGGAGT GCTCCAAATA TCTGCAACAG
    GACCAACTAG AGCACTGA

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

    RefSeq XP_005170991.1
    CDS65..4102
    Translation

    Target ORF information:

    RefSeq Version XM_005170934.3
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio WD repeat domain 19 (wdr19), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005170934.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    ATGAAGCGTG TTTTCACGCT GTCAGAAAAG TCCTGGTCTG GATCATGTTT GCAATACAAG 
    TGGCAAAAAA CAGTGGGAAA CTATCTTGCT GTTGCAGGCC CTGACAATTT AGTGAAAATC
    TTCGATCGGC ATGGACAGAA GGTGAACGAG TTAAATCTCC CTGGCAATTG TGTATCTCTT
    GACTGGGATA AAGATGGCGA TATTTTGGCG GTGATTGCTG AGAAGTCCAG TTCTGTTTAC
    TTGTGGGATG CGAATGTCAA CAAAACCTCA CAGCTGGACA GTGGTATGAG AGATCAGATG
    TCATTTCTGC TGTGGTCCAA AACTGGGCCA CTATTGGCTG TTGGCACGTC CAAAGGCAAC
    CTACTGATCT ACAATCAGCA AACATCACGG AAGATTCCTG TTCTGGGTAA ACACACAAAG
    AAAATCACAT GTGGCTGCTG GAGCTCTCAG AACCTCCTGG CGTTGGGCAG CGAAGACCGC
    AGCATAACAA TCAGCAACCA CGAGGGAGAC ACCATTCGAC AGACCTCTGT GAGAGCTGAC
    CCTGCAGATG TTCAATTCTC TGTGATGAAA ACAGATGAGA GATCATCTCC AGGGCAAAGT
    ACTGTGAGTG TGGCTTTAGG AAAGAAGACG CTGTTTCTGT TTAACCTGAA TGATCCTGAT
    AACCCTATAG AACTGGCCTT CCAGCAGCGT TATGGCAACA TCATCTCCTA CCGCTGGTAT
    GGAGATGGCT ATATCATGAT TGGGTTTTCG CATGGTTATT TTGTGGTCAT TTCCACGCAC
    ATCCGTGAGA TTGGTCAAGA GTTGTTTCAG GCACACAATC ATAAAGACAG CCTGACAAGC
    ATCGCCATCT CACAGTCTCT AAACAAGGCC GCATCCTGTG GAGACAACTG TATCAAGATA
    CATGACCTGA CTGATCTGAA GGAGATGTAT GCTATAGTCA CTCTGGATGA GGAGACCAAA
    GGCCTTGATC AGATGTGTTG GACTGATGAC GGGCAGCTGT TAGCCGTGTC GTCTCAGCAG
    GGCACTTTGC ATGTCTTTCT CACCAAGCTG CCTATACTGG GAGACAGCAG TGGCACTAGA
    ATTGCCTATC TTACATCCCT GCTGGAGGTT ACAGTCGCTA ATCCAGTGGA AGGGGAATCC
    CCTGTTCCAG TTGCAGTTGA GGTGGAACCC AGTTTTATAG CTGTGGGACC ATATCATGTA
    GCTGTGGGCA TGAATAACAG AGCGTGGTTT TATGCATTAG GAGATAGCGG TGTGGAGCGT
    GTAAAGGACA CTGAGTATTT AGGGACAGTG GCCAGTATGT GTCTGAACTG TGACTATGCT
    GCTGCTCTGT TTGAGGGGAA ACTTCAGTTG CATGTGATTG ATGGAGATGA GCAGGTTGTT
    CAAGAGGACA GACAGACCAA ACTTTTTCCA GAACCCGATC AGAAATACAG AATCCTCAGT
    CATGCTCTCA CCTCTGATTT TCTCTATTAT GGGACTGATA CCGGGTTGAT TCAGTGTTTC
    TATTTCGAAG ATTGGCAGAG TGTGACTGAG TATCGACACA CAGTGGGTGT ACGCAAAGTC
    TTTCCAGACC CCAATGGAAC ACGTCTTGTT TTTATCGATG AAAAAAGTGA CGGCTTCCTA
    TACTGCCCGG TGAATGACTC AGTGTTTGAG ATCCCAGACT TTTCTCCTGC TATTAAAGGG
    GTGTTGTGGG AAAACTGGAT CAGCAGTAAG GGTGTGTTTG TAGCCTATGA AGAAGACAAA
    GTCTATACGT ATGCCTTCCA CAAAGACACT ATACAAGGTT CGAAAGTGAT TCTAGTTGGA
    GGCACCAAAT TGCCTTTTTC CCATAAGCCC TTGCTGTTGC ATAACGGCGA GCTGACATGT
    CAGACCCAGA GTGGGAAAAT CAACAGCGTG GTTCTGAACA CACATGCCTT CCTTAACAAC
    CAACACAGTG AATCCAGCAA AGACAAACTC CAGTCATTTC TGCAGCAGGC TGTCATGCTG
    AAACGGTTTT CAGATGCGTG GAGTATCTGT AAAGCTCTGA ACAGCAGTGA GGCGTGGGGT
    GAGCTGGGCA GGGCTTGTCT GCACCACATG GAGGTGGAAC TGGCCATCAG AGTGTATCGC
    ATGATGGGAA ATGTTGGCAT GGTCATGTCT CTAGAGGACA TTAAGGGAAT AGAGGATCAA
    AATTTGCTGG CGGGTCATTT GGCCATGTTC TGCAATGACT ACAACCGAGC CCAGGACCTC
    TATCTAACAT CTTCATATCC TATGGCGGCC CTAGAGATGA GAAGGGATCT GCAGCATTGG
    GACAGTGCAT TGCAGCTGGC TAAAAGACTG GACCCAGATG AGATCCCATT CATTTCTAAA
    GAATATGCAA TACAACTGGA GTTTGTTGGA GATTATGTGA ATGCATTGGC TCACTATGAG
    AAAGGAACAA CAGGAAACAA CAAGTTTCAG GATCATGATG AGAGCTGTCT GGCAGGAGTG
    GCTCGTATGT CTATTCGAAT GGGTGACATT CGTAGAGGAG CAAACCAGGC CATCAAACAC
    CCCAGTAAAG CTCTGAAAAA AGACTGCGGA GCCATCCTGG AGAGCATGAA GCAATACTCA
    GAAGCAGCTC AGCTGTATGA GAAAGGCCAG TACTATGACA AAGCTGCCTC TGTCTACATA
    CGCTGTAAAA ACTGGGCAAA GGTGGGAGAG CTCTTGCCCC ATGTGACTTC CCCAAAGATT
    CACCTTCAGT ACGCTAAGGC AAAAGAAGCT GATGGAAAAT ATAAAGAGGC AGCTATGGCC
    TATGAAAGTG CACGAGATTG GGACAACGTG ATTCGAATCT TGCTGGAGCA TCTTAACAAC
    CCAGAGGAAG CCGTGCGCAT TGTACGAGAA ACTCATTCTA TCGAAGGAGC CAAAATGGTT
    GCCAGGTTTT TCCTGCGTTT GAGTGATTAC GGATCAGCCA TCCAGTTCCT GGTCTTGTCA
    CGTTGCAGCG ACGAAGCATT TCAGCTAGCC CAGCAGCACG GCCAGATGGA GGTCTACGCT
    GACATCATTG GTTCGGAGGC CACAATAGAG GATTATCAGA GCATAGCACT TTATTTTGAA
    GGGGAGAAGA ATCATCTTCA GGCTGGGAAG TTCTTTCAGA AGTGCGGACA GTACAGCAGG
    GCGCTGAAGC ACTTTTTGAA ATGTCCTAGC TCTGATGACA GTGTGGCCAT AGAGATGGCA
    ATTGAGGCGG TTGGAGAAGC TAAGGATGAA TCTTTAACCA ACCAGCTTAT TGATCATCTG
    ATGGGGGAAA GTGATGGAAT GCCAAAGGAT GCAAAATATC TTTTCCGGTT GTATATGGCT
    CTCAAACAAT ACAGAGAGGC AGCAAGAACT GCGATAATAA TCGCCAGAGA GGAGCAATCT
    GCAGGAAACT ACCGGAATGC CCATGATGTT TTGTTCAGCA TGTACGCTGA GCTTCAGACG
    CAGCACATTA AAATCCCCGC AGAGATGGCC ACAAACCTGA TGATCCTGCA CAGCTACATA
    TTAGTGAAGA TTCATGTTAA AAGAGGAGAT CATTTAAAGG GGGCACGAAT GCTTATCCGC
    GTGTCCAACA ATATCAGCAA ATTCCCATCC CACATTGTTC CAATCCTCAC ATCAGCGGTC
    ATTGAATGTC ATCGTGCTGG GTTAAGAAAC TCTGCCTTCA GTTTTGCCTC AATGCTGATG
    AGACCAGAGT ATCGTAACAA GATCGATCTG AAATACAAGA AGAAGATAGA AGCCATGGTC
    CGTCGTCCAG ATACTTCAGA GGTGGAGGAG GAGAGTTCAC CCTGTCCCTA CTGCGGCTTC
    AGCCTGCCCG ACTGTGAGCT GCTGTGTCCC GGCTGCAAAA ACAATCTGCC TTACTGCATC
    GCCACAGGTC GTCACATGGT CAAGGAGGAT TGGTGTGTCT GCCCACACTG TGATTTTCCT
    GCTCTTCATT CGCAGTTCAC CCAGCTGTTA GAGACTGAGT CGGTTTGCCC CATGTGCTCG
    GAGGCTTTAA ATGTCAGTGA GGTGAAAAAG GTTTTGGAGT GCTCCAAATA TCTGCAACAG
    GACCAACTAG AGCACTGA

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

    CloneID ODa05697
    Clone ID Related Accession (Same CDS sequence) XM_005170934.3 , XM_021476315.1
    Accession Version XM_021476315.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4038bp)
    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 WD repeat-containing protein 19 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007112.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##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
    ATGAAGCGTG TTTTCACGCT GTCAGAAAAG TCCTGGTCTG GATCATGTTT GCAATACAAG 
    TGGCAAAAAA CAGTGGGAAA CTATCTTGCT GTTGCAGGCC CTGACAATTT AGTGAAAATC
    TTCGATCGGC ATGGACAGAA GGTGAACGAG TTAAATCTCC CTGGCAATTG TGTATCTCTT
    GACTGGGATA AAGATGGCGA TATTTTGGCG GTGATTGCTG AGAAGTCCAG TTCTGTTTAC
    TTGTGGGATG CGAATGTCAA CAAAACCTCA CAGCTGGACA GTGGTATGAG AGATCAGATG
    TCATTTCTGC TGTGGTCCAA AACTGGGCCA CTATTGGCTG TTGGCACGTC CAAAGGCAAC
    CTACTGATCT ACAATCAGCA AACATCACGG AAGATTCCTG TTCTGGGTAA ACACACAAAG
    AAAATCACAT GTGGCTGCTG GAGCTCTCAG AACCTCCTGG CGTTGGGCAG CGAAGACCGC
    AGCATAACAA TCAGCAACCA CGAGGGAGAC ACCATTCGAC AGACCTCTGT GAGAGCTGAC
    CCTGCAGATG TTCAATTCTC TGTGATGAAA ACAGATGAGA GATCATCTCC AGGGCAAAGT
    ACTGTGAGTG TGGCTTTAGG AAAGAAGACG CTGTTTCTGT TTAACCTGAA TGATCCTGAT
    AACCCTATAG AACTGGCCTT CCAGCAGCGT TATGGCAACA TCATCTCCTA CCGCTGGTAT
    GGAGATGGCT ATATCATGAT TGGGTTTTCG CATGGTTATT TTGTGGTCAT TTCCACGCAC
    ATCCGTGAGA TTGGTCAAGA GTTGTTTCAG GCACACAATC ATAAAGACAG CCTGACAAGC
    ATCGCCATCT CACAGTCTCT AAACAAGGCC GCATCCTGTG GAGACAACTG TATCAAGATA
    CATGACCTGA CTGATCTGAA GGAGATGTAT GCTATAGTCA CTCTGGATGA GGAGACCAAA
    GGCCTTGATC AGATGTGTTG GACTGATGAC GGGCAGCTGT TAGCCGTGTC GTCTCAGCAG
    GGCACTTTGC ATGTCTTTCT CACCAAGCTG CCTATACTGG GAGACAGCAG TGGCACTAGA
    ATTGCCTATC TTACATCCCT GCTGGAGGTT ACAGTCGCTA ATCCAGTGGA AGGGGAATCC
    CCTGTTCCAG TTGCAGTTGA GGTGGAACCC AGTTTTATAG CTGTGGGACC ATATCATGTA
    GCTGTGGGCA TGAATAACAG AGCGTGGTTT TATGCATTAG GAGATAGCGG TGTGGAGCGT
    GTAAAGGACA CTGAGTATTT AGGGACAGTG GCCAGTATGT GTCTGAACTG TGACTATGCT
    GCTGCTCTGT TTGAGGGGAA ACTTCAGTTG CATGTGATTG ATGGAGATGA GCAGGTTGTT
    CAAGAGGACA GACAGACCAA ACTTTTTCCA GAACCCGATC AGAAATACAG AATCCTCAGT
    CATGCTCTCA CCTCTGATTT TCTCTATTAT GGGACTGATA CCGGGTTGAT TCAGTGTTTC
    TATTTCGAAG ATTGGCAGAG TGTGACTGAG TATCGACACA CAGTGGGTGT ACGCAAAGTC
    TTTCCAGACC CCAATGGAAC ACGTCTTGTT TTTATCGATG AAAAAAGTGA CGGCTTCCTA
    TACTGCCCGG TGAATGACTC AGTGTTTGAG ATCCCAGACT TTTCTCCTGC TATTAAAGGG
    GTGTTGTGGG AAAACTGGAT CAGCAGTAAG GGTGTGTTTG TAGCCTATGA AGAAGACAAA
    GTCTATACGT ATGCCTTCCA CAAAGACACT ATACAAGGTT CGAAAGTGAT TCTAGTTGGA
    GGCACCAAAT TGCCTTTTTC CCATAAGCCC TTGCTGTTGC ATAACGGCGA GCTGACATGT
    CAGACCCAGA GTGGGAAAAT CAACAGCGTG GTTCTGAACA CACATGCCTT CCTTAACAAC
    CAACACAGTG AATCCAGCAA AGACAAACTC CAGTCATTTC TGCAGCAGGC TGTCATGCTG
    AAACGGTTTT CAGATGCGTG GAGTATCTGT AAAGCTCTGA ACAGCAGTGA GGCGTGGGGT
    GAGCTGGGCA GGGCTTGTCT GCACCACATG GAGGTGGAAC TGGCCATCAG AGTGTATCGC
    ATGATGGGAA ATGTTGGCAT GGTCATGTCT CTAGAGGACA TTAAGGGAAT AGAGGATCAA
    AATTTGCTGG CGGGTCATTT GGCCATGTTC TGCAATGACT ACAACCGAGC CCAGGACCTC
    TATCTAACAT CTTCATATCC TATGGCGGCC CTAGAGATGA GAAGGGATCT GCAGCATTGG
    GACAGTGCAT TGCAGCTGGC TAAAAGACTG GACCCAGATG AGATCCCATT CATTTCTAAA
    GAATATGCAA TACAACTGGA GTTTGTTGGA GATTATGTGA ATGCATTGGC TCACTATGAG
    AAAGGAACAA CAGGAAACAA CAAGTTTCAG GATCATGATG AGAGCTGTCT GGCAGGAGTG
    GCTCGTATGT CTATTCGAAT GGGTGACATT CGTAGAGGAG CAAACCAGGC CATCAAACAC
    CCCAGTAAAG CTCTGAAAAA AGACTGCGGA GCCATCCTGG AGAGCATGAA GCAATACTCA
    GAAGCAGCTC AGCTGTATGA GAAAGGCCAG TACTATGACA AAGCTGCCTC TGTCTACATA
    CGCTGTAAAA ACTGGGCAAA GGTGGGAGAG CTCTTGCCCC ATGTGACTTC CCCAAAGATT
    CACCTTCAGT ACGCTAAGGC AAAAGAAGCT GATGGAAAAT ATAAAGAGGC AGCTATGGCC
    TATGAAAGTG CACGAGATTG GGACAACGTG ATTCGAATCT TGCTGGAGCA TCTTAACAAC
    CCAGAGGAAG CCGTGCGCAT TGTACGAGAA ACTCATTCTA TCGAAGGAGC CAAAATGGTT
    GCCAGGTTTT TCCTGCGTTT GAGTGATTAC GGATCAGCCA TCCAGTTCCT GGTCTTGTCA
    CGTTGCAGCG ACGAAGCATT TCAGCTAGCC CAGCAGCACG GCCAGATGGA GGTCTACGCT
    GACATCATTG GTTCGGAGGC CACAATAGAG GATTATCAGA GCATAGCACT TTATTTTGAA
    GGGGAGAAGA ATCATCTTCA GGCTGGGAAG TTCTTTCAGA AGTGCGGACA GTACAGCAGG
    GCGCTGAAGC ACTTTTTGAA ATGTCCTAGC TCTGATGACA GTGTGGCCAT AGAGATGGCA
    ATTGAGGCGG TTGGAGAAGC TAAGGATGAA TCTTTAACCA ACCAGCTTAT TGATCATCTG
    ATGGGGGAAA GTGATGGAAT GCCAAAGGAT GCAAAATATC TTTTCCGGTT GTATATGGCT
    CTCAAACAAT ACAGAGAGGC AGCAAGAACT GCGATAATAA TCGCCAGAGA GGAGCAATCT
    GCAGGAAACT ACCGGAATGC CCATGATGTT TTGTTCAGCA TGTACGCTGA GCTTCAGACG
    CAGCACATTA AAATCCCCGC AGAGATGGCC ACAAACCTGA TGATCCTGCA CAGCTACATA
    TTAGTGAAGA TTCATGTTAA AAGAGGAGAT CATTTAAAGG GGGCACGAAT GCTTATCCGC
    GTGTCCAACA ATATCAGCAA ATTCCCATCC CACATTGTTC CAATCCTCAC ATCAGCGGTC
    ATTGAATGTC ATCGTGCTGG GTTAAGAAAC TCTGCCTTCA GTTTTGCCTC AATGCTGATG
    AGACCAGAGT ATCGTAACAA GATCGATCTG AAATACAAGA AGAAGATAGA AGCCATGGTC
    CGTCGTCCAG ATACTTCAGA GGTGGAGGAG GAGAGTTCAC CCTGTCCCTA CTGCGGCTTC
    AGCCTGCCCG ACTGTGAGCT GCTGTGTCCC GGCTGCAAAA ACAATCTGCC TTACTGCATC
    GCCACAGGTC GTCACATGGT CAAGGAGGAT TGGTGTGTCT GCCCACACTG TGATTTTCCT
    GCTCTTCATT CGCAGTTCAC CCAGCTGTTA GAGACTGAGT CGGTTTGCCC CATGTGCTCG
    GAGGCTTTAA ATGTCAGTGA GGTGAAAAAG GTTTTGGAGT GCTCCAAATA TCTGCAACAG
    GACCAACTAG AGCACTGA

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

    RefSeq XP_021331990.1
    CDS74..4111
    Translation

    Target ORF information:

    RefSeq Version XM_021476315.1
    Organism Danio rerio(zebrafish)
    Definition Danio rerio WD repeat domain 19 (wdr19), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021476315.1

    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
    ATGAAGCGTG TTTTCACGCT GTCAGAAAAG TCCTGGTCTG GATCATGTTT GCAATACAAG 
    TGGCAAAAAA CAGTGGGAAA CTATCTTGCT GTTGCAGGCC CTGACAATTT AGTGAAAATC
    TTCGATCGGC ATGGACAGAA GGTGAACGAG TTAAATCTCC CTGGCAATTG TGTATCTCTT
    GACTGGGATA AAGATGGCGA TATTTTGGCG GTGATTGCTG AGAAGTCCAG TTCTGTTTAC
    TTGTGGGATG CGAATGTCAA CAAAACCTCA CAGCTGGACA GTGGTATGAG AGATCAGATG
    TCATTTCTGC TGTGGTCCAA AACTGGGCCA CTATTGGCTG TTGGCACGTC CAAAGGCAAC
    CTACTGATCT ACAATCAGCA AACATCACGG AAGATTCCTG TTCTGGGTAA ACACACAAAG
    AAAATCACAT GTGGCTGCTG GAGCTCTCAG AACCTCCTGG CGTTGGGCAG CGAAGACCGC
    AGCATAACAA TCAGCAACCA CGAGGGAGAC ACCATTCGAC AGACCTCTGT GAGAGCTGAC
    CCTGCAGATG TTCAATTCTC TGTGATGAAA ACAGATGAGA GATCATCTCC AGGGCAAAGT
    ACTGTGAGTG TGGCTTTAGG AAAGAAGACG CTGTTTCTGT TTAACCTGAA TGATCCTGAT
    AACCCTATAG AACTGGCCTT CCAGCAGCGT TATGGCAACA TCATCTCCTA CCGCTGGTAT
    GGAGATGGCT ATATCATGAT TGGGTTTTCG CATGGTTATT TTGTGGTCAT TTCCACGCAC
    ATCCGTGAGA TTGGTCAAGA GTTGTTTCAG GCACACAATC ATAAAGACAG CCTGACAAGC
    ATCGCCATCT CACAGTCTCT AAACAAGGCC GCATCCTGTG GAGACAACTG TATCAAGATA
    CATGACCTGA CTGATCTGAA GGAGATGTAT GCTATAGTCA CTCTGGATGA GGAGACCAAA
    GGCCTTGATC AGATGTGTTG GACTGATGAC GGGCAGCTGT TAGCCGTGTC GTCTCAGCAG
    GGCACTTTGC ATGTCTTTCT CACCAAGCTG CCTATACTGG GAGACAGCAG TGGCACTAGA
    ATTGCCTATC TTACATCCCT GCTGGAGGTT ACAGTCGCTA ATCCAGTGGA AGGGGAATCC
    CCTGTTCCAG TTGCAGTTGA GGTGGAACCC AGTTTTATAG CTGTGGGACC ATATCATGTA
    GCTGTGGGCA TGAATAACAG AGCGTGGTTT TATGCATTAG GAGATAGCGG TGTGGAGCGT
    GTAAAGGACA CTGAGTATTT AGGGACAGTG GCCAGTATGT GTCTGAACTG TGACTATGCT
    GCTGCTCTGT TTGAGGGGAA ACTTCAGTTG CATGTGATTG ATGGAGATGA GCAGGTTGTT
    CAAGAGGACA GACAGACCAA ACTTTTTCCA GAACCCGATC AGAAATACAG AATCCTCAGT
    CATGCTCTCA CCTCTGATTT TCTCTATTAT GGGACTGATA CCGGGTTGAT TCAGTGTTTC
    TATTTCGAAG ATTGGCAGAG TGTGACTGAG TATCGACACA CAGTGGGTGT ACGCAAAGTC
    TTTCCAGACC CCAATGGAAC ACGTCTTGTT TTTATCGATG AAAAAAGTGA CGGCTTCCTA
    TACTGCCCGG TGAATGACTC AGTGTTTGAG ATCCCAGACT TTTCTCCTGC TATTAAAGGG
    GTGTTGTGGG AAAACTGGAT CAGCAGTAAG GGTGTGTTTG TAGCCTATGA AGAAGACAAA
    GTCTATACGT ATGCCTTCCA CAAAGACACT ATACAAGGTT CGAAAGTGAT TCTAGTTGGA
    GGCACCAAAT TGCCTTTTTC CCATAAGCCC TTGCTGTTGC ATAACGGCGA GCTGACATGT
    CAGACCCAGA GTGGGAAAAT CAACAGCGTG GTTCTGAACA CACATGCCTT CCTTAACAAC
    CAACACAGTG AATCCAGCAA AGACAAACTC CAGTCATTTC TGCAGCAGGC TGTCATGCTG
    AAACGGTTTT CAGATGCGTG GAGTATCTGT AAAGCTCTGA ACAGCAGTGA GGCGTGGGGT
    GAGCTGGGCA GGGCTTGTCT GCACCACATG GAGGTGGAAC TGGCCATCAG AGTGTATCGC
    ATGATGGGAA ATGTTGGCAT GGTCATGTCT CTAGAGGACA TTAAGGGAAT AGAGGATCAA
    AATTTGCTGG CGGGTCATTT GGCCATGTTC TGCAATGACT ACAACCGAGC CCAGGACCTC
    TATCTAACAT CTTCATATCC TATGGCGGCC CTAGAGATGA GAAGGGATCT GCAGCATTGG
    GACAGTGCAT TGCAGCTGGC TAAAAGACTG GACCCAGATG AGATCCCATT CATTTCTAAA
    GAATATGCAA TACAACTGGA GTTTGTTGGA GATTATGTGA ATGCATTGGC TCACTATGAG
    AAAGGAACAA CAGGAAACAA CAAGTTTCAG GATCATGATG AGAGCTGTCT GGCAGGAGTG
    GCTCGTATGT CTATTCGAAT GGGTGACATT CGTAGAGGAG CAAACCAGGC CATCAAACAC
    CCCAGTAAAG CTCTGAAAAA AGACTGCGGA GCCATCCTGG AGAGCATGAA GCAATACTCA
    GAAGCAGCTC AGCTGTATGA GAAAGGCCAG TACTATGACA AAGCTGCCTC TGTCTACATA
    CGCTGTAAAA ACTGGGCAAA GGTGGGAGAG CTCTTGCCCC ATGTGACTTC CCCAAAGATT
    CACCTTCAGT ACGCTAAGGC AAAAGAAGCT GATGGAAAAT ATAAAGAGGC AGCTATGGCC
    TATGAAAGTG CACGAGATTG GGACAACGTG ATTCGAATCT TGCTGGAGCA TCTTAACAAC
    CCAGAGGAAG CCGTGCGCAT TGTACGAGAA ACTCATTCTA TCGAAGGAGC CAAAATGGTT
    GCCAGGTTTT TCCTGCGTTT GAGTGATTAC GGATCAGCCA TCCAGTTCCT GGTCTTGTCA
    CGTTGCAGCG ACGAAGCATT TCAGCTAGCC CAGCAGCACG GCCAGATGGA GGTCTACGCT
    GACATCATTG GTTCGGAGGC CACAATAGAG GATTATCAGA GCATAGCACT TTATTTTGAA
    GGGGAGAAGA ATCATCTTCA GGCTGGGAAG TTCTTTCAGA AGTGCGGACA GTACAGCAGG
    GCGCTGAAGC ACTTTTTGAA ATGTCCTAGC TCTGATGACA GTGTGGCCAT AGAGATGGCA
    ATTGAGGCGG TTGGAGAAGC TAAGGATGAA TCTTTAACCA ACCAGCTTAT TGATCATCTG
    ATGGGGGAAA GTGATGGAAT GCCAAAGGAT GCAAAATATC TTTTCCGGTT GTATATGGCT
    CTCAAACAAT ACAGAGAGGC AGCAAGAACT GCGATAATAA TCGCCAGAGA GGAGCAATCT
    GCAGGAAACT ACCGGAATGC CCATGATGTT TTGTTCAGCA TGTACGCTGA GCTTCAGACG
    CAGCACATTA AAATCCCCGC AGAGATGGCC ACAAACCTGA TGATCCTGCA CAGCTACATA
    TTAGTGAAGA TTCATGTTAA AAGAGGAGAT CATTTAAAGG GGGCACGAAT GCTTATCCGC
    GTGTCCAACA ATATCAGCAA ATTCCCATCC CACATTGTTC CAATCCTCAC ATCAGCGGTC
    ATTGAATGTC ATCGTGCTGG GTTAAGAAAC TCTGCCTTCA GTTTTGCCTC AATGCTGATG
    AGACCAGAGT ATCGTAACAA GATCGATCTG AAATACAAGA AGAAGATAGA AGCCATGGTC
    CGTCGTCCAG ATACTTCAGA GGTGGAGGAG GAGAGTTCAC CCTGTCCCTA CTGCGGCTTC
    AGCCTGCCCG ACTGTGAGCT GCTGTGTCCC GGCTGCAAAA ACAATCTGCC TTACTGCATC
    GCCACAGGTC GTCACATGGT CAAGGAGGAT TGGTGTGTCT GCCCACACTG TGATTTTCCT
    GCTCTTCATT CGCAGTTCAC CCAGCTGTTA GAGACTGAGT CGGTTTGCCC CATGTGCTCG
    GAGGCTTTAA ATGTCAGTGA GGTGAAAAAG GTTTTGGAGT GCTCCAAATA TCTGCAACAG
    GACCAACTAG AGCACTGA

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

    CloneID ODa42354
    Clone ID Related Accession (Same CDS sequence) XM_009291110.2
    Accession Version XM_009291110.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4047bp)
    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 WD repeat-containing protein 19 isoform X1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007112.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2016 this sequence version replaced XM_009291110.1. ##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
    ATGAAGCGTG TTTTCACGCT GTCAGAAAAG TCCTGGTCTG GATCATGTTT GCAATACAAG 
    TGGCAAAAAA CAGTGGGAAA CTATCTTGCT GTTGCAGGCC CTGACAATTT AGTGAAAATC
    TTCGATCGGC ATGGACAGAA GGTGAACGAG TTAAATCTCC CTGGCAATTG TGTATCTCTT
    GACTGGGATA AAGATGGCGA TATTTTGGCG GTGATTGCTG AGAAGTCCAG TTCTGTTTAC
    TTGTGGGATG CGAATGTCAA CAAAACCTCA CAGCTGGACA GTGGTATGAG AGATCAGATG
    TCATTTCTGC TGTGGTCCAA AACTGGGCCA CTATTGGCTG TTGGCACGTC CAAAGGCAAC
    CTACTGATCT ACAATCAGCA AACATCACGG AAGATTCCTG TTCTGGGTAA ACACACAAAG
    AAAATCACAT GTGGCTGCTG GAGCTCTCAG AACCTCCTGG CGTTGGGCAG CGAAGACCGC
    AGCATAACAA TCAGCAACCA CGAGGGAGAC ACCATTCGAC AGACCTCTGT GAGAGCTGAC
    CCTGCAGATG TTCAATTCTC TGTGATGAAA ACAGATGAGA GATCATCTCC AGGGCAAAGT
    ACTGTGAGTG TGGCTTTAGG AAAGAAGACG CTGTTTCTGT TTAACCTGAA TGATCCTGAT
    AACCCTATAG AACTGGCCTT CCAGCAGCGT TATGGCAACA TCATCTCCTA CCGCTGGTAT
    GGAGATGGCT ATATCATGAT TGGGTTTTCG CATGGTTATT TTGTGGTCAT TTCCACGCAC
    ATCCGTGAGA TTGGTCAAGA GTTGTTTCAG GCACACAATC ATAAAGACAG CCTGACAAGC
    ATCGCCATCT CACAGTCTCT AAACAAGGCC GCATCCTGTG GAGACAACTG TATCAAGATA
    CATGACCTGA CTGATCTGAA GGAGATGTAT GCTATAGTCA CTCTGGATGA GGAGACCAAA
    GGCCTTGATC AGATGTGTTG GACTGATGAC GGGCAGCTGT TAGCCGTGTC GTCTCAGCAG
    GGCACTTTGC ATGTCTTTCT CACCAAGCTG CCTATACTGG GAGACAGCAG TGGCACTAGA
    ATTGCCTATC TTACATCCCT GCTGGAGGTT ACAGTCGCTA ATCCAGTGGA AGGGGAATCC
    CCTGTTCCAG TTGCAGTTGA GGTGGAACCC AGTTTTATAG CTGTGGGACC ATATCATGTA
    GCTGTGGGCA TGAATAACAG AGCGTGGTTT TATGCATTAG GAGATAGCGG TGTGGAGCGT
    GTAAAGGACA CTGAGTATTT AGGGACAGTG GCCAGTATGT GTCTGAACTG TGACTATGCT
    GCTGCTCTGT TTGAGGGGAA ACTTCAGTTG CATGTGATTG ATGGAGATGA GCAGGTTGTT
    CAAGAGGACA GACAGACCAA ACTTTTTCCA GAACCCGATC AGAAATACAG AATCCTCAGT
    CATGCTCTCA CCTCTGATTT TCTCTATTAT GGGACTGATA CCGGGTTGAT TCAGTGTTTC
    TATTTCGAAG ATTGGCAGAG TGTGACTGAG TATCGACACA CAGTGGGTGT ACGCAAAGTC
    TTTCCAGACC CCAATGGAAC ACGTCTTGTT TTTATCGATG AAAAAAGTGA CGGCTTCCTA
    TACTGCCCGG TGAATGACTC AGTGTTTGAG ATCCCAGACT TTTCTCCTGC TATTAAAGGG
    GTGTTGTGGG AAAACTGGAT CAGCAGTAAG GGTGTGTTTG TAGCCTATGA AGAAGACAAA
    GTCTATACGT ATGCCTTCCA CAAAGACACT ATACAAGGTT CGAAAGTGAT TCTAGTTGGA
    GGCACCAAAT TGCCTTTTTC CCATAAGCCC TTGCTGTTGC ATAACGGCGA GCTGACATGT
    CAGACCCAGA GTGGGAAAAT CAACAGCGTG GTTCTGAACA CACATGCCTT CCTTAACAAC
    CAACACAGTG AATCCAGCAA AGACAAACTC CAGTCATTTC TGCAGCAGGC TGTCATGCTG
    AAACGGTTTT CAGATGCGTG GAGTATCTGT AAAGCTCTGA ACAGCAGTGA GGCGTGGGGT
    GAGCTGGGCA GGGCTTGTCT GCACCACATG GAGGTGGAAC TGGCCATCAG AGTGTATCGC
    ATGATGGGAA ATGTTGGCAT GGTCATGTCT CTAGAGGACA TTAAGGGAAT AGAGGATCAA
    AATTTGCTGG CGGGTCATTT GGCCATGTTC TGCAATGACT ACAACCGAGC CCAGGACCTC
    TATCTAACAT CTTCATATCC TATGGCGGCC CTAGAGATGA GAAGGGATCT GCAGCATTGG
    GACAGTGCAT TGCAGCTGGC TAAAAGACTG GACCCAGATG AGATCCCATT CATTTCTAAA
    GAATATGCAA TACAACTGGA GTTTGTTGGA GATTATGTGA ATGCATTGGC TCACTATGAG
    AAAGGAACAA CAGGAAACAA CAAGTTTCAG GATCATGATG AGAGCTGTCT GGCAGGAGTG
    GCTCGTATGT CTATTCGAAT GGGTGACATT CGTAGAGGAG CAAACCAGGC CATCAAACAC
    CCCAGTAAAG CTCTGAAAAA AGACTGCGGA GCCATCCTGG AGAGCATGAA GCAATACTCA
    GAAGCAGCTC AGCTGTATGA GAAAGGCCAG TACTATGACA AAGCTGCCTC TGTCTACATA
    CGCTGTAAAA ACTGGGCAAA GGTGGGAGAG CTCTTGCCCC ATGTGACTTC CCCAAAGATT
    CACCTTCAGT ACGCTAAGGC AAAAGAAGCT GATGGAAAAT ATAAAGAGGC AGCTATGGCC
    TATGAAAGTG CACGAGATTG GGACAACGTG ATTCGAATCT TGCTGGAGCA TCTTAACAAC
    CCAGAGGAAG CCGTGCGCAT TGTACGAGAA ACTCATTCTA TCGAAGGAGC CAAAATGGTT
    GCCAGGTTTT TCCTGCGTTT GAGTGATTAC GGATCAGCCA TCCAGTTCCT GGTCTTGTCA
    CGTTGCAGCG ACGAAGCATT TCAGCTAGCC CAGCAGCACG GCCAGATGGA GGTCTACGCT
    GACATCATTG GTTCGGAGGC CACAATAGAG GATTATCAGA GCATAGCACT TTATTTTGAA
    GGGGAGAAGA ATCATCTTCA GGCTGGGAAG TTCTTTCAGA AGTGCGGACA GTACAGCAGG
    GCGCTGAAGC ACTTTTTGAA ATGTCCTAGC TCTGATGACA GTGTGGCCAT AGAGATGGCA
    ATTGAGGCGG TTGGAGAAGC TAAGGATGAA TCTTTAACCA ACCAGCTTAT TGATCATCTG
    ATGGGGGAAA GTGATGGAAT GCCAAAGTCT CTCGCCGATG CAAAATATCT TTTCCGGTTG
    TATATGGCTC TCAAACAATA CAGAGAGGCA GCAAGAACTG CGATAATAAT CGCCAGAGAG
    GAGCAATCTG CAGGAAACTA CCGGAATGCC CATGATGTTT TGTTCAGCAT GTACGCTGAG
    CTTCAGACGC AGCACATTAA AATCCCCGCA GAGATGGCCA CAAACCTGAT GATCCTGCAC
    AGCTACATAT TAGTGAAGAT TCATGTTAAA AGAGGAGATC ATTTAAAGGG GGCACGAATG
    CTTATCCGCG TGTCCAACAA TATCAGCAAA TTCCCATCCC ACATTGTTCC AATCCTCACA
    TCAGCGGTCA TTGAATGTCA TCGTGCTGGG TTAAGAAACT CTGCCTTCAG TTTTGCCTCA
    ATGCTGATGA GACCAGAGTA TCGTAACAAG ATCGATCTGA AATACAAGAA GAAGATAGAA
    GCCATGGTCC GTCGTCCAGA TACTTCAGAG GTGGAGGAGG AGAGTTCACC CTGTCCCTAC
    TGCGGCTTCA GCCTGCCCGA CTGTGAGCTG CTGTGTCCCG GCTGCAAAAA CAATCTGCCT
    TACTGCATCG CCACAGGTCG TCACATGGTC AAGGAGGATT GGTGTGTCTG CCCACACTGT
    GATTTTCCTG CTCTTCATTC GCAGTTCACC CAGCTGTTAG AGACTGAGTC GGTTTGCCCC
    ATGTGCTCGG AGGCTTTAAA TGTCAGTGAG GTGAAAAAGG TTTTGGAGTG CTCCAAATAT
    CTGCAACAGG ACCAACTAGA GCACTGA

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

    RefSeq XP_009289385.1
    CDS65..4111
    Translation

    Target ORF information:

    RefSeq Version XM_009291110.2
    Organism Danio rerio(Zebrafish)
    Definition Danio rerio WD repeat domain 19 (wdr19), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_009291110.2

    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
    ATGAAGCGTG TTTTCACGCT GTCAGAAAAG TCCTGGTCTG GATCATGTTT GCAATACAAG 
    TGGCAAAAAA CAGTGGGAAA CTATCTTGCT GTTGCAGGCC CTGACAATTT AGTGAAAATC
    TTCGATCGGC ATGGACAGAA GGTGAACGAG TTAAATCTCC CTGGCAATTG TGTATCTCTT
    GACTGGGATA AAGATGGCGA TATTTTGGCG GTGATTGCTG AGAAGTCCAG TTCTGTTTAC
    TTGTGGGATG CGAATGTCAA CAAAACCTCA CAGCTGGACA GTGGTATGAG AGATCAGATG
    TCATTTCTGC TGTGGTCCAA AACTGGGCCA CTATTGGCTG TTGGCACGTC CAAAGGCAAC
    CTACTGATCT ACAATCAGCA AACATCACGG AAGATTCCTG TTCTGGGTAA ACACACAAAG
    AAAATCACAT GTGGCTGCTG GAGCTCTCAG AACCTCCTGG CGTTGGGCAG CGAAGACCGC
    AGCATAACAA TCAGCAACCA CGAGGGAGAC ACCATTCGAC AGACCTCTGT GAGAGCTGAC
    CCTGCAGATG TTCAATTCTC TGTGATGAAA ACAGATGAGA GATCATCTCC AGGGCAAAGT
    ACTGTGAGTG TGGCTTTAGG AAAGAAGACG CTGTTTCTGT TTAACCTGAA TGATCCTGAT
    AACCCTATAG AACTGGCCTT CCAGCAGCGT TATGGCAACA TCATCTCCTA CCGCTGGTAT
    GGAGATGGCT ATATCATGAT TGGGTTTTCG CATGGTTATT TTGTGGTCAT TTCCACGCAC
    ATCCGTGAGA TTGGTCAAGA GTTGTTTCAG GCACACAATC ATAAAGACAG CCTGACAAGC
    ATCGCCATCT CACAGTCTCT AAACAAGGCC GCATCCTGTG GAGACAACTG TATCAAGATA
    CATGACCTGA CTGATCTGAA GGAGATGTAT GCTATAGTCA CTCTGGATGA GGAGACCAAA
    GGCCTTGATC AGATGTGTTG GACTGATGAC GGGCAGCTGT TAGCCGTGTC GTCTCAGCAG
    GGCACTTTGC ATGTCTTTCT CACCAAGCTG CCTATACTGG GAGACAGCAG TGGCACTAGA
    ATTGCCTATC TTACATCCCT GCTGGAGGTT ACAGTCGCTA ATCCAGTGGA AGGGGAATCC
    CCTGTTCCAG TTGCAGTTGA GGTGGAACCC AGTTTTATAG CTGTGGGACC ATATCATGTA
    GCTGTGGGCA TGAATAACAG AGCGTGGTTT TATGCATTAG GAGATAGCGG TGTGGAGCGT
    GTAAAGGACA CTGAGTATTT AGGGACAGTG GCCAGTATGT GTCTGAACTG TGACTATGCT
    GCTGCTCTGT TTGAGGGGAA ACTTCAGTTG CATGTGATTG ATGGAGATGA GCAGGTTGTT
    CAAGAGGACA GACAGACCAA ACTTTTTCCA GAACCCGATC AGAAATACAG AATCCTCAGT
    CATGCTCTCA CCTCTGATTT TCTCTATTAT GGGACTGATA CCGGGTTGAT TCAGTGTTTC
    TATTTCGAAG ATTGGCAGAG TGTGACTGAG TATCGACACA CAGTGGGTGT ACGCAAAGTC
    TTTCCAGACC CCAATGGAAC ACGTCTTGTT TTTATCGATG AAAAAAGTGA CGGCTTCCTA
    TACTGCCCGG TGAATGACTC AGTGTTTGAG ATCCCAGACT TTTCTCCTGC TATTAAAGGG
    GTGTTGTGGG AAAACTGGAT CAGCAGTAAG GGTGTGTTTG TAGCCTATGA AGAAGACAAA
    GTCTATACGT ATGCCTTCCA CAAAGACACT ATACAAGGTT CGAAAGTGAT TCTAGTTGGA
    GGCACCAAAT TGCCTTTTTC CCATAAGCCC TTGCTGTTGC ATAACGGCGA GCTGACATGT
    CAGACCCAGA GTGGGAAAAT CAACAGCGTG GTTCTGAACA CACATGCCTT CCTTAACAAC
    CAACACAGTG AATCCAGCAA AGACAAACTC CAGTCATTTC TGCAGCAGGC TGTCATGCTG
    AAACGGTTTT CAGATGCGTG GAGTATCTGT AAAGCTCTGA ACAGCAGTGA GGCGTGGGGT
    GAGCTGGGCA GGGCTTGTCT GCACCACATG GAGGTGGAAC TGGCCATCAG AGTGTATCGC
    ATGATGGGAA ATGTTGGCAT GGTCATGTCT CTAGAGGACA TTAAGGGAAT AGAGGATCAA
    AATTTGCTGG CGGGTCATTT GGCCATGTTC TGCAATGACT ACAACCGAGC CCAGGACCTC
    TATCTAACAT CTTCATATCC TATGGCGGCC CTAGAGATGA GAAGGGATCT GCAGCATTGG
    GACAGTGCAT TGCAGCTGGC TAAAAGACTG GACCCAGATG AGATCCCATT CATTTCTAAA
    GAATATGCAA TACAACTGGA GTTTGTTGGA GATTATGTGA ATGCATTGGC TCACTATGAG
    AAAGGAACAA CAGGAAACAA CAAGTTTCAG GATCATGATG AGAGCTGTCT GGCAGGAGTG
    GCTCGTATGT CTATTCGAAT GGGTGACATT CGTAGAGGAG CAAACCAGGC CATCAAACAC
    CCCAGTAAAG CTCTGAAAAA AGACTGCGGA GCCATCCTGG AGAGCATGAA GCAATACTCA
    GAAGCAGCTC AGCTGTATGA GAAAGGCCAG TACTATGACA AAGCTGCCTC TGTCTACATA
    CGCTGTAAAA ACTGGGCAAA GGTGGGAGAG CTCTTGCCCC ATGTGACTTC CCCAAAGATT
    CACCTTCAGT ACGCTAAGGC AAAAGAAGCT GATGGAAAAT ATAAAGAGGC AGCTATGGCC
    TATGAAAGTG CACGAGATTG GGACAACGTG ATTCGAATCT TGCTGGAGCA TCTTAACAAC
    CCAGAGGAAG CCGTGCGCAT TGTACGAGAA ACTCATTCTA TCGAAGGAGC CAAAATGGTT
    GCCAGGTTTT TCCTGCGTTT GAGTGATTAC GGATCAGCCA TCCAGTTCCT GGTCTTGTCA
    CGTTGCAGCG ACGAAGCATT TCAGCTAGCC CAGCAGCACG GCCAGATGGA GGTCTACGCT
    GACATCATTG GTTCGGAGGC CACAATAGAG GATTATCAGA GCATAGCACT TTATTTTGAA
    GGGGAGAAGA ATCATCTTCA GGCTGGGAAG TTCTTTCAGA AGTGCGGACA GTACAGCAGG
    GCGCTGAAGC ACTTTTTGAA ATGTCCTAGC TCTGATGACA GTGTGGCCAT AGAGATGGCA
    ATTGAGGCGG TTGGAGAAGC TAAGGATGAA TCTTTAACCA ACCAGCTTAT TGATCATCTG
    ATGGGGGAAA GTGATGGAAT GCCAAAGTCT CTCGCCGATG CAAAATATCT TTTCCGGTTG
    TATATGGCTC TCAAACAATA CAGAGAGGCA GCAAGAACTG CGATAATAAT CGCCAGAGAG
    GAGCAATCTG CAGGAAACTA CCGGAATGCC CATGATGTTT TGTTCAGCAT GTACGCTGAG
    CTTCAGACGC AGCACATTAA AATCCCCGCA GAGATGGCCA CAAACCTGAT GATCCTGCAC
    AGCTACATAT TAGTGAAGAT TCATGTTAAA AGAGGAGATC ATTTAAAGGG GGCACGAATG
    CTTATCCGCG TGTCCAACAA TATCAGCAAA TTCCCATCCC ACATTGTTCC AATCCTCACA
    TCAGCGGTCA TTGAATGTCA TCGTGCTGGG TTAAGAAACT CTGCCTTCAG TTTTGCCTCA
    ATGCTGATGA GACCAGAGTA TCGTAACAAG ATCGATCTGA AATACAAGAA GAAGATAGAA
    GCCATGGTCC GTCGTCCAGA TACTTCAGAG GTGGAGGAGG AGAGTTCACC CTGTCCCTAC
    TGCGGCTTCA GCCTGCCCGA CTGTGAGCTG CTGTGTCCCG GCTGCAAAAA CAATCTGCCT
    TACTGCATCG CCACAGGTCG TCACATGGTC AAGGAGGATT GGTGTGTCTG CCCACACTGT
    GATTTTCCTG CTCTTCATTC GCAGTTCACC CAGCTGTTAG AGACTGAGTC GGTTTGCCCC
    ATGTGCTCGG AGGCTTTAAA TGTCAGTGAG GTGAAAAAGG TTTTGGAGTG CTCCAAATAT
    CTGCAACAGG ACCAACTAGA GCACTGA

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