| Gene Symbol | CDK13 |
| Entrez Gene ID | 100229652 |
| Full Name | cyclin dependent kinase 13 |
| Gene Type | protein-coding |
| Organism | Taeniopygia guttata(zebra finch) |
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CDK13 cDNA ORF clone, Taeniopygia guttata(zebra finch)
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Gene
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Clones
gRNAs
The following CDK13 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CDK13 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.
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Reference Sequences (Refseq)
CloneID OTd19347 Clone ID Related Accession (Same CDS sequence) XM_012571459.1 Accession Version XM_012571459.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4152bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector 
User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1432483200000 Organism Taeniopygia guttata(zebra finch) Product cyclin-dependent kinase 13 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198269.1) 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 :: Taeniopygia guttata Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
3901
3961
4021
4081
4141ATGGGAGTAA CATTCGAGGA CGCAAGTTCC CAGTCCGAGG GACTGTTGGG CAGCGGCGCG
GCCGGCGGGG GCAGCCCGGG CTCCTCCTCG GGCGGTGGGA CCCAGCGGCA GCGGGGCGAG
GCAGAGCGAA GCGGCCGGTC CCGTCGGGAG CACCGCGGCA GCAGCGGGCG CTCCAAGGAG
CGGCATCGAG AGCACCGCCG GCGGGGAGAG GAAAAGGCGC AGCAGGAGGG GACGGCGGCA
CCAGGCCGCG GGGCATCCGA GCCCTCCTCG TCCTCCAAAT CCCGCAGCCG CCACAACCAC
ACCGGGAGCC AAGACCGGGA GGGACTCAAG AGCAGCAGCA GCAGCGGCGG TGGCAGCGAC
AGCCGCAGGA AGGGCTCCCT CCCCTCACCC AGCAGCGGCA GGAAAGACCG GGAGAGCAAA
TCGCACCGGA GCCGGACTAA AGCGGCTAAA GAGCCACCGT CGGCGTACAA GGACCCTCCA
AAAGCTTACC GGGACGACAA GCTCGAGCCC AAGGCGTACC GGCGGCAGCG CTCGTCGCCC
AGCCCCGGGC GGGATGACAG CCCTCCTCTG CACCGCTCCT CGCAAAGCCA GCGCAGCCGC
AAGTCGCTCA GCCCGGTGGG CGCCCGCTCG CCACTTAGCC CCTACAGCCG ACGCCGATCC
CCCAGCTACA GCCGGCACAG CTCGTACGAA CGCGGCGGGG ATGTGTCGCC CAGCCCCTAC
AGCAGCTGGC GCCGGTCTCG AAGCCCCTAC AGCCCCGTTA TCCGGAGATC AGCAAAATCT
CGAAGCAGAA GTCCATATTC ATCTAGACAC TCCAGGTCTC GTAGCAGACA CAGATTGTCT
AGATCCAGAA GTCGTCATTC AAGTATTTCT CCTAGTACAT TGACTCTGAA GAGTAGCCTG
GCTGCTGAGC TGAACAAAAA CAAAAAAGCT AGAGCTGCTG AGGCAGCCAA AGCTAGTGCG
AAAGCTTCCA ATACTTCAAC ACCTACTAAG GGAAACACTG ATACTGCTGC TGTAAGTGCA
CCTCAAGTGA ACAATGTTAA GGACCTGAAG AAAATCAAAA CTGAGCATAC ACCTTCTCCT
ACCAGCAGTG CAAATCTGAA AAATGACAAG GCAAAAGCAA AGGTCTCGCT TCCTGAAACA
AAGGCAGAAA ATAATTTAAT TGCAGACAAA ATTACGAAAC AGAAGCCTGC AGCAGTAAAA
GAGAATAAAG TGACTGTTGT GAAGCAGCAA CCGGTCCCTG TAAAAGAGAA AAGCAAACCA
AGTACACCAA GTGTAGTAGC CAAGGAGAAG GATCGAATTG TTGCACTACC GACCTCCACA
CTACCACCCT TGCCTTTGCC TCCCACGCTG CCTGAAGATA AAGAAACTGA TAGTTTGAGA
GAAAATCTTT CAGTGAAGTC AGTTAAAGAA ACAGAGAAGA AACTTCGCCA CCTGCTTGCA
GACTTGCCAC TTCCACCTGA GTTGCCTGGA GGAACTGAGG TACCCAAAAG TCCTGAAGAA
AAGAAACCAG CAGTTCAGTT ACATACCAAG AGAAGACCAA AAATATGTGG ACCACGACAT
GGTGAAACGA AAGAAAAAGA AATAGACTGG GGAAAGCGCT GTGTGGATAA ATTTGATATC
ATTGGTATTA TTGGTGAAGG CACTTATGGG CAAGTTTACA AAGCCAGAGA TAAAGATACA
GGGGAGATGG TAGCACTGAA GAAAGTACGA CTGGATAATG AAAAGGAAGG GTTTCCAATT
ACAGCTATTC GAGAGATTAA GATTCTTCGA CAGCTTAATC ATCAAAGCAT TATCAACATG
AAGGAAATAG TGACGGATAA GGAAGATGCT TTAGACTTCA AGAAGGACAA AGGTGCATTT
TACCTGGTAT TTGAATATAT GGACCATGAC TTGATGGGAT TGCTCGAATC TGGTTTGGTT
CATTTTAATG AAAATCATAT TAAATCTTTT ATGAGACAGC TGATGGAGGG CTTGGCCTAT
TGCCACAAGA AGAACTTTTT GCACAGAGAT ATCAAATGTT CAAATATTCT ACTAAATAAT
AGAGGGCAGA TAAAGCTCGC CGATTTTGGG CTTGCTCGGT TGTACAACTC AGAAGAAAGC
CGACCATATA CCAACAAAGT TATTACATTA TGGTATCGAC CTCCTGAACT TCTCCTTGGG
GAAGAAAGAT ACACACCAGC TATCGATGTC TGGAGCTGTG GCTGTATCCT GGGTGAACTT
TTTACAAAAA AGCCAATATT CCAAGCAAAT CAAGAACTTG CTCAACTGGA ACTCATAAGC
CGAATTTGCG GAAGTCCTTG TCCAGCAGTG TGGCCTGATG TTATAAAATT AGCTTATTTC
AACACAATGA AACCAAAGAA GCAGTATCGT CGAAAACTGA GAGAAGAGTT TGCTTTCATC
CCACCAGCTG CATTAGATTT ATTTGACTAT ATGCTTGCCC TGGATCCCAG CAAGCGCTGC
ACAGCTGAAC AAGCTCTTCA GTGTGAGTTT CTGCGAGATG TGGAGCCATC TAAAATGCCT
CCTCCAGACC TTCCTTTGTG GCAGGATTGC CATGAGCTGT GGAGTAAGAA ACGCAGAAGA
CAGAAGCAGA TGGGCATGAC TGATGACTCT ACAGCAGCTA AAGTCCCTAG GAAGGATCTG
TCTCTAGGCA TGGATGAGAG CAGAACCAAC ACCCCACAAG GCATGCAAAC TTCTTCCCAA
CTCAAAACTC AGGGCAGCTC TAGTGTAGCA CTTGCAAAAA CAAGCACTGG ACAGCAGTTA
AACCAGAATG AAGTGGCAAT CCTGCTAAAC CTGCTACAGT CTAAAACAAG TGTTAGTTTG
GCACAGTTTG CCCAAGTATT GAATATTAAG GTAAACCCAG AGACTCAACA GCAACTAAAT
AAAATAAATC TTCCTGCTGG GATTTTGTCA GCAGGTGAAA AACAGTCAGA ACAGCAGCAG
CAGCCGCCGC CACCTCCGCC ACCACCTCCA GAGCAGGAGC CCCTAAAACA GCCGACGGTC
ACGCAGCTCC CTGTGCCACC TGCTCAGCTG GGTCAGCCTA AAGTGGAGAC TGATGCTGCC
CAGGCAGCTG TGCAGAGTGC ATTTGCTGTT CTGTTGTCTC AGTTAATAAA GGCTCAGCAA
ACAAAGCAAA AAGATTTTGT GTTGGAGGAG AAGGAAAATG GATCAGGAAA TGAAATGTCA
TTACAACTCA GGCAGCCTCC AGAGCCTGCC ACTCCTGTGT CTGTCAGCCG GGACGACATG
GAATCTCCGG CACCTGGCTA CCCACATCTG ATCAAATCGT TATATATGTC TGCAGGTCAA
GAGGATTTGG TTAGGCAGTC TGAGATGAGG CTTATGAACC GAACACCTGA GCAGGAGCGC
CCTCGGATCC TGCCTCCGGA CCAGCGTCCT CCTGAGCCAC CGGAGCCTCC ACCACTCACT
GATGAAGACC TTGATTATCG GACAGAGAAT CAGCATTTGC CTATAAGTAA CTCTTCAGGA
ACAGATCCTC ACGCAGGAGT GAAAGCAGCT CTTCTGCAGC TGCTGGCTCA GCATCAAGCT
CAGGCAACAA CGGAGGAGCC AGTACAAACG AGTGTGGATT ATCAGGCTAG AGACTCCTAT
GTAACAGGCC CAGACTACAA GGATAGCTTT GGCTCATCAT CCTTCTCATC TGCCTGTTAC
AGCACTAGTG ATGGAATAGG AAGCGGATCA TCAGGAGTAT TAGAAAGGAG GAGTTTCCTT
GGAAACTCAG ATATTCAGTC TTTGGATAAC TACAGTACTG CTTCATCTCA CTCTGGTGCT
GCCCCTCCTC CATCAGCCTT TCCAGAATCC TTTCCCAGCT CAGTAACTGG TTACAGAGAC
ATTTACCTCA ATGCTGGCCC CATGCTCTTC AGTGGAGATA AAGACCATAG GTTTGAATAC
AGCCATGGCC CAATCCCAGT TTTAGGGAGC AGCAGTGATG CTTCCACAGG GCCAGAGAGT
GCACACTCTT TGCCCACAAA GATGCACAAC TATAGCTATG GAAGTAATTT ACAGGAAAAT
CCCACTGGCA TCAACCACAT GCATGGACAG ACTTGGACTT CTCCTGCCCA AGGACCTGGC
TATTCCCAAG GATACAGGGG ACACATTAGC ACATCTGCAG TGAGAGGGCG AGGCAGAGGA
TTACCATATT GAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_012426913.1 CDS 1..4152 Translation 
Target ORF information:
RefSeq Version XM_012571459.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata cyclin-dependent kinase 13 (CDK13), mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_012571459.1
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
4141ATGGGAGTAA CATTCGAGGA CGCAAGTTCC CAGTCCGAGG GACTGTTGGG CAGCGGCGCG
GCCGGCGGGG GCAGCCCGGG CTCCTCCTCG GGCGGTGGGA CCCAGCGGCA GCGGGGCGAG
GCAGAGCGAA GCGGCCGGTC CCGTCGGGAG CACCGCGGCA GCAGCGGGCG CTCCAAGGAG
CGGCATCGAG AGCACCGCCG GCGGGGAGAG GAAAAGGCGC AGCAGGAGGG GACGGCGGCA
CCAGGCCGCG GGGCATCCGA GCCCTCCTCG TCCTCCAAAT CCCGCAGCCG CCACAACCAC
ACCGGGAGCC AAGACCGGGA GGGACTCAAG AGCAGCAGCA GCAGCGGCGG TGGCAGCGAC
AGCCGCAGGA AGGGCTCCCT CCCCTCACCC AGCAGCGGCA GGAAAGACCG GGAGAGCAAA
TCGCACCGGA GCCGGACTAA AGCGGCTAAA GAGCCACCGT CGGCGTACAA GGACCCTCCA
AAAGCTTACC GGGACGACAA GCTCGAGCCC AAGGCGTACC GGCGGCAGCG CTCGTCGCCC
AGCCCCGGGC GGGATGACAG CCCTCCTCTG CACCGCTCCT CGCAAAGCCA GCGCAGCCGC
AAGTCGCTCA GCCCGGTGGG CGCCCGCTCG CCACTTAGCC CCTACAGCCG ACGCCGATCC
CCCAGCTACA GCCGGCACAG CTCGTACGAA CGCGGCGGGG ATGTGTCGCC CAGCCCCTAC
AGCAGCTGGC GCCGGTCTCG AAGCCCCTAC AGCCCCGTTA TCCGGAGATC AGCAAAATCT
CGAAGCAGAA GTCCATATTC ATCTAGACAC TCCAGGTCTC GTAGCAGACA CAGATTGTCT
AGATCCAGAA GTCGTCATTC AAGTATTTCT CCTAGTACAT TGACTCTGAA GAGTAGCCTG
GCTGCTGAGC TGAACAAAAA CAAAAAAGCT AGAGCTGCTG AGGCAGCCAA AGCTAGTGCG
AAAGCTTCCA ATACTTCAAC ACCTACTAAG GGAAACACTG ATACTGCTGC TGTAAGTGCA
CCTCAAGTGA ACAATGTTAA GGACCTGAAG AAAATCAAAA CTGAGCATAC ACCTTCTCCT
ACCAGCAGTG CAAATCTGAA AAATGACAAG GCAAAAGCAA AGGTCTCGCT TCCTGAAACA
AAGGCAGAAA ATAATTTAAT TGCAGACAAA ATTACGAAAC AGAAGCCTGC AGCAGTAAAA
GAGAATAAAG TGACTGTTGT GAAGCAGCAA CCGGTCCCTG TAAAAGAGAA AAGCAAACCA
AGTACACCAA GTGTAGTAGC CAAGGAGAAG GATCGAATTG TTGCACTACC GACCTCCACA
CTACCACCCT TGCCTTTGCC TCCCACGCTG CCTGAAGATA AAGAAACTGA TAGTTTGAGA
GAAAATCTTT CAGTGAAGTC AGTTAAAGAA ACAGAGAAGA AACTTCGCCA CCTGCTTGCA
GACTTGCCAC TTCCACCTGA GTTGCCTGGA GGAACTGAGG TACCCAAAAG TCCTGAAGAA
AAGAAACCAG CAGTTCAGTT ACATACCAAG AGAAGACCAA AAATATGTGG ACCACGACAT
GGTGAAACGA AAGAAAAAGA AATAGACTGG GGAAAGCGCT GTGTGGATAA ATTTGATATC
ATTGGTATTA TTGGTGAAGG CACTTATGGG CAAGTTTACA AAGCCAGAGA TAAAGATACA
GGGGAGATGG TAGCACTGAA GAAAGTACGA CTGGATAATG AAAAGGAAGG GTTTCCAATT
ACAGCTATTC GAGAGATTAA GATTCTTCGA CAGCTTAATC ATCAAAGCAT TATCAACATG
AAGGAAATAG TGACGGATAA GGAAGATGCT TTAGACTTCA AGAAGGACAA AGGTGCATTT
TACCTGGTAT TTGAATATAT GGACCATGAC TTGATGGGAT TGCTCGAATC TGGTTTGGTT
CATTTTAATG AAAATCATAT TAAATCTTTT ATGAGACAGC TGATGGAGGG CTTGGCCTAT
TGCCACAAGA AGAACTTTTT GCACAGAGAT ATCAAATGTT CAAATATTCT ACTAAATAAT
AGAGGGCAGA TAAAGCTCGC CGATTTTGGG CTTGCTCGGT TGTACAACTC AGAAGAAAGC
CGACCATATA CCAACAAAGT TATTACATTA TGGTATCGAC CTCCTGAACT TCTCCTTGGG
GAAGAAAGAT ACACACCAGC TATCGATGTC TGGAGCTGTG GCTGTATCCT GGGTGAACTT
TTTACAAAAA AGCCAATATT CCAAGCAAAT CAAGAACTTG CTCAACTGGA ACTCATAAGC
CGAATTTGCG GAAGTCCTTG TCCAGCAGTG TGGCCTGATG TTATAAAATT AGCTTATTTC
AACACAATGA AACCAAAGAA GCAGTATCGT CGAAAACTGA GAGAAGAGTT TGCTTTCATC
CCACCAGCTG CATTAGATTT ATTTGACTAT ATGCTTGCCC TGGATCCCAG CAAGCGCTGC
ACAGCTGAAC AAGCTCTTCA GTGTGAGTTT CTGCGAGATG TGGAGCCATC TAAAATGCCT
CCTCCAGACC TTCCTTTGTG GCAGGATTGC CATGAGCTGT GGAGTAAGAA ACGCAGAAGA
CAGAAGCAGA TGGGCATGAC TGATGACTCT ACAGCAGCTA AAGTCCCTAG GAAGGATCTG
TCTCTAGGCA TGGATGAGAG CAGAACCAAC ACCCCACAAG GCATGCAAAC TTCTTCCCAA
CTCAAAACTC AGGGCAGCTC TAGTGTAGCA CTTGCAAAAA CAAGCACTGG ACAGCAGTTA
AACCAGAATG AAGTGGCAAT CCTGCTAAAC CTGCTACAGT CTAAAACAAG TGTTAGTTTG
GCACAGTTTG CCCAAGTATT GAATATTAAG GTAAACCCAG AGACTCAACA GCAACTAAAT
AAAATAAATC TTCCTGCTGG GATTTTGTCA GCAGGTGAAA AACAGTCAGA ACAGCAGCAG
CAGCCGCCGC CACCTCCGCC ACCACCTCCA GAGCAGGAGC CCCTAAAACA GCCGACGGTC
ACGCAGCTCC CTGTGCCACC TGCTCAGCTG GGTCAGCCTA AAGTGGAGAC TGATGCTGCC
CAGGCAGCTG TGCAGAGTGC ATTTGCTGTT CTGTTGTCTC AGTTAATAAA GGCTCAGCAA
ACAAAGCAAA AAGATTTTGT GTTGGAGGAG AAGGAAAATG GATCAGGAAA TGAAATGTCA
TTACAACTCA GGCAGCCTCC AGAGCCTGCC ACTCCTGTGT CTGTCAGCCG GGACGACATG
GAATCTCCGG CACCTGGCTA CCCACATCTG ATCAAATCGT TATATATGTC TGCAGGTCAA
GAGGATTTGG TTAGGCAGTC TGAGATGAGG CTTATGAACC GAACACCTGA GCAGGAGCGC
CCTCGGATCC TGCCTCCGGA CCAGCGTCCT CCTGAGCCAC CGGAGCCTCC ACCACTCACT
GATGAAGACC TTGATTATCG GACAGAGAAT CAGCATTTGC CTATAAGTAA CTCTTCAGGA
ACAGATCCTC ACGCAGGAGT GAAAGCAGCT CTTCTGCAGC TGCTGGCTCA GCATCAAGCT
CAGGCAACAA CGGAGGAGCC AGTACAAACG AGTGTGGATT ATCAGGCTAG AGACTCCTAT
GTAACAGGCC CAGACTACAA GGATAGCTTT GGCTCATCAT CCTTCTCATC TGCCTGTTAC
AGCACTAGTG ATGGAATAGG AAGCGGATCA TCAGGAGTAT TAGAAAGGAG GAGTTTCCTT
GGAAACTCAG ATATTCAGTC TTTGGATAAC TACAGTACTG CTTCATCTCA CTCTGGTGCT
GCCCCTCCTC CATCAGCCTT TCCAGAATCC TTTCCCAGCT CAGTAACTGG TTACAGAGAC
ATTTACCTCA ATGCTGGCCC CATGCTCTTC AGTGGAGATA AAGACCATAG GTTTGAATAC
AGCCATGGCC CAATCCCAGT TTTAGGGAGC AGCAGTGATG CTTCCACAGG GCCAGAGAGT
GCACACTCTT TGCCCACAAA GATGCACAAC TATAGCTATG GAAGTAATTT ACAGGAAAAT
CCCACTGGCA TCAACCACAT GCATGGACAG ACTTGGACTT CTCCTGCCCA AGGACCTGGC
TATTCCCAAG GATACAGGGG ACACATTAGC ACATCTGCAG TGAGAGGGCG AGGCAGAGGA
TTACCATATT GAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd35154 Clone ID Related Accession (Same CDS sequence) XM_030265331.1 Accession Version XM_030265331.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4389bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1565193600000 Organism Taeniopygia guttata(zebra finch) Product cyclin-dependent kinase 13 isoform X3 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044213.1) 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 Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
4381ATGCCGAGCA CCTCGGACGC GGCGGCCGGC GGGAGCGGGG GCAGCCGGGG CTGGGGCAGC
GGCGGTGGCG GCAGCACGGC GGTGGAGGCG GCGGCCGACA AGAAGCGGCT GCACCACCGG
AGACGGAAGC GCTTCGCGGC CCAGCCGCCG CCGCCGGCCC CGCACCCTCT GCTGTTCCCG
TTGCTGCAGC CGCCGCTCCT GCAGCCCCCG CTGCTTCAGC CGCCGCTGCC GCCACAGTCC
CTGCTCTTCC TGGCGGCCAC CGGCGCCTCC TCTTGTTGCG GGGACGGCGG GGAGCGGAAG
CGGCCGCGAG GCAAGCGGCG CTCGGGCTCC CGGCATAAGC GGCGGCGGGG CCGCGGCGGC
GGCGGCGGGG GCACCCAGGA GGCGGAGAAG CGGCGCGGTA GCGGCGGGTT GAGCACGCTG
GTGGAGGAAT ACGACGACGT GAGCTCCCAG TCCGAGGGAC TGTTGGGCAG CGGCGCGGCC
GGCGGGGGCA GCCCGGGCTC CTCCTCGGGC GGTGGGACCC AGCGGCAGCG GGGCGAGGCA
GAGCGAAGCG GCCGGTCCCG TCGGGAGCAC CGCGGCAGCA GCGGGCGCTC CAAGGAGCGG
CATCGAGAGC ACCGCCGGCG GGGAGAGGAA AAGGCGCAGC AGGAGGGGAC GGCGGCACCA
GGCCGCGGGG CATCCGAGCC CTCCTCGTCC TCCAAATCCC GCAGCCGCCA CAACCACACC
GGGAGCCAAG ACCGGGAGGG ACTCAAGAGC AGCAGCAGCA GCGGCGGTGG CAGCGACAGC
CGCAGGAAGG GCTCCCTCCC CTCACCCAGC AGCGGCAGGA AAGACCGGGA GAGCAAATCG
CACCGGAGCC GGACTAAAGC GGCTAAAGAG CCACCGTCGG CGTACAAGGA CCCTCCAAAA
GCTTACCGGG ACGACAAGCT CGAGCCCAAG GCGTACCGGC GGCAGCGCTC GTCGCCCAGC
CCCGGGCGGG ATGACAGCCC TCCTCTGCAC CGCTCCTCGC AAAGCCAGCG CAGCCGCAAG
TCGCTCAGCC CGGTGGGCGC CCGCTCGCCA CTTAGCCCCT ACAGCCGACG CCGATCCCCC
AGCTACAGCC GGCACAGCTC GTACGAACGC GGCGGGGATG TGTCGCCCAG CCCCTACAGC
AGCTGGCGCC GGTCTCGAAG CCCCTACAGC CCCGTTATCC GGAGATCAGC AAAATCTCGA
AGCAGAAGTC CATATTCATC TAGACACTCC AGGTCTCGTA GCAGACACAG ATTGTCTAGA
TCCAGAAGTC GTCATTCAAG TATTTCTCCT AGTACATTGA CTCTGAAGAG TAGCCTGGCT
GCTGAGCTGA ACAAAAACAA AAAAGCTAGA GCTGCTGAGG CAGCCAAAGC TAGTGCGAAA
GCTTCCAATA CTTCAACACC TACTAAGGGA AACACTGATA CTGCTGCTGT AAGTGCACCT
CAAGTGAACA ATGTTAAGGA CCTGAAGAAA ATCAAAACTG AGCATACACC TTCTCCTACC
AGCAGTGCAA ATCTGAAAAA TGACAAGGCA AAAGCAAAGG TCTCGCTTCC TGAAACAAAG
GCAGAAAATA ATTTAATTGC AGACAAAATT ACGAAACAGA AGCCTGCAGC AGTAAAAGAG
AATAAAGTGA CTGTTGTGAA GCAGCAACCG GTCCCTGTAA AAGAGAAAAG CAAACCAAGT
ACACCAAGTG TAGTAGCCAA GGAGAAGGAT CGAATTGTTG CACTACCAAC CTCCACACTA
CCACCCTTGC CTTTGCCTCC CACGCTGCCT GAAGATAAAG AAACTGATAG TTTGAGAGAA
AATCTTTCAG TGAAGTCAGT TAAAGAAACA GAGAAGAAAC TTCGCCACCT GCTTGCAGAC
TTGCCACTTC CACCTGAGTT GCCTGGAGGA ACTGAGGTAC CCAAAAGTCC TGAAGAAAAG
AAACCAGCAG TTCAGTTACA TACCAAGAGA AGACCAAAAA TATGTGGACC ACGACATGGT
GAAACAAAAG AAAAAGAAAT AGACTGGGGA AAGCGCTGTG TGGATAAATT TGATATCATT
GGTATTATTG GTGAAGGCAC TTATGGGCAA GTTTACAAAG CCAGAGATAA AGATACAGGG
GAGATGGTAG CACTGAAGAA AGTACGACTG GATAATGAAA AGGAAGGGTT TCCAATTACA
GCTATTCGAG AGATTAAGAT TCTTCGACAG CTTAATCATC AAAGCATTAT CAACATGAAG
GAAATAGTGA CGGATAAGGA AGATGCTTTA GACTTCAAGA AGGACAAAGG TGCATTTTAC
CTGGTATTTG AATATATGGA CCATGACTTG ATGGGATTGC TCGAATCTGG TTTGGTTCAT
TTTAATGAAA ATCATATTAA ATCTTTTATG AGACAGCTGA TGGAGGGCTT GGCCTATTGC
CACAAGAAGA ACTTTTTGCA CAGAGATATC AAATGTTCAA ATATTCTACT AAATAATAGA
GGGCAGATAA AGCTCGCCGA TTTTGGGCTT GCTCGGTTGT ACAACTCAGA AGAAAGCCGA
CCATATACCA ACAAAGTTAT TACATTATGG TATCGACCTC CTGAACTTCT CCTTGGGGAA
GAAAGATACA CACCAGCTAT CGATGTCTGG AGCTGTGGCT GTATCCTGGG TGAACTTTTT
ACAAAAAAGC CAATATTCCA AGCAAATCAA GAACTTGCTC AACTGGAACT CATAAGCCGA
ATTTGCGGAA GTCCTTGTCC AGCAGTGTGG CCTGATGTTA TAAAATTAGC TTATTTCAAC
ACAATGAAAC CAAAGAAGCA GTATCGTCGA AAACTGAGAG AAGAGTTTGC TTTCATCCCA
CCAGCTGCAT TAGATTTATT TGACTATATG CTTGCCCTGG ATCCCAGCAA GCGCTGCACA
GCTGAACAAG CTCTTCAGTG TGAGTTTCTG CGAGATGTGG AGCCATCTAA AATGCCTCCT
CCAGACCTTC CTTTGTGGCA GGATTGCCAT GAGCTGTGGA GTAAGAAACG CAGAAGACAG
AAGCAGATGG GCATGACTGA TGACTCTACA GCAGCTAAAG TCCCTAGGAA GGATCTGTCT
CTAGGCATGG ATGAGAGCAG AACCAACACC CCACAAGGCA TGCAAACTTC TTCCCAACTC
AAAACTCAGG GCAGCTCTAG TGTAGCACTT GGTGAAAAAC AGTCAGAACA GCAGCAGCAG
CCGCCGCCAC CTCCGCCACC ACCTCCAGAG CAGGAGCCCC TAAAACAGCC GACGGTCACG
CAGCTCCCTG TGCCACCTGC TCAGCTGGGT CAGCCTAAAG TGGAGACTGA TGCTGCCCAG
GCAGCTGTGC AGAGTGCATT TGCTGTTCTG TTGTCTCAGT TAATAAAGGC TCAGCAAACA
AAGCAAAAAG ATTTTGTGTT GGAGGAGAAG GAAAATGGAT CAGGAAATGA AATGTCATTA
CAACTCAGGC AGCCTCCAGA GCCTGCCACT CCTGTGTCTG TCAGCCGGGA CGACATGGAA
TCTCCGGCAC CTGGCTACCC ACATCTGATC AAATCGTTAT ATATGTCTGC AGGTCAAGAG
GATTTGGTTA GGCAGTCTGA GATGAGGCTT ATGAACCGAA CACCTGAGCA GGAGCGCCCT
CGGATCCTGC CTCCGGACCA GCGTCCTCCT GAGCCACCGG AGCCTCCACC ACTCACTGAT
GAAGACCTTG ATTATCGGAC AGAGAATCAG CATTTGCCTA TAAGTAACTC TTCAGGAACA
GATCCTCACG CAGGAGTGAA AGCAGCTCTT CTGCAGCTGC TGGCTCAGCA TCAAGCTCAG
GCAACAACGG AGGAGCCAGT ACAAACGAGT GTGGATTATC AGGCTAGAGA CTCCTATGTA
ACAGGCCCAG ACTACAAGGA TAGCTTTGGC TCATCATCCT TCTCATCTGC CTGTTACAGC
ACTAGTGATG GAATAGGAAG CGGATCATCA GGAGTATTAG AAAGGAGGAG TTTCCTTGGA
AACTCAGATA TTCAGTCTTT GGATAACTAC AGTACTGCTT CATCTCACTC TGGTGCTGCC
CCTCCTCCAT CAGCCTTTCC AGAATCCTTT CCCAGCTCAG TAACTGGTTA CAGAGACATT
TACCTCAATG CTGGCCCCAT GCTCTTCAGT GGAGATAAAG ACCATAGGTT TGAATACAGC
CATGGCCCAA TCCCAGTTTT AGGGAGCAGC AGTGATGCTT CCACAGGGCC AGAGAGTGCA
CACTCTTTGC CCACAAAGAT GCACAACTAT AGCTATGGAA GTAATTTACA GGAAAATCCC
ACTGGCATCA ACCACATGCA TGGACAGACT TGGACTTCTC CTGCCCAAGG ACCTGGCTAT
TCCCAAGGAT ACAGGGGACA CATTAGCACA TCTGCAGTGA GAGGGCGAGG CAGAGGATTA
CCATATTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030121191.1 CDS 588..4976 Translation
Target ORF information:
RefSeq Version XM_030265331.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata cyclin dependent kinase 13 (CDK13), transcript variant X3, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030265331.1
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
4381ATGCCGAGCA CCTCGGACGC GGCGGCCGGC GGGAGCGGGG GCAGCCGGGG CTGGGGCAGC
GGCGGTGGCG GCAGCACGGC GGTGGAGGCG GCGGCCGACA AGAAGCGGCT GCACCACCGG
AGACGGAAGC GCTTCGCGGC CCAGCCGCCG CCGCCGGCCC CGCACCCTCT GCTGTTCCCG
TTGCTGCAGC CGCCGCTCCT GCAGCCCCCG CTGCTTCAGC CGCCGCTGCC GCCACAGTCC
CTGCTCTTCC TGGCGGCCAC CGGCGCCTCC TCTTGTTGCG GGGACGGCGG GGAGCGGAAG
CGGCCGCGAG GCAAGCGGCG CTCGGGCTCC CGGCATAAGC GGCGGCGGGG CCGCGGCGGC
GGCGGCGGGG GCACCCAGGA GGCGGAGAAG CGGCGCGGTA GCGGCGGGTT GAGCACGCTG
GTGGAGGAAT ACGACGACGT GAGCTCCCAG TCCGAGGGAC TGTTGGGCAG CGGCGCGGCC
GGCGGGGGCA GCCCGGGCTC CTCCTCGGGC GGTGGGACCC AGCGGCAGCG GGGCGAGGCA
GAGCGAAGCG GCCGGTCCCG TCGGGAGCAC CGCGGCAGCA GCGGGCGCTC CAAGGAGCGG
CATCGAGAGC ACCGCCGGCG GGGAGAGGAA AAGGCGCAGC AGGAGGGGAC GGCGGCACCA
GGCCGCGGGG CATCCGAGCC CTCCTCGTCC TCCAAATCCC GCAGCCGCCA CAACCACACC
GGGAGCCAAG ACCGGGAGGG ACTCAAGAGC AGCAGCAGCA GCGGCGGTGG CAGCGACAGC
CGCAGGAAGG GCTCCCTCCC CTCACCCAGC AGCGGCAGGA AAGACCGGGA GAGCAAATCG
CACCGGAGCC GGACTAAAGC GGCTAAAGAG CCACCGTCGG CGTACAAGGA CCCTCCAAAA
GCTTACCGGG ACGACAAGCT CGAGCCCAAG GCGTACCGGC GGCAGCGCTC GTCGCCCAGC
CCCGGGCGGG ATGACAGCCC TCCTCTGCAC CGCTCCTCGC AAAGCCAGCG CAGCCGCAAG
TCGCTCAGCC CGGTGGGCGC CCGCTCGCCA CTTAGCCCCT ACAGCCGACG CCGATCCCCC
AGCTACAGCC GGCACAGCTC GTACGAACGC GGCGGGGATG TGTCGCCCAG CCCCTACAGC
AGCTGGCGCC GGTCTCGAAG CCCCTACAGC CCCGTTATCC GGAGATCAGC AAAATCTCGA
AGCAGAAGTC CATATTCATC TAGACACTCC AGGTCTCGTA GCAGACACAG ATTGTCTAGA
TCCAGAAGTC GTCATTCAAG TATTTCTCCT AGTACATTGA CTCTGAAGAG TAGCCTGGCT
GCTGAGCTGA ACAAAAACAA AAAAGCTAGA GCTGCTGAGG CAGCCAAAGC TAGTGCGAAA
GCTTCCAATA CTTCAACACC TACTAAGGGA AACACTGATA CTGCTGCTGT AAGTGCACCT
CAAGTGAACA ATGTTAAGGA CCTGAAGAAA ATCAAAACTG AGCATACACC TTCTCCTACC
AGCAGTGCAA ATCTGAAAAA TGACAAGGCA AAAGCAAAGG TCTCGCTTCC TGAAACAAAG
GCAGAAAATA ATTTAATTGC AGACAAAATT ACGAAACAGA AGCCTGCAGC AGTAAAAGAG
AATAAAGTGA CTGTTGTGAA GCAGCAACCG GTCCCTGTAA AAGAGAAAAG CAAACCAAGT
ACACCAAGTG TAGTAGCCAA GGAGAAGGAT CGAATTGTTG CACTACCAAC CTCCACACTA
CCACCCTTGC CTTTGCCTCC CACGCTGCCT GAAGATAAAG AAACTGATAG TTTGAGAGAA
AATCTTTCAG TGAAGTCAGT TAAAGAAACA GAGAAGAAAC TTCGCCACCT GCTTGCAGAC
TTGCCACTTC CACCTGAGTT GCCTGGAGGA ACTGAGGTAC CCAAAAGTCC TGAAGAAAAG
AAACCAGCAG TTCAGTTACA TACCAAGAGA AGACCAAAAA TATGTGGACC ACGACATGGT
GAAACAAAAG AAAAAGAAAT AGACTGGGGA AAGCGCTGTG TGGATAAATT TGATATCATT
GGTATTATTG GTGAAGGCAC TTATGGGCAA GTTTACAAAG CCAGAGATAA AGATACAGGG
GAGATGGTAG CACTGAAGAA AGTACGACTG GATAATGAAA AGGAAGGGTT TCCAATTACA
GCTATTCGAG AGATTAAGAT TCTTCGACAG CTTAATCATC AAAGCATTAT CAACATGAAG
GAAATAGTGA CGGATAAGGA AGATGCTTTA GACTTCAAGA AGGACAAAGG TGCATTTTAC
CTGGTATTTG AATATATGGA CCATGACTTG ATGGGATTGC TCGAATCTGG TTTGGTTCAT
TTTAATGAAA ATCATATTAA ATCTTTTATG AGACAGCTGA TGGAGGGCTT GGCCTATTGC
CACAAGAAGA ACTTTTTGCA CAGAGATATC AAATGTTCAA ATATTCTACT AAATAATAGA
GGGCAGATAA AGCTCGCCGA TTTTGGGCTT GCTCGGTTGT ACAACTCAGA AGAAAGCCGA
CCATATACCA ACAAAGTTAT TACATTATGG TATCGACCTC CTGAACTTCT CCTTGGGGAA
GAAAGATACA CACCAGCTAT CGATGTCTGG AGCTGTGGCT GTATCCTGGG TGAACTTTTT
ACAAAAAAGC CAATATTCCA AGCAAATCAA GAACTTGCTC AACTGGAACT CATAAGCCGA
ATTTGCGGAA GTCCTTGTCC AGCAGTGTGG CCTGATGTTA TAAAATTAGC TTATTTCAAC
ACAATGAAAC CAAAGAAGCA GTATCGTCGA AAACTGAGAG AAGAGTTTGC TTTCATCCCA
CCAGCTGCAT TAGATTTATT TGACTATATG CTTGCCCTGG ATCCCAGCAA GCGCTGCACA
GCTGAACAAG CTCTTCAGTG TGAGTTTCTG CGAGATGTGG AGCCATCTAA AATGCCTCCT
CCAGACCTTC CTTTGTGGCA GGATTGCCAT GAGCTGTGGA GTAAGAAACG CAGAAGACAG
AAGCAGATGG GCATGACTGA TGACTCTACA GCAGCTAAAG TCCCTAGGAA GGATCTGTCT
CTAGGCATGG ATGAGAGCAG AACCAACACC CCACAAGGCA TGCAAACTTC TTCCCAACTC
AAAACTCAGG GCAGCTCTAG TGTAGCACTT GGTGAAAAAC AGTCAGAACA GCAGCAGCAG
CCGCCGCCAC CTCCGCCACC ACCTCCAGAG CAGGAGCCCC TAAAACAGCC GACGGTCACG
CAGCTCCCTG TGCCACCTGC TCAGCTGGGT CAGCCTAAAG TGGAGACTGA TGCTGCCCAG
GCAGCTGTGC AGAGTGCATT TGCTGTTCTG TTGTCTCAGT TAATAAAGGC TCAGCAAACA
AAGCAAAAAG ATTTTGTGTT GGAGGAGAAG GAAAATGGAT CAGGAAATGA AATGTCATTA
CAACTCAGGC AGCCTCCAGA GCCTGCCACT CCTGTGTCTG TCAGCCGGGA CGACATGGAA
TCTCCGGCAC CTGGCTACCC ACATCTGATC AAATCGTTAT ATATGTCTGC AGGTCAAGAG
GATTTGGTTA GGCAGTCTGA GATGAGGCTT ATGAACCGAA CACCTGAGCA GGAGCGCCCT
CGGATCCTGC CTCCGGACCA GCGTCCTCCT GAGCCACCGG AGCCTCCACC ACTCACTGAT
GAAGACCTTG ATTATCGGAC AGAGAATCAG CATTTGCCTA TAAGTAACTC TTCAGGAACA
GATCCTCACG CAGGAGTGAA AGCAGCTCTT CTGCAGCTGC TGGCTCAGCA TCAAGCTCAG
GCAACAACGG AGGAGCCAGT ACAAACGAGT GTGGATTATC AGGCTAGAGA CTCCTATGTA
ACAGGCCCAG ACTACAAGGA TAGCTTTGGC TCATCATCCT TCTCATCTGC CTGTTACAGC
ACTAGTGATG GAATAGGAAG CGGATCATCA GGAGTATTAG AAAGGAGGAG TTTCCTTGGA
AACTCAGATA TTCAGTCTTT GGATAACTAC AGTACTGCTT CATCTCACTC TGGTGCTGCC
CCTCCTCCAT CAGCCTTTCC AGAATCCTTT CCCAGCTCAG TAACTGGTTA CAGAGACATT
TACCTCAATG CTGGCCCCAT GCTCTTCAGT GGAGATAAAG ACCATAGGTT TGAATACAGC
CATGGCCCAA TCCCAGTTTT AGGGAGCAGC AGTGATGCTT CCACAGGGCC AGAGAGTGCA
CACTCTTTGC CCACAAAGAT GCACAACTAT AGCTATGGAA GTAATTTACA GGAAAATCCC
ACTGGCATCA ACCACATGCA TGGACAGACT TGGACTTCTC CTGCCCAAGG ACCTGGCTAT
TCCCAAGGAT ACAGGGGACA CATTAGCACA TCTGCAGTGA GAGGGCGAGG CAGAGGATTA
CCATATTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd35155 Clone ID Related Accession (Same CDS sequence) XM_030265332.1 Accession Version XM_030265332.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4335bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1565193600000 Organism Taeniopygia guttata(zebra finch) Product cyclin-dependent kinase 13 isoform X4 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044213.1) 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 Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
4321ATGCCGAGCA CCTCGGACGC GGCGGCCGGC GGGAGCGGGG GCAGCCGGGG CTGGGGCAGC
GGCGGTGGCG GCAGCACGGC GGTGGAGGCG GCGGCCGACA AGAAGCGGCT GCACCACCGG
AGACGGAAGC GCTTCGCGGC CCAGCCGCCG CCGCCGGCCC CGCACCCTCT GCTGTTCCCG
TTGCTGCAGC CGCCGCTCCT GCAGCCCCCG CTGCTTCAGC CGCCGCTGCC GCCACAGTCC
CTGCTCTTCC TGGCGGCCAC CGGCGCCTCC TCTTGTTGCG GGGACGGCGG GGAGCGGAAG
CGGCCGCGAG GCAAGCGGCG CTCGGGCTCC CGGCATAAGC GGCGGCGGGG CCGCGGCGGC
GGCGGCGGGG GCACCCAGGA GGCGGAGAAG CGGCGCGGTA GCGGCGGGTT GAGCACGCTG
GTGGAGGAAT ACGACGACGT GAGCTCCCAG TCCGAGGGAC TGTTGGGCAG CGGCGCGGCC
GGCGGGGGCA GCCCGGGCTC CTCCTCGGGC GGTGGGACCC AGCGGCAGCG GGGCGAGGCA
GAGCGAAGCG GCCGGTCCCG TCGGGAGCAC CGCGGCAGCA GCGGGCGCTC CAAGGAGCGG
CATCGAGAGC ACCGCCGGCG GGGAGAGGAA AAGGCGCAGC AGGAGGGGAC GGCGGCACCA
GGCCGCGGGG CATCCGAGCC CTCCTCGTCC TCCAAATCCC GCAGCCGCCA CAACCACACC
GGGAGCCAAG ACCGGGAGGG ACTCAAGAGC AGCAGCAGCA GCGGCGGTGG CAGCGACAGC
CGCAGGAAGG GCTCCCTCCC CTCACCCAGC AGCGGCAGGA AAGACCGGGA GAGCAAATCG
CACCGGAGCC GGACTAAAGC GGCTAAAGAG CCACCGTCGG CGTACAAGGA CCCTCCAAAA
GCTTACCGGG ACGACAAGCT CGAGCCCAAG GCGTACCGGC GGCAGCGCTC GTCGCCCAGC
CCCGGGCGGG ATGACAGCCC TCCTCTGCAC CGCTCCTCGC AAAGCCAGCG CAGCCGCAAG
TCGCTCAGCC CGGTGGGCGC CCGCTCGCCA CTTAGCCCCT ACAGCCGACG CCGATCCCCC
AGCTACAGCC GGCACAGCTC GTACGAACGC GGCGGGGATG TGTCGCCCAG CCCCTACAGC
AGCTGGCGCC GGTCTCGAAG CCCCTACAGC CCCGTTATCC GGAGATCAGC AAAATCTCGA
AGCAGAAGTC CATATTCATC TAGACACTCC AGGTCTCGTA GCAGACACAG ATTGTCTAGA
TCCAGAAGTC GTCATTCAAG TATTTCTCCT AGTACATTGA CTCTGAAGAG TAGCCTGGCT
GCTGAGCTGA ACAAAAACAA AAAAGCTAGA GCTGCTGAGG CAGCCAAAGC TAGTGCGAAA
GCTTCCAATA CTTCAACACC TACTAAGGGA AACACTGATA CTGCTGCTGT AAGTGCACCT
CAAGTGAACA ATGTTAAGGA CCTGAAGAAA ATCAAAACTG AGCATACACC TTCTCCTACC
AGCAGTGCAA ATCTGAAAAA TGACAAGGCA AAAGCAAAGG TCTCGCTTCC TGAAACAAAG
GCAGAAAATA ATTTAATTGC AGACAAAATT ACGAAACAGA AGCCTGCAGC AGTAAAAGAG
AATAAAGTGA CTGTTGTGAA GCAGCAACCG GTCCCTGTAA AAGAGAAAAG CAAACCAAGT
ACACCAAGTG TAGTAGCCAA GGAGAAGGAT CGAATTGTTG CACTACCAAC CTCCACACTA
CCACCCTTGC CTTTGCCTCC CACGCTGCCT GAAGATAAAG AAACTGATAG TTTGAGAGAA
AATCTTTCAG TGAAGTCAGT TAAAGAAACA GAGAAGAAAC TTCGCCACCT GCTTGCAGAC
TTGCCACTTC CACCTGAGTT GCCTGGAGGA ACTGAGGTAC CCAAAAGTCC TGAAGAAAAG
AAACCAGCAG TTCAGTTACA TACCAAGAGA AGACCAAAAA TATGTGGACC ACGACATGGT
GAAACAAAAG AAAAAGAAAT AGACTGGGGA AAGCGCTGTG TGGATAAATT TGATATCATT
GGTATTATTG GTGAAGGCAC TTATGGGCAA GTTTACAAAG CCAGAGATAA AGATACAGGG
GAGATGGTAG CACTGAAGAA AGTACGACTG GATAATGAAA AGGAAGGGTT TCCAATTACA
GCTATTCGAG AGATTAAGAT TCTTCGACAG CTTAATCATC AAAGCATTAT CAACATGAAG
GAAATAGTGA CGGATAAGGA AGATGCTTTA GACTTCAAGA AGGACAAAGG TGCATTTTAC
CTGGTATTTG AATATATGGA CCATGACTTG ATGGGATTGC TCGAATCTGG TTTGGTTCAT
TTTAATGAAA ATCATATTAA ATCTTTTATG AGACAGCTGA TGGAGGGCTT GGCCTATTGC
CACAAGAAGA ACTTTTTGCA CAGAGATATC AAATGTTCAA ATATTCTACT AAATAATAGA
GGGCAGATAA AGCTCGCCGA TTTTGGGCTT GCTCGGTTGT ACAACTCAGA AGAAAGCCGA
CCATATACCA ACAAAGTTAT TACATTATGG TATCGACCTC CTGAACTTCT CCTTGGGGAA
GAAAGATACA CACCAGCTAT CGATGTCTGG AGCTGTGGCT GTATCCTGGG TGAACTTTTT
ACAAAAAAGC CAATATTCCA AGCAAATCAA GAACTTGCTC AACTGGAACT CATAAGCCGA
ATTTGCGGAA GTCCTTGTCC AGCAGTGTGG CCTGATGTTA TAAAATTAGC TTATTTCAAC
ACAATGAAAC CAAAGAAGCA GTATCGTCGA AAACTGAGAG AAGAGTTTGC TTTCATCCCA
CCAGCTGCAT TAGATTTATT TGACTATATG CTTGCCCTGG ATCCCAGCAA GCGCTGCACA
GCTGAACAAG CTCTTCAGTG TGAGTTTCTG CGAGATGTGG AGCCATCTAA AATGCCTCCT
CCAGACCTTC CTTTGTGGCA GGATTGCCAT GAGCTGTGGA GTAAGAAACG CAGAAGACAG
AAGCAGATGG GCATGACTGA TGACTCTACA GCAGCTAAAG TCCCTAGGAA GGATCTGTCT
CTAGGCATGG ATGAGAGCAG AACCAACACC CCACAAGGTG AAAAACAGTC AGAACAGCAG
CAGCAGCCGC CGCCACCTCC GCCACCACCT CCAGAGCAGG AGCCCCTAAA ACAGCCGACG
GTCACGCAGC TCCCTGTGCC ACCTGCTCAG CTGGGTCAGC CTAAAGTGGA GACTGATGCT
GCCCAGGCAG CTGTGCAGAG TGCATTTGCT GTTCTGTTGT CTCAGTTAAT AAAGGCTCAG
CAAACAAAGC AAAAAGATTT TGTGTTGGAG GAGAAGGAAA ATGGATCAGG AAATGAAATG
TCATTACAAC TCAGGCAGCC TCCAGAGCCT GCCACTCCTG TGTCTGTCAG CCGGGACGAC
ATGGAATCTC CGGCACCTGG CTACCCACAT CTGATCAAAT CGTTATATAT GTCTGCAGGT
CAAGAGGATT TGGTTAGGCA GTCTGAGATG AGGCTTATGA ACCGAACACC TGAGCAGGAG
CGCCCTCGGA TCCTGCCTCC GGACCAGCGT CCTCCTGAGC CACCGGAGCC TCCACCACTC
ACTGATGAAG ACCTTGATTA TCGGACAGAG AATCAGCATT TGCCTATAAG TAACTCTTCA
GGAACAGATC CTCACGCAGG AGTGAAAGCA GCTCTTCTGC AGCTGCTGGC TCAGCATCAA
GCTCAGGCAA CAACGGAGGA GCCAGTACAA ACGAGTGTGG ATTATCAGGC TAGAGACTCC
TATGTAACAG GCCCAGACTA CAAGGATAGC TTTGGCTCAT CATCCTTCTC ATCTGCCTGT
TACAGCACTA GTGATGGAAT AGGAAGCGGA TCATCAGGAG TATTAGAAAG GAGGAGTTTC
CTTGGAAACT CAGATATTCA GTCTTTGGAT AACTACAGTA CTGCTTCATC TCACTCTGGT
GCTGCCCCTC CTCCATCAGC CTTTCCAGAA TCCTTTCCCA GCTCAGTAAC TGGTTACAGA
GACATTTACC TCAATGCTGG CCCCATGCTC TTCAGTGGAG ATAAAGACCA TAGGTTTGAA
TACAGCCATG GCCCAATCCC AGTTTTAGGG AGCAGCAGTG ATGCTTCCAC AGGGCCAGAG
AGTGCACACT CTTTGCCCAC AAAGATGCAC AACTATAGCT ATGGAAGTAA TTTACAGGAA
AATCCCACTG GCATCAACCA CATGCATGGA CAGACTTGGA CTTCTCCTGC CCAAGGACCT
GGCTATTCCC AAGGATACAG GGGACACATT AGCACATCTG CAGTGAGAGG GCGAGGCAGA
GGATTACCAT ATTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030121192.1 CDS 588..4922 Translation
Target ORF information:
RefSeq Version XM_030265332.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata cyclin dependent kinase 13 (CDK13), transcript variant X4, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030265332.1
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
4321ATGCCGAGCA CCTCGGACGC GGCGGCCGGC GGGAGCGGGG GCAGCCGGGG CTGGGGCAGC
GGCGGTGGCG GCAGCACGGC GGTGGAGGCG GCGGCCGACA AGAAGCGGCT GCACCACCGG
AGACGGAAGC GCTTCGCGGC CCAGCCGCCG CCGCCGGCCC CGCACCCTCT GCTGTTCCCG
TTGCTGCAGC CGCCGCTCCT GCAGCCCCCG CTGCTTCAGC CGCCGCTGCC GCCACAGTCC
CTGCTCTTCC TGGCGGCCAC CGGCGCCTCC TCTTGTTGCG GGGACGGCGG GGAGCGGAAG
CGGCCGCGAG GCAAGCGGCG CTCGGGCTCC CGGCATAAGC GGCGGCGGGG CCGCGGCGGC
GGCGGCGGGG GCACCCAGGA GGCGGAGAAG CGGCGCGGTA GCGGCGGGTT GAGCACGCTG
GTGGAGGAAT ACGACGACGT GAGCTCCCAG TCCGAGGGAC TGTTGGGCAG CGGCGCGGCC
GGCGGGGGCA GCCCGGGCTC CTCCTCGGGC GGTGGGACCC AGCGGCAGCG GGGCGAGGCA
GAGCGAAGCG GCCGGTCCCG TCGGGAGCAC CGCGGCAGCA GCGGGCGCTC CAAGGAGCGG
CATCGAGAGC ACCGCCGGCG GGGAGAGGAA AAGGCGCAGC AGGAGGGGAC GGCGGCACCA
GGCCGCGGGG CATCCGAGCC CTCCTCGTCC TCCAAATCCC GCAGCCGCCA CAACCACACC
GGGAGCCAAG ACCGGGAGGG ACTCAAGAGC AGCAGCAGCA GCGGCGGTGG CAGCGACAGC
CGCAGGAAGG GCTCCCTCCC CTCACCCAGC AGCGGCAGGA AAGACCGGGA GAGCAAATCG
CACCGGAGCC GGACTAAAGC GGCTAAAGAG CCACCGTCGG CGTACAAGGA CCCTCCAAAA
GCTTACCGGG ACGACAAGCT CGAGCCCAAG GCGTACCGGC GGCAGCGCTC GTCGCCCAGC
CCCGGGCGGG ATGACAGCCC TCCTCTGCAC CGCTCCTCGC AAAGCCAGCG CAGCCGCAAG
TCGCTCAGCC CGGTGGGCGC CCGCTCGCCA CTTAGCCCCT ACAGCCGACG CCGATCCCCC
AGCTACAGCC GGCACAGCTC GTACGAACGC GGCGGGGATG TGTCGCCCAG CCCCTACAGC
AGCTGGCGCC GGTCTCGAAG CCCCTACAGC CCCGTTATCC GGAGATCAGC AAAATCTCGA
AGCAGAAGTC CATATTCATC TAGACACTCC AGGTCTCGTA GCAGACACAG ATTGTCTAGA
TCCAGAAGTC GTCATTCAAG TATTTCTCCT AGTACATTGA CTCTGAAGAG TAGCCTGGCT
GCTGAGCTGA ACAAAAACAA AAAAGCTAGA GCTGCTGAGG CAGCCAAAGC TAGTGCGAAA
GCTTCCAATA CTTCAACACC TACTAAGGGA AACACTGATA CTGCTGCTGT AAGTGCACCT
CAAGTGAACA ATGTTAAGGA CCTGAAGAAA ATCAAAACTG AGCATACACC TTCTCCTACC
AGCAGTGCAA ATCTGAAAAA TGACAAGGCA AAAGCAAAGG TCTCGCTTCC TGAAACAAAG
GCAGAAAATA ATTTAATTGC AGACAAAATT ACGAAACAGA AGCCTGCAGC AGTAAAAGAG
AATAAAGTGA CTGTTGTGAA GCAGCAACCG GTCCCTGTAA AAGAGAAAAG CAAACCAAGT
ACACCAAGTG TAGTAGCCAA GGAGAAGGAT CGAATTGTTG CACTACCAAC CTCCACACTA
CCACCCTTGC CTTTGCCTCC CACGCTGCCT GAAGATAAAG AAACTGATAG TTTGAGAGAA
AATCTTTCAG TGAAGTCAGT TAAAGAAACA GAGAAGAAAC TTCGCCACCT GCTTGCAGAC
TTGCCACTTC CACCTGAGTT GCCTGGAGGA ACTGAGGTAC CCAAAAGTCC TGAAGAAAAG
AAACCAGCAG TTCAGTTACA TACCAAGAGA AGACCAAAAA TATGTGGACC ACGACATGGT
GAAACAAAAG AAAAAGAAAT AGACTGGGGA AAGCGCTGTG TGGATAAATT TGATATCATT
GGTATTATTG GTGAAGGCAC TTATGGGCAA GTTTACAAAG CCAGAGATAA AGATACAGGG
GAGATGGTAG CACTGAAGAA AGTACGACTG GATAATGAAA AGGAAGGGTT TCCAATTACA
GCTATTCGAG AGATTAAGAT TCTTCGACAG CTTAATCATC AAAGCATTAT CAACATGAAG
GAAATAGTGA CGGATAAGGA AGATGCTTTA GACTTCAAGA AGGACAAAGG TGCATTTTAC
CTGGTATTTG AATATATGGA CCATGACTTG ATGGGATTGC TCGAATCTGG TTTGGTTCAT
TTTAATGAAA ATCATATTAA ATCTTTTATG AGACAGCTGA TGGAGGGCTT GGCCTATTGC
CACAAGAAGA ACTTTTTGCA CAGAGATATC AAATGTTCAA ATATTCTACT AAATAATAGA
GGGCAGATAA AGCTCGCCGA TTTTGGGCTT GCTCGGTTGT ACAACTCAGA AGAAAGCCGA
CCATATACCA ACAAAGTTAT TACATTATGG TATCGACCTC CTGAACTTCT CCTTGGGGAA
GAAAGATACA CACCAGCTAT CGATGTCTGG AGCTGTGGCT GTATCCTGGG TGAACTTTTT
ACAAAAAAGC CAATATTCCA AGCAAATCAA GAACTTGCTC AACTGGAACT CATAAGCCGA
ATTTGCGGAA GTCCTTGTCC AGCAGTGTGG CCTGATGTTA TAAAATTAGC TTATTTCAAC
ACAATGAAAC CAAAGAAGCA GTATCGTCGA AAACTGAGAG AAGAGTTTGC TTTCATCCCA
CCAGCTGCAT TAGATTTATT TGACTATATG CTTGCCCTGG ATCCCAGCAA GCGCTGCACA
GCTGAACAAG CTCTTCAGTG TGAGTTTCTG CGAGATGTGG AGCCATCTAA AATGCCTCCT
CCAGACCTTC CTTTGTGGCA GGATTGCCAT GAGCTGTGGA GTAAGAAACG CAGAAGACAG
AAGCAGATGG GCATGACTGA TGACTCTACA GCAGCTAAAG TCCCTAGGAA GGATCTGTCT
CTAGGCATGG ATGAGAGCAG AACCAACACC CCACAAGGTG AAAAACAGTC AGAACAGCAG
CAGCAGCCGC CGCCACCTCC GCCACCACCT CCAGAGCAGG AGCCCCTAAA ACAGCCGACG
GTCACGCAGC TCCCTGTGCC ACCTGCTCAG CTGGGTCAGC CTAAAGTGGA GACTGATGCT
GCCCAGGCAG CTGTGCAGAG TGCATTTGCT GTTCTGTTGT CTCAGTTAAT AAAGGCTCAG
CAAACAAAGC AAAAAGATTT TGTGTTGGAG GAGAAGGAAA ATGGATCAGG AAATGAAATG
TCATTACAAC TCAGGCAGCC TCCAGAGCCT GCCACTCCTG TGTCTGTCAG CCGGGACGAC
ATGGAATCTC CGGCACCTGG CTACCCACAT CTGATCAAAT CGTTATATAT GTCTGCAGGT
CAAGAGGATT TGGTTAGGCA GTCTGAGATG AGGCTTATGA ACCGAACACC TGAGCAGGAG
CGCCCTCGGA TCCTGCCTCC GGACCAGCGT CCTCCTGAGC CACCGGAGCC TCCACCACTC
ACTGATGAAG ACCTTGATTA TCGGACAGAG AATCAGCATT TGCCTATAAG TAACTCTTCA
GGAACAGATC CTCACGCAGG AGTGAAAGCA GCTCTTCTGC AGCTGCTGGC TCAGCATCAA
GCTCAGGCAA CAACGGAGGA GCCAGTACAA ACGAGTGTGG ATTATCAGGC TAGAGACTCC
TATGTAACAG GCCCAGACTA CAAGGATAGC TTTGGCTCAT CATCCTTCTC ATCTGCCTGT
TACAGCACTA GTGATGGAAT AGGAAGCGGA TCATCAGGAG TATTAGAAAG GAGGAGTTTC
CTTGGAAACT CAGATATTCA GTCTTTGGAT AACTACAGTA CTGCTTCATC TCACTCTGGT
GCTGCCCCTC CTCCATCAGC CTTTCCAGAA TCCTTTCCCA GCTCAGTAAC TGGTTACAGA
GACATTTACC TCAATGCTGG CCCCATGCTC TTCAGTGGAG ATAAAGACCA TAGGTTTGAA
TACAGCCATG GCCCAATCCC AGTTTTAGGG AGCAGCAGTG ATGCTTCCAC AGGGCCAGAG
AGTGCACACT CTTTGCCCAC AAAGATGCAC AACTATAGCT ATGGAAGTAA TTTACAGGAA
AATCCCACTG GCATCAACCA CATGCATGGA CAGACTTGGA CTTCTCCTGC CCAAGGACCT
GGCTATTCCC AAGGATACAG GGGACACATT AGCACATCTG CAGTGAGAGG GCGAGGCAGA
GGATTACCAT ATTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd35152 Clone ID Related Accession (Same CDS sequence) XM_012571459.2 Accession Version XM_012571459.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4569bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1565193600000 Organism Taeniopygia guttata(zebra finch) Product cyclin-dependent kinase 13 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044213.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Aug 9, 2019 this sequence version replaced XM_012571459.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
4561ATGCCGAGCA CCTCGGACGC GGCGGCCGGC GGGAGCGGGG GCAGCCGGGG CTGGGGCAGC
GGCGGTGGCG GCAGCACGGC GGTGGAGGCG GCGGCCGACA AGAAGCGGCT GCACCACCGG
AGACGGAAGC GCTTCGCGGC CCAGCCGCCG CCGCCGGCCC CGCACCCTCT GCTGTTCCCG
TTGCTGCAGC CGCCGCTCCT GCAGCCCCCG CTGCTTCAGC CGCCGCTGCC GCCACAGTCC
CTGCTCTTCC TGGCGGCCAC CGGCGCCTCC TCTTGTTGCG GGGACGGCGG GGAGCGGAAG
CGGCCGCGAG GCAAGCGGCG CTCGGGCTCC CGGCATAAGC GGCGGCGGGG CCGCGGCGGC
GGCGGCGGGG GCACCCAGGA GGCGGAGAAG CGGCGCGGTA GCGGCGGGTT GAGCACGCTG
GTGGAGGAAT ACGACGACGT GAGCTCCCAG TCCGAGGGAC TGTTGGGCAG CGGCGCGGCC
GGCGGGGGCA GCCCGGGCTC CTCCTCGGGC GGTGGGACCC AGCGGCAGCG GGGCGAGGCA
GAGCGAAGCG GCCGGTCCCG TCGGGAGCAC CGCGGCAGCA GCGGGCGCTC CAAGGAGCGG
CATCGAGAGC ACCGCCGGCG GGGAGAGGAA AAGGCGCAGC AGGAGGGGAC GGCGGCACCA
GGCCGCGGGG CATCCGAGCC CTCCTCGTCC TCCAAATCCC GCAGCCGCCA CAACCACACC
GGGAGCCAAG ACCGGGAGGG ACTCAAGAGC AGCAGCAGCA GCGGCGGTGG CAGCGACAGC
CGCAGGAAGG GCTCCCTCCC CTCACCCAGC AGCGGCAGGA AAGACCGGGA GAGCAAATCG
CACCGGAGCC GGACTAAAGC GGCTAAAGAG CCACCGTCGG CGTACAAGGA CCCTCCAAAA
GCTTACCGGG ACGACAAGCT CGAGCCCAAG GCGTACCGGC GGCAGCGCTC GTCGCCCAGC
CCCGGGCGGG ATGACAGCCC TCCTCTGCAC CGCTCCTCGC AAAGCCAGCG CAGCCGCAAG
TCGCTCAGCC CGGTGGGCGC CCGCTCGCCA CTTAGCCCCT ACAGCCGACG CCGATCCCCC
AGCTACAGCC GGCACAGCTC GTACGAACGC GGCGGGGATG TGTCGCCCAG CCCCTACAGC
AGCTGGCGCC GGTCTCGAAG CCCCTACAGC CCCGTTATCC GGAGATCAGC AAAATCTCGA
AGCAGAAGTC CATATTCATC TAGACACTCC AGGTCTCGTA GCAGACACAG ATTGTCTAGA
TCCAGAAGTC GTCATTCAAG TATTTCTCCT AGTACATTGA CTCTGAAGAG TAGCCTGGCT
GCTGAGCTGA ACAAAAACAA AAAAGCTAGA GCTGCTGAGG CAGCCAAAGC TAGTGCGAAA
GCTTCCAATA CTTCAACACC TACTAAGGGA AACACTGATA CTGCTGCTGT AAGTGCACCT
CAAGTGAACA ATGTTAAGGA CCTGAAGAAA ATCAAAACTG AGCATACACC TTCTCCTACC
AGCAGTGCAA ATCTGAAAAA TGACAAGGCA AAAGCAAAGG TCTCGCTTCC TGAAACAAAG
GCAGAAAATA ATTTAATTGC AGACAAAATT ACGAAACAGA AGCCTGCAGC AGTAAAAGAG
AATAAAGTGA CTGTTGTGAA GCAGCAACCG GTCCCTGTAA AAGAGAAAAG CAAACCAAGT
ACACCAAGTG TAGTAGCCAA GGAGAAGGAT CGAATTGTTG CACTACCAAC CTCCACACTA
CCACCCTTGC CTTTGCCTCC CACGCTGCCT GAAGATAAAG AAACTGATAG TTTGAGAGAA
AATCTTTCAG TGAAGTCAGT TAAAGAAACA GAGAAGAAAC TTCGCCACCT GCTTGCAGAC
TTGCCACTTC CACCTGAGTT GCCTGGAGGA ACTGAGGTAC CCAAAAGTCC TGAAGAAAAG
AAACCAGCAG TTCAGTTACA TACCAAGAGA AGACCAAAAA TATGTGGACC ACGACATGGT
GAAACAAAAG AAAAAGAAAT AGACTGGGGA AAGCGCTGTG TGGATAAATT TGATATCATT
GGTATTATTG GTGAAGGCAC TTATGGGCAA GTTTACAAAG CCAGAGATAA AGATACAGGG
GAGATGGTAG CACTGAAGAA AGTACGACTG GATAATGAAA AGGAAGGGTT TCCAATTACA
GCTATTCGAG AGATTAAGAT TCTTCGACAG CTTAATCATC AAAGCATTAT CAACATGAAG
GAAATAGTGA CGGATAAGGA AGATGCTTTA GACTTCAAGA AGGACAAAGG TGCATTTTAC
CTGGTATTTG AATATATGGA CCATGACTTG ATGGGATTGC TCGAATCTGG TTTGGTTCAT
TTTAATGAAA ATCATATTAA ATCTTTTATG AGACAGCTGA TGGAGGGCTT GGCCTATTGC
CACAAGAAGA ACTTTTTGCA CAGAGATATC AAATGTTCAA ATATTCTACT AAATAATAGA
GGGCAGATAA AGCTCGCCGA TTTTGGGCTT GCTCGGTTGT ACAACTCAGA AGAAAGCCGA
CCATATACCA ACAAAGTTAT TACATTATGG TATCGACCTC CTGAACTTCT CCTTGGGGAA
GAAAGATACA CACCAGCTAT CGATGTCTGG AGCTGTGGCT GTATCCTGGG TGAACTTTTT
ACAAAAAAGC CAATATTCCA AGCAAATCAA GAACTTGCTC AACTGGAACT CATAAGCCGA
ATTTGCGGAA GTCCTTGTCC AGCAGTGTGG CCTGATGTTA TAAAATTAGC TTATTTCAAC
ACAATGAAAC CAAAGAAGCA GTATCGTCGA AAACTGAGAG AAGAGTTTGC TTTCATCCCA
CCAGCTGCAT TAGATTTATT TGACTATATG CTTGCCCTGG ATCCCAGCAA GCGCTGCACA
GCTGAACAAG CTCTTCAGTG TGAGTTTCTG CGAGATGTGG AGCCATCTAA AATGCCTCCT
CCAGACCTTC CTTTGTGGCA GGATTGCCAT GAGCTGTGGA GTAAGAAACG CAGAAGACAG
AAGCAGATGG GCATGACTGA TGACTCTACA GCAGCTAAAG TCCCTAGGAA GGATCTGTCT
CTAGGCATGG ATGAGAGCAG AACCAACACC CCACAAGGCA TGCAAACTTC TTCCCAACTC
AAAACTCAGG GCAGCTCTAG TGTAGCACTT GCAAAAACAA GCACTGGACA GCAGTTAAAC
CAGAATGAAG TGGCAATCCT GCTAAACCTG CTACAGTCTA AAACAAGTGT TAGTTTGGCA
CAGTTTGCCC AAGTATTGAA TATTAAGGTA AACCCAGAGA CTCAACAGCA ACTAAATAAA
ATAAATCTTC CTGCTGGGAT TTTGTCAGCA GGTGAAAAAC AGTCAGAACA GCAGCAGCAG
CCGCCGCCAC CTCCGCCACC ACCTCCAGAG CAGGAGCCCC TAAAACAGCC GACGGTCACG
CAGCTCCCTG TGCCACCTGC TCAGCTGGGT CAGCCTAAAG TGGAGACTGA TGCTGCCCAG
GCAGCTGTGC AGAGTGCATT TGCTGTTCTG TTGTCTCAGT TAATAAAGGC TCAGCAAACA
AAGCAAAAAG ATTTTGTGTT GGAGGAGAAG GAAAATGGAT CAGGAAATGA AATGTCATTA
CAACTCAGGC AGCCTCCAGA GCCTGCCACT CCTGTGTCTG TCAGCCGGGA CGACATGGAA
TCTCCGGCAC CTGGCTACCC ACATCTGATC AAATCGTTAT ATATGTCTGC AGGTCAAGAG
GATTTGGTTA GGCAGTCTGA GATGAGGCTT ATGAACCGAA CACCTGAGCA GGAGCGCCCT
CGGATCCTGC CTCCGGACCA GCGTCCTCCT GAGCCACCGG AGCCTCCACC ACTCACTGAT
GAAGACCTTG ATTATCGGAC AGAGAATCAG CATTTGCCTA TAAGTAACTC TTCAGGAACA
GATCCTCACG CAGGAGTGAA AGCAGCTCTT CTGCAGCTGC TGGCTCAGCA TCAAGCTCAG
GCAACAACGG AGGAGCCAGT ACAAACGAGT GTGGATTATC AGGCTAGAGA CTCCTATGTA
ACAGGCCCAG ACTACAAGGA TAGCTTTGGC TCATCATCCT TCTCATCTGC CTGTTACAGC
ACTAGTGATG GAATAGGAAG CGGATCATCA GGAGTATTAG AAAGGAGGAG TTTCCTTGGA
AACTCAGATA TTCAGTCTTT GGATAACTAC AGTACTGCTT CATCTCACTC TGGTGCTGCC
CCTCCTCCAT CAGCCTTTCC AGAATCCTTT CCCAGCTCAG TAACTGGTTA CAGAGACATT
TACCTCAATG CTGGCCCCAT GCTCTTCAGT GGAGATAAAG ACCATAGGTT TGAATACAGC
CATGGCCCAA TCCCAGTTTT AGGGAGCAGC AGTGATGCTT CCACAGGGCC AGAGAGTGCA
CACTCTTTGC CCACAAAGAT GCACAACTAT AGCTATGGAA GTAATTTACA GGAAAATCCC
ACTGGCATCA ACCACATGCA TGGACAGACT TGGACTTCTC CTGCCCAAGG ACCTGGCTAT
TCCCAAGGAT ACAGGGGACA CATTAGCACA TCTGCAGTGA GAGGGCGAGG CAGAGGATTA
CCATATTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_012426913.2 CDS 588..5156 Translation
Target ORF information:
RefSeq Version XM_012571459.2 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata cyclin dependent kinase 13 (CDK13), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_012571459.2
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
4561ATGCCGAGCA CCTCGGACGC GGCGGCCGGC GGGAGCGGGG GCAGCCGGGG CTGGGGCAGC
GGCGGTGGCG GCAGCACGGC GGTGGAGGCG GCGGCCGACA AGAAGCGGCT GCACCACCGG
AGACGGAAGC GCTTCGCGGC CCAGCCGCCG CCGCCGGCCC CGCACCCTCT GCTGTTCCCG
TTGCTGCAGC CGCCGCTCCT GCAGCCCCCG CTGCTTCAGC CGCCGCTGCC GCCACAGTCC
CTGCTCTTCC TGGCGGCCAC CGGCGCCTCC TCTTGTTGCG GGGACGGCGG GGAGCGGAAG
CGGCCGCGAG GCAAGCGGCG CTCGGGCTCC CGGCATAAGC GGCGGCGGGG CCGCGGCGGC
GGCGGCGGGG GCACCCAGGA GGCGGAGAAG CGGCGCGGTA GCGGCGGGTT GAGCACGCTG
GTGGAGGAAT ACGACGACGT GAGCTCCCAG TCCGAGGGAC TGTTGGGCAG CGGCGCGGCC
GGCGGGGGCA GCCCGGGCTC CTCCTCGGGC GGTGGGACCC AGCGGCAGCG GGGCGAGGCA
GAGCGAAGCG GCCGGTCCCG TCGGGAGCAC CGCGGCAGCA GCGGGCGCTC CAAGGAGCGG
CATCGAGAGC ACCGCCGGCG GGGAGAGGAA AAGGCGCAGC AGGAGGGGAC GGCGGCACCA
GGCCGCGGGG CATCCGAGCC CTCCTCGTCC TCCAAATCCC GCAGCCGCCA CAACCACACC
GGGAGCCAAG ACCGGGAGGG ACTCAAGAGC AGCAGCAGCA GCGGCGGTGG CAGCGACAGC
CGCAGGAAGG GCTCCCTCCC CTCACCCAGC AGCGGCAGGA AAGACCGGGA GAGCAAATCG
CACCGGAGCC GGACTAAAGC GGCTAAAGAG CCACCGTCGG CGTACAAGGA CCCTCCAAAA
GCTTACCGGG ACGACAAGCT CGAGCCCAAG GCGTACCGGC GGCAGCGCTC GTCGCCCAGC
CCCGGGCGGG ATGACAGCCC TCCTCTGCAC CGCTCCTCGC AAAGCCAGCG CAGCCGCAAG
TCGCTCAGCC CGGTGGGCGC CCGCTCGCCA CTTAGCCCCT ACAGCCGACG CCGATCCCCC
AGCTACAGCC GGCACAGCTC GTACGAACGC GGCGGGGATG TGTCGCCCAG CCCCTACAGC
AGCTGGCGCC GGTCTCGAAG CCCCTACAGC CCCGTTATCC GGAGATCAGC AAAATCTCGA
AGCAGAAGTC CATATTCATC TAGACACTCC AGGTCTCGTA GCAGACACAG ATTGTCTAGA
TCCAGAAGTC GTCATTCAAG TATTTCTCCT AGTACATTGA CTCTGAAGAG TAGCCTGGCT
GCTGAGCTGA ACAAAAACAA AAAAGCTAGA GCTGCTGAGG CAGCCAAAGC TAGTGCGAAA
GCTTCCAATA CTTCAACACC TACTAAGGGA AACACTGATA CTGCTGCTGT AAGTGCACCT
CAAGTGAACA ATGTTAAGGA CCTGAAGAAA ATCAAAACTG AGCATACACC TTCTCCTACC
AGCAGTGCAA ATCTGAAAAA TGACAAGGCA AAAGCAAAGG TCTCGCTTCC TGAAACAAAG
GCAGAAAATA ATTTAATTGC AGACAAAATT ACGAAACAGA AGCCTGCAGC AGTAAAAGAG
AATAAAGTGA CTGTTGTGAA GCAGCAACCG GTCCCTGTAA AAGAGAAAAG CAAACCAAGT
ACACCAAGTG TAGTAGCCAA GGAGAAGGAT CGAATTGTTG CACTACCAAC CTCCACACTA
CCACCCTTGC CTTTGCCTCC CACGCTGCCT GAAGATAAAG AAACTGATAG TTTGAGAGAA
AATCTTTCAG TGAAGTCAGT TAAAGAAACA GAGAAGAAAC TTCGCCACCT GCTTGCAGAC
TTGCCACTTC CACCTGAGTT GCCTGGAGGA ACTGAGGTAC CCAAAAGTCC TGAAGAAAAG
AAACCAGCAG TTCAGTTACA TACCAAGAGA AGACCAAAAA TATGTGGACC ACGACATGGT
GAAACAAAAG AAAAAGAAAT AGACTGGGGA AAGCGCTGTG TGGATAAATT TGATATCATT
GGTATTATTG GTGAAGGCAC TTATGGGCAA GTTTACAAAG CCAGAGATAA AGATACAGGG
GAGATGGTAG CACTGAAGAA AGTACGACTG GATAATGAAA AGGAAGGGTT TCCAATTACA
GCTATTCGAG AGATTAAGAT TCTTCGACAG CTTAATCATC AAAGCATTAT CAACATGAAG
GAAATAGTGA CGGATAAGGA AGATGCTTTA GACTTCAAGA AGGACAAAGG TGCATTTTAC
CTGGTATTTG AATATATGGA CCATGACTTG ATGGGATTGC TCGAATCTGG TTTGGTTCAT
TTTAATGAAA ATCATATTAA ATCTTTTATG AGACAGCTGA TGGAGGGCTT GGCCTATTGC
CACAAGAAGA ACTTTTTGCA CAGAGATATC AAATGTTCAA ATATTCTACT AAATAATAGA
GGGCAGATAA AGCTCGCCGA TTTTGGGCTT GCTCGGTTGT ACAACTCAGA AGAAAGCCGA
CCATATACCA ACAAAGTTAT TACATTATGG TATCGACCTC CTGAACTTCT CCTTGGGGAA
GAAAGATACA CACCAGCTAT CGATGTCTGG AGCTGTGGCT GTATCCTGGG TGAACTTTTT
ACAAAAAAGC CAATATTCCA AGCAAATCAA GAACTTGCTC AACTGGAACT CATAAGCCGA
ATTTGCGGAA GTCCTTGTCC AGCAGTGTGG CCTGATGTTA TAAAATTAGC TTATTTCAAC
ACAATGAAAC CAAAGAAGCA GTATCGTCGA AAACTGAGAG AAGAGTTTGC TTTCATCCCA
CCAGCTGCAT TAGATTTATT TGACTATATG CTTGCCCTGG ATCCCAGCAA GCGCTGCACA
GCTGAACAAG CTCTTCAGTG TGAGTTTCTG CGAGATGTGG AGCCATCTAA AATGCCTCCT
CCAGACCTTC CTTTGTGGCA GGATTGCCAT GAGCTGTGGA GTAAGAAACG CAGAAGACAG
AAGCAGATGG GCATGACTGA TGACTCTACA GCAGCTAAAG TCCCTAGGAA GGATCTGTCT
CTAGGCATGG ATGAGAGCAG AACCAACACC CCACAAGGCA TGCAAACTTC TTCCCAACTC
AAAACTCAGG GCAGCTCTAG TGTAGCACTT GCAAAAACAA GCACTGGACA GCAGTTAAAC
CAGAATGAAG TGGCAATCCT GCTAAACCTG CTACAGTCTA AAACAAGTGT TAGTTTGGCA
CAGTTTGCCC AAGTATTGAA TATTAAGGTA AACCCAGAGA CTCAACAGCA ACTAAATAAA
ATAAATCTTC CTGCTGGGAT TTTGTCAGCA GGTGAAAAAC AGTCAGAACA GCAGCAGCAG
CCGCCGCCAC CTCCGCCACC ACCTCCAGAG CAGGAGCCCC TAAAACAGCC GACGGTCACG
CAGCTCCCTG TGCCACCTGC TCAGCTGGGT CAGCCTAAAG TGGAGACTGA TGCTGCCCAG
GCAGCTGTGC AGAGTGCATT TGCTGTTCTG TTGTCTCAGT TAATAAAGGC TCAGCAAACA
AAGCAAAAAG ATTTTGTGTT GGAGGAGAAG GAAAATGGAT CAGGAAATGA AATGTCATTA
CAACTCAGGC AGCCTCCAGA GCCTGCCACT CCTGTGTCTG TCAGCCGGGA CGACATGGAA
TCTCCGGCAC CTGGCTACCC ACATCTGATC AAATCGTTAT ATATGTCTGC AGGTCAAGAG
GATTTGGTTA GGCAGTCTGA GATGAGGCTT ATGAACCGAA CACCTGAGCA GGAGCGCCCT
CGGATCCTGC CTCCGGACCA GCGTCCTCCT GAGCCACCGG AGCCTCCACC ACTCACTGAT
GAAGACCTTG ATTATCGGAC AGAGAATCAG CATTTGCCTA TAAGTAACTC TTCAGGAACA
GATCCTCACG CAGGAGTGAA AGCAGCTCTT CTGCAGCTGC TGGCTCAGCA TCAAGCTCAG
GCAACAACGG AGGAGCCAGT ACAAACGAGT GTGGATTATC AGGCTAGAGA CTCCTATGTA
ACAGGCCCAG ACTACAAGGA TAGCTTTGGC TCATCATCCT TCTCATCTGC CTGTTACAGC
ACTAGTGATG GAATAGGAAG CGGATCATCA GGAGTATTAG AAAGGAGGAG TTTCCTTGGA
AACTCAGATA TTCAGTCTTT GGATAACTAC AGTACTGCTT CATCTCACTC TGGTGCTGCC
CCTCCTCCAT CAGCCTTTCC AGAATCCTTT CCCAGCTCAG TAACTGGTTA CAGAGACATT
TACCTCAATG CTGGCCCCAT GCTCTTCAGT GGAGATAAAG ACCATAGGTT TGAATACAGC
CATGGCCCAA TCCCAGTTTT AGGGAGCAGC AGTGATGCTT CCACAGGGCC AGAGAGTGCA
CACTCTTTGC CCACAAAGAT GCACAACTAT AGCTATGGAA GTAATTTACA GGAAAATCCC
ACTGGCATCA ACCACATGCA TGGACAGACT TGGACTTCTC CTGCCCAAGG ACCTGGCTAT
TCCCAAGGAT ACAGGGGACA CATTAGCACA TCTGCAGTGA GAGGGCGAGG CAGAGGATTA
CCATATTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd35153 Clone ID Related Accession (Same CDS sequence) XM_030265330.1 Accession Version XM_030265330.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 4515bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1565193600000 Organism Taeniopygia guttata(zebra finch) Product cyclin-dependent kinase 13 isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044213.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
4501ATGCCGAGCA CCTCGGACGC GGCGGCCGGC GGGAGCGGGG GCAGCCGGGG CTGGGGCAGC
GGCGGTGGCG GCAGCACGGC GGTGGAGGCG GCGGCCGACA AGAAGCGGCT GCACCACCGG
AGACGGAAGC GCTTCGCGGC CCAGCCGCCG CCGCCGGCCC CGCACCCTCT GCTGTTCCCG
TTGCTGCAGC CGCCGCTCCT GCAGCCCCCG CTGCTTCAGC CGCCGCTGCC GCCACAGTCC
CTGCTCTTCC TGGCGGCCAC CGGCGCCTCC TCTTGTTGCG GGGACGGCGG GGAGCGGAAG
CGGCCGCGAG GCAAGCGGCG CTCGGGCTCC CGGCATAAGC GGCGGCGGGG CCGCGGCGGC
GGCGGCGGGG GCACCCAGGA GGCGGAGAAG CGGCGCGGTA GCGGCGGGTT GAGCACGCTG
GTGGAGGAAT ACGACGACGT GAGCTCCCAG TCCGAGGGAC TGTTGGGCAG CGGCGCGGCC
GGCGGGGGCA GCCCGGGCTC CTCCTCGGGC GGTGGGACCC AGCGGCAGCG GGGCGAGGCA
GAGCGAAGCG GCCGGTCCCG TCGGGAGCAC CGCGGCAGCA GCGGGCGCTC CAAGGAGCGG
CATCGAGAGC ACCGCCGGCG GGGAGAGGAA AAGGCGCAGC AGGAGGGGAC GGCGGCACCA
GGCCGCGGGG CATCCGAGCC CTCCTCGTCC TCCAAATCCC GCAGCCGCCA CAACCACACC
GGGAGCCAAG ACCGGGAGGG ACTCAAGAGC AGCAGCAGCA GCGGCGGTGG CAGCGACAGC
CGCAGGAAGG GCTCCCTCCC CTCACCCAGC AGCGGCAGGA AAGACCGGGA GAGCAAATCG
CACCGGAGCC GGACTAAAGC GGCTAAAGAG CCACCGTCGG CGTACAAGGA CCCTCCAAAA
GCTTACCGGG ACGACAAGCT CGAGCCCAAG GCGTACCGGC GGCAGCGCTC GTCGCCCAGC
CCCGGGCGGG ATGACAGCCC TCCTCTGCAC CGCTCCTCGC AAAGCCAGCG CAGCCGCAAG
TCGCTCAGCC CGGTGGGCGC CCGCTCGCCA CTTAGCCCCT ACAGCCGACG CCGATCCCCC
AGCTACAGCC GGCACAGCTC GTACGAACGC GGCGGGGATG TGTCGCCCAG CCCCTACAGC
AGCTGGCGCC GGTCTCGAAG CCCCTACAGC CCCGTTATCC GGAGATCAGC AAAATCTCGA
AGCAGAAGTC CATATTCATC TAGACACTCC AGGTCTCGTA GCAGACACAG ATTGTCTAGA
TCCAGAAGTC GTCATTCAAG TATTTCTCCT AGTACATTGA CTCTGAAGAG TAGCCTGGCT
GCTGAGCTGA ACAAAAACAA AAAAGCTAGA GCTGCTGAGG CAGCCAAAGC TAGTGCGAAA
GCTTCCAATA CTTCAACACC TACTAAGGGA AACACTGATA CTGCTGCTGT AAGTGCACCT
CAAGTGAACA ATGTTAAGGA CCTGAAGAAA ATCAAAACTG AGCATACACC TTCTCCTACC
AGCAGTGCAA ATCTGAAAAA TGACAAGGCA AAAGCAAAGG TCTCGCTTCC TGAAACAAAG
GCAGAAAATA ATTTAATTGC AGACAAAATT ACGAAACAGA AGCCTGCAGC AGTAAAAGAG
AATAAAGTGA CTGTTGTGAA GCAGCAACCG GTCCCTGTAA AAGAGAAAAG CAAACCAAGT
ACACCAAGTG TAGTAGCCAA GGAGAAGGAT CGAATTGTTG CACTACCAAC CTCCACACTA
CCACCCTTGC CTTTGCCTCC CACGCTGCCT GAAGATAAAG AAACTGATAG TTTGAGAGAA
AATCTTTCAG TGAAGTCAGT TAAAGAAACA GAGAAGAAAC TTCGCCACCT GCTTGCAGAC
TTGCCACTTC CACCTGAGTT GCCTGGAGGA ACTGAGGTAC CCAAAAGTCC TGAAGAAAAG
AAACCAGCAG TTCAGTTACA TACCAAGAGA AGACCAAAAA TATGTGGACC ACGACATGGT
GAAACAAAAG AAAAAGAAAT AGACTGGGGA AAGCGCTGTG TGGATAAATT TGATATCATT
GGTATTATTG GTGAAGGCAC TTATGGGCAA GTTTACAAAG CCAGAGATAA AGATACAGGG
GAGATGGTAG CACTGAAGAA AGTACGACTG GATAATGAAA AGGAAGGGTT TCCAATTACA
GCTATTCGAG AGATTAAGAT TCTTCGACAG CTTAATCATC AAAGCATTAT CAACATGAAG
GAAATAGTGA CGGATAAGGA AGATGCTTTA GACTTCAAGA AGGACAAAGG TGCATTTTAC
CTGGTATTTG AATATATGGA CCATGACTTG ATGGGATTGC TCGAATCTGG TTTGGTTCAT
TTTAATGAAA ATCATATTAA ATCTTTTATG AGACAGCTGA TGGAGGGCTT GGCCTATTGC
CACAAGAAGA ACTTTTTGCA CAGAGATATC AAATGTTCAA ATATTCTACT AAATAATAGA
GGGCAGATAA AGCTCGCCGA TTTTGGGCTT GCTCGGTTGT ACAACTCAGA AGAAAGCCGA
CCATATACCA ACAAAGTTAT TACATTATGG TATCGACCTC CTGAACTTCT CCTTGGGGAA
GAAAGATACA CACCAGCTAT CGATGTCTGG AGCTGTGGCT GTATCCTGGG TGAACTTTTT
ACAAAAAAGC CAATATTCCA AGCAAATCAA GAACTTGCTC AACTGGAACT CATAAGCCGA
ATTTGCGGAA GTCCTTGTCC AGCAGTGTGG CCTGATGTTA TAAAATTAGC TTATTTCAAC
ACAATGAAAC CAAAGAAGCA GTATCGTCGA AAACTGAGAG AAGAGTTTGC TTTCATCCCA
CCAGCTGCAT TAGATTTATT TGACTATATG CTTGCCCTGG ATCCCAGCAA GCGCTGCACA
GCTGAACAAG CTCTTCAGTG TGAGTTTCTG CGAGATGTGG AGCCATCTAA AATGCCTCCT
CCAGACCTTC CTTTGTGGCA GGATTGCCAT GAGCTGTGGA GTAAGAAACG CAGAAGACAG
AAGCAGATGG GCATGACTGA TGACTCTACA GCAGCTAAAG TCCCTAGGAA GGATCTGTCT
CTAGGCATGG ATGAGAGCAG AACCAACACC CCACAAGCAA AAACAAGCAC TGGACAGCAG
TTAAACCAGA ATGAAGTGGC AATCCTGCTA AACCTGCTAC AGTCTAAAAC AAGTGTTAGT
TTGGCACAGT TTGCCCAAGT ATTGAATATT AAGGTAAACC CAGAGACTCA ACAGCAACTA
AATAAAATAA ATCTTCCTGC TGGGATTTTG TCAGCAGGTG AAAAACAGTC AGAACAGCAG
CAGCAGCCGC CGCCACCTCC GCCACCACCT CCAGAGCAGG AGCCCCTAAA ACAGCCGACG
GTCACGCAGC TCCCTGTGCC ACCTGCTCAG CTGGGTCAGC CTAAAGTGGA GACTGATGCT
GCCCAGGCAG CTGTGCAGAG TGCATTTGCT GTTCTGTTGT CTCAGTTAAT AAAGGCTCAG
CAAACAAAGC AAAAAGATTT TGTGTTGGAG GAGAAGGAAA ATGGATCAGG AAATGAAATG
TCATTACAAC TCAGGCAGCC TCCAGAGCCT GCCACTCCTG TGTCTGTCAG CCGGGACGAC
ATGGAATCTC CGGCACCTGG CTACCCACAT CTGATCAAAT CGTTATATAT GTCTGCAGGT
CAAGAGGATT TGGTTAGGCA GTCTGAGATG AGGCTTATGA ACCGAACACC TGAGCAGGAG
CGCCCTCGGA TCCTGCCTCC GGACCAGCGT CCTCCTGAGC CACCGGAGCC TCCACCACTC
ACTGATGAAG ACCTTGATTA TCGGACAGAG AATCAGCATT TGCCTATAAG TAACTCTTCA
GGAACAGATC CTCACGCAGG AGTGAAAGCA GCTCTTCTGC AGCTGCTGGC TCAGCATCAA
GCTCAGGCAA CAACGGAGGA GCCAGTACAA ACGAGTGTGG ATTATCAGGC TAGAGACTCC
TATGTAACAG GCCCAGACTA CAAGGATAGC TTTGGCTCAT CATCCTTCTC ATCTGCCTGT
TACAGCACTA GTGATGGAAT AGGAAGCGGA TCATCAGGAG TATTAGAAAG GAGGAGTTTC
CTTGGAAACT CAGATATTCA GTCTTTGGAT AACTACAGTA CTGCTTCATC TCACTCTGGT
GCTGCCCCTC CTCCATCAGC CTTTCCAGAA TCCTTTCCCA GCTCAGTAAC TGGTTACAGA
GACATTTACC TCAATGCTGG CCCCATGCTC TTCAGTGGAG ATAAAGACCA TAGGTTTGAA
TACAGCCATG GCCCAATCCC AGTTTTAGGG AGCAGCAGTG ATGCTTCCAC AGGGCCAGAG
AGTGCACACT CTTTGCCCAC AAAGATGCAC AACTATAGCT ATGGAAGTAA TTTACAGGAA
AATCCCACTG GCATCAACCA CATGCATGGA CAGACTTGGA CTTCTCCTGC CCAAGGACCT
GGCTATTCCC AAGGATACAG GGGACACATT AGCACATCTG CAGTGAGAGG GCGAGGCAGA
GGATTACCAT ATTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030121190.1 CDS 587..5101 Translation
Target ORF information:
RefSeq Version XM_030265330.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata cyclin dependent kinase 13 (CDK13), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030265330.1
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
4501ATGCCGAGCA CCTCGGACGC GGCGGCCGGC GGGAGCGGGG GCAGCCGGGG CTGGGGCAGC
GGCGGTGGCG GCAGCACGGC GGTGGAGGCG GCGGCCGACA AGAAGCGGCT GCACCACCGG
AGACGGAAGC GCTTCGCGGC CCAGCCGCCG CCGCCGGCCC CGCACCCTCT GCTGTTCCCG
TTGCTGCAGC CGCCGCTCCT GCAGCCCCCG CTGCTTCAGC CGCCGCTGCC GCCACAGTCC
CTGCTCTTCC TGGCGGCCAC CGGCGCCTCC TCTTGTTGCG GGGACGGCGG GGAGCGGAAG
CGGCCGCGAG GCAAGCGGCG CTCGGGCTCC CGGCATAAGC GGCGGCGGGG CCGCGGCGGC
GGCGGCGGGG GCACCCAGGA GGCGGAGAAG CGGCGCGGTA GCGGCGGGTT GAGCACGCTG
GTGGAGGAAT ACGACGACGT GAGCTCCCAG TCCGAGGGAC TGTTGGGCAG CGGCGCGGCC
GGCGGGGGCA GCCCGGGCTC CTCCTCGGGC GGTGGGACCC AGCGGCAGCG GGGCGAGGCA
GAGCGAAGCG GCCGGTCCCG TCGGGAGCAC CGCGGCAGCA GCGGGCGCTC CAAGGAGCGG
CATCGAGAGC ACCGCCGGCG GGGAGAGGAA AAGGCGCAGC AGGAGGGGAC GGCGGCACCA
GGCCGCGGGG CATCCGAGCC CTCCTCGTCC TCCAAATCCC GCAGCCGCCA CAACCACACC
GGGAGCCAAG ACCGGGAGGG ACTCAAGAGC AGCAGCAGCA GCGGCGGTGG CAGCGACAGC
CGCAGGAAGG GCTCCCTCCC CTCACCCAGC AGCGGCAGGA AAGACCGGGA GAGCAAATCG
CACCGGAGCC GGACTAAAGC GGCTAAAGAG CCACCGTCGG CGTACAAGGA CCCTCCAAAA
GCTTACCGGG ACGACAAGCT CGAGCCCAAG GCGTACCGGC GGCAGCGCTC GTCGCCCAGC
CCCGGGCGGG ATGACAGCCC TCCTCTGCAC CGCTCCTCGC AAAGCCAGCG CAGCCGCAAG
TCGCTCAGCC CGGTGGGCGC CCGCTCGCCA CTTAGCCCCT ACAGCCGACG CCGATCCCCC
AGCTACAGCC GGCACAGCTC GTACGAACGC GGCGGGGATG TGTCGCCCAG CCCCTACAGC
AGCTGGCGCC GGTCTCGAAG CCCCTACAGC CCCGTTATCC GGAGATCAGC AAAATCTCGA
AGCAGAAGTC CATATTCATC TAGACACTCC AGGTCTCGTA GCAGACACAG ATTGTCTAGA
TCCAGAAGTC GTCATTCAAG TATTTCTCCT AGTACATTGA CTCTGAAGAG TAGCCTGGCT
GCTGAGCTGA ACAAAAACAA AAAAGCTAGA GCTGCTGAGG CAGCCAAAGC TAGTGCGAAA
GCTTCCAATA CTTCAACACC TACTAAGGGA AACACTGATA CTGCTGCTGT AAGTGCACCT
CAAGTGAACA ATGTTAAGGA CCTGAAGAAA ATCAAAACTG AGCATACACC TTCTCCTACC
AGCAGTGCAA ATCTGAAAAA TGACAAGGCA AAAGCAAAGG TCTCGCTTCC TGAAACAAAG
GCAGAAAATA ATTTAATTGC AGACAAAATT ACGAAACAGA AGCCTGCAGC AGTAAAAGAG
AATAAAGTGA CTGTTGTGAA GCAGCAACCG GTCCCTGTAA AAGAGAAAAG CAAACCAAGT
ACACCAAGTG TAGTAGCCAA GGAGAAGGAT CGAATTGTTG CACTACCAAC CTCCACACTA
CCACCCTTGC CTTTGCCTCC CACGCTGCCT GAAGATAAAG AAACTGATAG TTTGAGAGAA
AATCTTTCAG TGAAGTCAGT TAAAGAAACA GAGAAGAAAC TTCGCCACCT GCTTGCAGAC
TTGCCACTTC CACCTGAGTT GCCTGGAGGA ACTGAGGTAC CCAAAAGTCC TGAAGAAAAG
AAACCAGCAG TTCAGTTACA TACCAAGAGA AGACCAAAAA TATGTGGACC ACGACATGGT
GAAACAAAAG AAAAAGAAAT AGACTGGGGA AAGCGCTGTG TGGATAAATT TGATATCATT
GGTATTATTG GTGAAGGCAC TTATGGGCAA GTTTACAAAG CCAGAGATAA AGATACAGGG
GAGATGGTAG CACTGAAGAA AGTACGACTG GATAATGAAA AGGAAGGGTT TCCAATTACA
GCTATTCGAG AGATTAAGAT TCTTCGACAG CTTAATCATC AAAGCATTAT CAACATGAAG
GAAATAGTGA CGGATAAGGA AGATGCTTTA GACTTCAAGA AGGACAAAGG TGCATTTTAC
CTGGTATTTG AATATATGGA CCATGACTTG ATGGGATTGC TCGAATCTGG TTTGGTTCAT
TTTAATGAAA ATCATATTAA ATCTTTTATG AGACAGCTGA TGGAGGGCTT GGCCTATTGC
CACAAGAAGA ACTTTTTGCA CAGAGATATC AAATGTTCAA ATATTCTACT AAATAATAGA
GGGCAGATAA AGCTCGCCGA TTTTGGGCTT GCTCGGTTGT ACAACTCAGA AGAAAGCCGA
CCATATACCA ACAAAGTTAT TACATTATGG TATCGACCTC CTGAACTTCT CCTTGGGGAA
GAAAGATACA CACCAGCTAT CGATGTCTGG AGCTGTGGCT GTATCCTGGG TGAACTTTTT
ACAAAAAAGC CAATATTCCA AGCAAATCAA GAACTTGCTC AACTGGAACT CATAAGCCGA
ATTTGCGGAA GTCCTTGTCC AGCAGTGTGG CCTGATGTTA TAAAATTAGC TTATTTCAAC
ACAATGAAAC CAAAGAAGCA GTATCGTCGA AAACTGAGAG AAGAGTTTGC TTTCATCCCA
CCAGCTGCAT TAGATTTATT TGACTATATG CTTGCCCTGG ATCCCAGCAA GCGCTGCACA
GCTGAACAAG CTCTTCAGTG TGAGTTTCTG CGAGATGTGG AGCCATCTAA AATGCCTCCT
CCAGACCTTC CTTTGTGGCA GGATTGCCAT GAGCTGTGGA GTAAGAAACG CAGAAGACAG
AAGCAGATGG GCATGACTGA TGACTCTACA GCAGCTAAAG TCCCTAGGAA GGATCTGTCT
CTAGGCATGG ATGAGAGCAG AACCAACACC CCACAAGCAA AAACAAGCAC TGGACAGCAG
TTAAACCAGA ATGAAGTGGC AATCCTGCTA AACCTGCTAC AGTCTAAAAC AAGTGTTAGT
TTGGCACAGT TTGCCCAAGT ATTGAATATT AAGGTAAACC CAGAGACTCA ACAGCAACTA
AATAAAATAA ATCTTCCTGC TGGGATTTTG TCAGCAGGTG AAAAACAGTC AGAACAGCAG
CAGCAGCCGC CGCCACCTCC GCCACCACCT CCAGAGCAGG AGCCCCTAAA ACAGCCGACG
GTCACGCAGC TCCCTGTGCC ACCTGCTCAG CTGGGTCAGC CTAAAGTGGA GACTGATGCT
GCCCAGGCAG CTGTGCAGAG TGCATTTGCT GTTCTGTTGT CTCAGTTAAT AAAGGCTCAG
CAAACAAAGC AAAAAGATTT TGTGTTGGAG GAGAAGGAAA ATGGATCAGG AAATGAAATG
TCATTACAAC TCAGGCAGCC TCCAGAGCCT GCCACTCCTG TGTCTGTCAG CCGGGACGAC
ATGGAATCTC CGGCACCTGG CTACCCACAT CTGATCAAAT CGTTATATAT GTCTGCAGGT
CAAGAGGATT TGGTTAGGCA GTCTGAGATG AGGCTTATGA ACCGAACACC TGAGCAGGAG
CGCCCTCGGA TCCTGCCTCC GGACCAGCGT CCTCCTGAGC CACCGGAGCC TCCACCACTC
ACTGATGAAG ACCTTGATTA TCGGACAGAG AATCAGCATT TGCCTATAAG TAACTCTTCA
GGAACAGATC CTCACGCAGG AGTGAAAGCA GCTCTTCTGC AGCTGCTGGC TCAGCATCAA
GCTCAGGCAA CAACGGAGGA GCCAGTACAA ACGAGTGTGG ATTATCAGGC TAGAGACTCC
TATGTAACAG GCCCAGACTA CAAGGATAGC TTTGGCTCAT CATCCTTCTC ATCTGCCTGT
TACAGCACTA GTGATGGAAT AGGAAGCGGA TCATCAGGAG TATTAGAAAG GAGGAGTTTC
CTTGGAAACT CAGATATTCA GTCTTTGGAT AACTACAGTA CTGCTTCATC TCACTCTGGT
GCTGCCCCTC CTCCATCAGC CTTTCCAGAA TCCTTTCCCA GCTCAGTAAC TGGTTACAGA
GACATTTACC TCAATGCTGG CCCCATGCTC TTCAGTGGAG ATAAAGACCA TAGGTTTGAA
TACAGCCATG GCCCAATCCC AGTTTTAGGG AGCAGCAGTG ATGCTTCCAC AGGGCCAGAG
AGTGCACACT CTTTGCCCAC AAAGATGCAC AACTATAGCT ATGGAAGTAA TTTACAGGAA
AATCCCACTG GCATCAACCA CATGCATGGA CAGACTTGGA CTTCTCCTGC CCAAGGACCT
GGCTATTCCC AAGGATACAG GGGACACATT AGCACATCTG CAGTGAGAGG GCGAGGCAGA
GGATTACCAT ATTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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