| Gene Symbol | NEK1 |
| Entrez Gene ID | 102942101 |
| Full Name | NIMA related kinase 1 |
| Gene Type | protein-coding |
| Organism | Chelonia mydas(Green sea turtle) |
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NEK1 cDNA ORF clone, Chelonia mydas(Green sea turtle)
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Gene
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Clones
gRNAs
The following NEK1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the NEK1 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 OCh375622 Clone ID Related Accession (Same CDS sequence) XM_027829309.1 , XM_027829310.1 , XM_027829311.1 Accession Version XM_027829309.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3921bp)
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 1548086400000 Organism Chelonia mydas(Green sea turtle) Product serine/threonine-protein kinase Nek1 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006661173.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Chelonia mydas Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.1 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
3901ATGGAGAAAT ATATTAAAGT GCAGAAGATT GGCGAAGGAT CCTTTGGAAA AGCAATTCTG
GTCAAAGCTA AAGAAAATAG CAGACAGTAT GTTGTTAAGG AGATAAACAT CTCTAAGATG
TCCAATAAAG AGAGAGAAGA ATCAAGGAGA GAAGTTGCTG TATTGGCAAA CATGAAACAT
CCAAATATTG TCCTGTATCG GGAATCATTT GAAGAAAATG GCTCTCTCTA TATAGTGATG
GATTACTGTG AAGGAGGGGA CCTGTTTAGA CGAATAAATG CTCAGAAAGG CATCTTGTTC
TCAGAGGATC AGATAATGGA TTGGTTTGTA CAGATTTGTT TAGCACTAAA ACATGTACAT
GACAGAAAAA TTTTGCATCG AGATATAAAG TCACAGAATA TATTTTTAAC CAAAGATGGA
ACAATACAAC TGGGAGACTT TGGAATAGCT AGAGTTCTTA ACAGTACTGT AGAGCTGGCT
CGCACTTGCA TAGGAACACC ATACTATTTG TCACCTGAAA TCTGTCGGAA CAAGCCTTAC
AACAATAAAA GTGACATATG GGCTCTTGGT TGTGTTCTCT ATGAGATGTG CACACTTAAA
CATGCATTTG AAGCTGGTAA CATGAAAAAT CTGGTACTGA AGATAATCTC TGGATCTTTT
CCTCCTGTTT CTCTGCATTA TTCCTACGAT CTACGTAATC TGCTTTCACA GTTATTTAAA
AGGAATCCTA GGGATAGACC ATCAGTCAAC TCCATATTGG AGAAAATCTT TATAGCCAAA
CGGGTGGAAA AATTTCTTAC ACCACAGCTT ATTGCAGACG AATTCAGTCA CAAAGTGTTC
CACAAGTTTG ACGCCCATGT TGCACCAGTA AAACGACTAG CTCAAGGACA AATCTGTGCT
TCAGCTGTGC CAGCTCAGAA AATTACCAAA CCTGCTGCAA AATATGGAGT GCCTTTAATG
ATCAAGAAAT CTGGTGATGC ATCTAAAAAA TTTCATGAGA AGAAGCCATT AGCTAAATTT
AGACAGGCCC ATCCAACTCC AATGAAGAAA ATGAATCCAG GAGAAGAAAG GAGGAAAATG
TTTGAGGAAG CTGCAAAAAA GAGAAGATTT GAATTACTTG AGAAAGAAAA ACGACAAAGA
GACCAGAAGG CTGAGCAGAT GAGAAGACTG GAAAAGGAAA GGATGGAACG GATAAACAGA
GCCAGGGAAC AAGGCTGGAG AAATGTGCTT AGTTCAGGTG GAAGTGGTGA AGTTAAGGCA
CCCTTTTTTG GCGGTGGAGG AGGTGTTGGG CCTTCCCCTG TGCCTGCCAG AGGACAGTAT
GAACACTACC ATGCTATCTT TGACCAGATG CAACAGCAAA AGGAAAATAT TAAAGTAGGT
GAGGAGAGAG AAACCAGATG GAGAGCAGAA ATACGAAGTC GGGAAGCTGT TGAAAGAGGA
GTTCCACCTG GAGTACGTCC AGGATTTCCT AATGGGCCTG ATGGTCATCA CCATTTACCA
GATGCTGATG CAATTAGGAA AAAAATCAAA AGATTGAAGG AGGTGTCTAA ACAAGCCAAT
GCAAACAGGC AAAGAGGATG GGTAGCAGCA GAAAGAGCAA AACAAGTTGA AGAATTCTGG
CAACGAAAGA GGGAAGCTAT GCAAAACAAA GCTCGTGCTG AAGGACATAT GGGTACACTG
CAAAACCTGG CAGCTATCTA TGGAGGCAGG CCCATTTCTG CAAGAGGAAG GAAATCCAGA
AACAAGGAGG AAGAGGAATA CCTGGCAAGA TTAAGACAGA TCCGACTTCA AAACTTCAAT
GAACGCCAGC AGATTAAAGC TAAACTTCGT GGAGAAAAGA ATGAAGCTGA CGGTTCTGAT
GGACAAGAAG GAAGTGAAGA AGCAGAATTG AGACGCAAAA AAATTGAAGC ACTAAAGGCC
CAAGCAAACG CGCGAGCTGC AGTTCTGAAA GAGCAACTAG AGCGAAAGAG GAAGGAGGCA
TATGAAAGAG AGAAGAAAGC TTGGGAAGAA CATTTGACAG CAAAAGGGGT AAAGAATCCT
ATGGTGCCTT TTAATGTGTC AGCAGCTGGG GTTAATCCTG TCCCTGGGCA ACAAGAACCT
GGAGGACCTC CTGCCAAACT ACAACTTCCA TTGAAGCCCA GTACACCACT TATATCTATG
ACTTCAGCTT TGAAGGAAGT GGGTGTGGAT GAAAATACAA CTGCTATCCA GGAAACCACA
GAGGAAACGA AGAAGGCAGA TCTTGCTGTG CAAAATAAAA GAGAAATACT AAGAAGATTG
AATCAAAATC TTAAAACACA GGACGATGTA AAAGGAATAA AGGAGCCTAA AGACACCTGT
GAGGCAGCTA TGGCTGAAGA GAGTAAAGAA GAAGAATATC CACTTCTAGT AGATCGCAAG
AAATGGGAGG TGGCAGCAGC TGAGTTGGTG GTTCCTCTTG CACAGCTAAC TATGGAGGAA
TCATTGTCGG GGACAGAGAG ACAGACCGTG GGGGAGGTAA TTAAACTAGA TGTTGGTGAG
CCCCAGAGAA AAGTTTGGGG CAAAAGCCCT ACTGATTCAG TTTTGAAGAT ACTGGGGGAA
GCAGAGCTAC AGCTTCAAAC TGAATTATTG GAGGAAATAA TTATCACAAA TGATGTTCCT
GAAGAAGGTT CTCAGCCCTT AACCGTGAAA GAGAACAGTG AAGTAGAAAT TGCTTGTATT
GGAGAGAAAT CTTCATCTCC AGTTGTTGGT GTCATAGAAT CTGAAAGGAC AATACCAGAG
GAGTCACAAA CATTTGATGC CACCCAAGTG CTGTCCAGGC CTGTTGTGCT ACATGAGCTG
TATGATTTGG AAGCAGAAAT GTTGGAAGAA ACTGAAAAAA ATAAAAAGTG CAAAAGTGAC
CAACTTCTCA TCACTGTTCA TGATGTGTGG GTTAAAGAAA GGGAAACAAT AACGGAGCAT
GAGCCACTGG AAGATACTGC CTGTCAGAAA GATGGTGGTG GTGATGAAGC AGCTTTGGAG
AAGGAAATGC CGCAAAATGT GCAACCGCGT AATGAAGTTT CTGCTGGTCA TGCTTACACT
TGTCTCAGTG ACTCTATGCA ACCTGAACCC TTTTTCCAGA AGGTGGCACA GCCACAAGCC
ATACCAGCAG CCTCACCAGT TCTGTCAGCT CAGTCTTCAC TGGAAGAGCC TTTTCCACCT
CGTTCACGTT CTGTATCACC AGCAAAAAGT AAAGGCAAAA GTTCATTATT GATTGGGCTC
TCTACTGGCC TGTTTGATGC AAACAATCCA AAGATGTTAA GAACATGTTC ACTCCCAGAT
CTTTCCAAGT TGTACAGAAC ACTAATTGAC GTTCCCATTG TAGCAGATGT ACAACATCAA
GACAATCTTG AAATAGAGGA TATGGAAGAT GAGCATGTCA AAGAAGGGCA TTCTGATTCT
GAAGACATTA TGTTTGGTGA GGCAGATACA GACTTGCGGG CTCTTCAGGC CTCGATGGAA
CAGTTACTTA GGGAGCAGCC TAGTGAGGAA TTTAGTGAAG AGGAGTTGTC TACCTTAAAG
GCAGATACTG CAGCACGCAT AACAAATGGT ACAGAGTTGG ATGATGAGGA TGACAACAAC
CCCAGCAGTG AAAGTGTACT TAATGAAGAA TGGCAATCAG ACAACAGTGA TGGGGATATT
GCCAGTGAAT GTGAAGCATA TGACAGTGTC TTCAGCCATT TGGAAGAATT GAGATACAAT
CTGGAGCGGG AAATAGGCTT TGATAAATTC ATTGAAGTTT ATGATAAAAT AAAGGCAATA
CATGAAGATG AAGATGAGAA TATTGATGTT TGTTCAACAA TAGTTCAGAA TATTCTGGGA
AATGAATATA AACATCTGTA TGCCAAGATT CTTCATTTAG TGATGGCAGA TGGAGCCTAT
CAGGAGGATA ATGATGAATA AThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_027685110.1 CDS 104..4024 Translation 
Target ORF information:
RefSeq Version XM_027829309.1 Organism Chelonia mydas(Green sea turtle) Definition Chelonia mydas NIMA related kinase 1 (NEK1), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_027829309.1
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
3901ATGGAGAAAT ATATTAAAGT GCAGAAGATT GGCGAAGGAT CCTTTGGAAA AGCAATTCTG
GTCAAAGCTA AAGAAAATAG CAGACAGTAT GTTGTTAAGG AGATAAACAT CTCTAAGATG
TCCAATAAAG AGAGAGAAGA ATCAAGGAGA GAAGTTGCTG TATTGGCAAA CATGAAACAT
CCAAATATTG TCCTGTATCG GGAATCATTT GAAGAAAATG GCTCTCTCTA TATAGTGATG
GATTACTGTG AAGGAGGGGA CCTGTTTAGA CGAATAAATG CTCAGAAAGG CATCTTGTTC
TCAGAGGATC AGATAATGGA TTGGTTTGTA CAGATTTGTT TAGCACTAAA ACATGTACAT
GACAGAAAAA TTTTGCATCG AGATATAAAG TCACAGAATA TATTTTTAAC CAAAGATGGA
ACAATACAAC TGGGAGACTT TGGAATAGCT AGAGTTCTTA ACAGTACTGT AGAGCTGGCT
CGCACTTGCA TAGGAACACC ATACTATTTG TCACCTGAAA TCTGTCGGAA CAAGCCTTAC
AACAATAAAA GTGACATATG GGCTCTTGGT TGTGTTCTCT ATGAGATGTG CACACTTAAA
CATGCATTTG AAGCTGGTAA CATGAAAAAT CTGGTACTGA AGATAATCTC TGGATCTTTT
CCTCCTGTTT CTCTGCATTA TTCCTACGAT CTACGTAATC TGCTTTCACA GTTATTTAAA
AGGAATCCTA GGGATAGACC ATCAGTCAAC TCCATATTGG AGAAAATCTT TATAGCCAAA
CGGGTGGAAA AATTTCTTAC ACCACAGCTT ATTGCAGACG AATTCAGTCA CAAAGTGTTC
CACAAGTTTG ACGCCCATGT TGCACCAGTA AAACGACTAG CTCAAGGACA AATCTGTGCT
TCAGCTGTGC CAGCTCAGAA AATTACCAAA CCTGCTGCAA AATATGGAGT GCCTTTAATG
ATCAAGAAAT CTGGTGATGC ATCTAAAAAA TTTCATGAGA AGAAGCCATT AGCTAAATTT
AGACAGGCCC ATCCAACTCC AATGAAGAAA ATGAATCCAG GAGAAGAAAG GAGGAAAATG
TTTGAGGAAG CTGCAAAAAA GAGAAGATTT GAATTACTTG AGAAAGAAAA ACGACAAAGA
GACCAGAAGG CTGAGCAGAT GAGAAGACTG GAAAAGGAAA GGATGGAACG GATAAACAGA
GCCAGGGAAC AAGGCTGGAG AAATGTGCTT AGTTCAGGTG GAAGTGGTGA AGTTAAGGCA
CCCTTTTTTG GCGGTGGAGG AGGTGTTGGG CCTTCCCCTG TGCCTGCCAG AGGACAGTAT
GAACACTACC ATGCTATCTT TGACCAGATG CAACAGCAAA AGGAAAATAT TAAAGTAGGT
GAGGAGAGAG AAACCAGATG GAGAGCAGAA ATACGAAGTC GGGAAGCTGT TGAAAGAGGA
GTTCCACCTG GAGTACGTCC AGGATTTCCT AATGGGCCTG ATGGTCATCA CCATTTACCA
GATGCTGATG CAATTAGGAA AAAAATCAAA AGATTGAAGG AGGTGTCTAA ACAAGCCAAT
GCAAACAGGC AAAGAGGATG GGTAGCAGCA GAAAGAGCAA AACAAGTTGA AGAATTCTGG
CAACGAAAGA GGGAAGCTAT GCAAAACAAA GCTCGTGCTG AAGGACATAT GGGTACACTG
CAAAACCTGG CAGCTATCTA TGGAGGCAGG CCCATTTCTG CAAGAGGAAG GAAATCCAGA
AACAAGGAGG AAGAGGAATA CCTGGCAAGA TTAAGACAGA TCCGACTTCA AAACTTCAAT
GAACGCCAGC AGATTAAAGC TAAACTTCGT GGAGAAAAGA ATGAAGCTGA CGGTTCTGAT
GGACAAGAAG GAAGTGAAGA AGCAGAATTG AGACGCAAAA AAATTGAAGC ACTAAAGGCC
CAAGCAAACG CGCGAGCTGC AGTTCTGAAA GAGCAACTAG AGCGAAAGAG GAAGGAGGCA
TATGAAAGAG AGAAGAAAGC TTGGGAAGAA CATTTGACAG CAAAAGGGGT AAAGAATCCT
ATGGTGCCTT TTAATGTGTC AGCAGCTGGG GTTAATCCTG TCCCTGGGCA ACAAGAACCT
GGAGGACCTC CTGCCAAACT ACAACTTCCA TTGAAGCCCA GTACACCACT TATATCTATG
ACTTCAGCTT TGAAGGAAGT GGGTGTGGAT GAAAATACAA CTGCTATCCA GGAAACCACA
GAGGAAACGA AGAAGGCAGA TCTTGCTGTG CAAAATAAAA GAGAAATACT AAGAAGATTG
AATCAAAATC TTAAAACACA GGACGATGTA AAAGGAATAA AGGAGCCTAA AGACACCTGT
GAGGCAGCTA TGGCTGAAGA GAGTAAAGAA GAAGAATATC CACTTCTAGT AGATCGCAAG
AAATGGGAGG TGGCAGCAGC TGAGTTGGTG GTTCCTCTTG CACAGCTAAC TATGGAGGAA
TCATTGTCGG GGACAGAGAG ACAGACCGTG GGGGAGGTAA TTAAACTAGA TGTTGGTGAG
CCCCAGAGAA AAGTTTGGGG CAAAAGCCCT ACTGATTCAG TTTTGAAGAT ACTGGGGGAA
GCAGAGCTAC AGCTTCAAAC TGAATTATTG GAGGAAATAA TTATCACAAA TGATGTTCCT
GAAGAAGGTT CTCAGCCCTT AACCGTGAAA GAGAACAGTG AAGTAGAAAT TGCTTGTATT
GGAGAGAAAT CTTCATCTCC AGTTGTTGGT GTCATAGAAT CTGAAAGGAC AATACCAGAG
GAGTCACAAA CATTTGATGC CACCCAAGTG CTGTCCAGGC CTGTTGTGCT ACATGAGCTG
TATGATTTGG AAGCAGAAAT GTTGGAAGAA ACTGAAAAAA ATAAAAAGTG CAAAAGTGAC
CAACTTCTCA TCACTGTTCA TGATGTGTGG GTTAAAGAAA GGGAAACAAT AACGGAGCAT
GAGCCACTGG AAGATACTGC CTGTCAGAAA GATGGTGGTG GTGATGAAGC AGCTTTGGAG
AAGGAAATGC CGCAAAATGT GCAACCGCGT AATGAAGTTT CTGCTGGTCA TGCTTACACT
TGTCTCAGTG ACTCTATGCA ACCTGAACCC TTTTTCCAGA AGGTGGCACA GCCACAAGCC
ATACCAGCAG CCTCACCAGT TCTGTCAGCT CAGTCTTCAC TGGAAGAGCC TTTTCCACCT
CGTTCACGTT CTGTATCACC AGCAAAAAGT AAAGGCAAAA GTTCATTATT GATTGGGCTC
TCTACTGGCC TGTTTGATGC AAACAATCCA AAGATGTTAA GAACATGTTC ACTCCCAGAT
CTTTCCAAGT TGTACAGAAC ACTAATTGAC GTTCCCATTG TAGCAGATGT ACAACATCAA
GACAATCTTG AAATAGAGGA TATGGAAGAT GAGCATGTCA AAGAAGGGCA TTCTGATTCT
GAAGACATTA TGTTTGGTGA GGCAGATACA GACTTGCGGG CTCTTCAGGC CTCGATGGAA
CAGTTACTTA GGGAGCAGCC TAGTGAGGAA TTTAGTGAAG AGGAGTTGTC TACCTTAAAG
GCAGATACTG CAGCACGCAT AACAAATGGT ACAGAGTTGG ATGATGAGGA TGACAACAAC
CCCAGCAGTG AAAGTGTACT TAATGAAGAA TGGCAATCAG ACAACAGTGA TGGGGATATT
GCCAGTGAAT GTGAAGCATA TGACAGTGTC TTCAGCCATT TGGAAGAATT GAGATACAAT
CTGGAGCGGG AAATAGGCTT TGATAAATTC ATTGAAGTTT ATGATAAAAT AAAGGCAATA
CATGAAGATG AAGATGAGAA TATTGATGTT TGTTCAACAA TAGTTCAGAA TATTCTGGGA
AATGAATATA AACATCTGTA TGCCAAGATT CTTCATTTAG TGATGGCAGA TGGAGCCTAT
CAGGAGGATA ATGATGAATA AThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OCh375622 Clone ID Related Accession (Same CDS sequence) XM_027829309.1 , XM_027829310.1 , XM_027829311.1 Accession Version XM_027829310.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3921bp)
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 1548086400000 Organism Chelonia mydas(Green sea turtle) Product serine/threonine-protein kinase Nek1 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006661173.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Chelonia mydas Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.1 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
3901ATGGAGAAAT ATATTAAAGT GCAGAAGATT GGCGAAGGAT CCTTTGGAAA AGCAATTCTG
GTCAAAGCTA AAGAAAATAG CAGACAGTAT GTTGTTAAGG AGATAAACAT CTCTAAGATG
TCCAATAAAG AGAGAGAAGA ATCAAGGAGA GAAGTTGCTG TATTGGCAAA CATGAAACAT
CCAAATATTG TCCTGTATCG GGAATCATTT GAAGAAAATG GCTCTCTCTA TATAGTGATG
GATTACTGTG AAGGAGGGGA CCTGTTTAGA CGAATAAATG CTCAGAAAGG CATCTTGTTC
TCAGAGGATC AGATAATGGA TTGGTTTGTA CAGATTTGTT TAGCACTAAA ACATGTACAT
GACAGAAAAA TTTTGCATCG AGATATAAAG TCACAGAATA TATTTTTAAC CAAAGATGGA
ACAATACAAC TGGGAGACTT TGGAATAGCT AGAGTTCTTA ACAGTACTGT AGAGCTGGCT
CGCACTTGCA TAGGAACACC ATACTATTTG TCACCTGAAA TCTGTCGGAA CAAGCCTTAC
AACAATAAAA GTGACATATG GGCTCTTGGT TGTGTTCTCT ATGAGATGTG CACACTTAAA
CATGCATTTG AAGCTGGTAA CATGAAAAAT CTGGTACTGA AGATAATCTC TGGATCTTTT
CCTCCTGTTT CTCTGCATTA TTCCTACGAT CTACGTAATC TGCTTTCACA GTTATTTAAA
AGGAATCCTA GGGATAGACC ATCAGTCAAC TCCATATTGG AGAAAATCTT TATAGCCAAA
CGGGTGGAAA AATTTCTTAC ACCACAGCTT ATTGCAGACG AATTCAGTCA CAAAGTGTTC
CACAAGTTTG ACGCCCATGT TGCACCAGTA AAACGACTAG CTCAAGGACA AATCTGTGCT
TCAGCTGTGC CAGCTCAGAA AATTACCAAA CCTGCTGCAA AATATGGAGT GCCTTTAATG
ATCAAGAAAT CTGGTGATGC ATCTAAAAAA TTTCATGAGA AGAAGCCATT AGCTAAATTT
AGACAGGCCC ATCCAACTCC AATGAAGAAA ATGAATCCAG GAGAAGAAAG GAGGAAAATG
TTTGAGGAAG CTGCAAAAAA GAGAAGATTT GAATTACTTG AGAAAGAAAA ACGACAAAGA
GACCAGAAGG CTGAGCAGAT GAGAAGACTG GAAAAGGAAA GGATGGAACG GATAAACAGA
GCCAGGGAAC AAGGCTGGAG AAATGTGCTT AGTTCAGGTG GAAGTGGTGA AGTTAAGGCA
CCCTTTTTTG GCGGTGGAGG AGGTGTTGGG CCTTCCCCTG TGCCTGCCAG AGGACAGTAT
GAACACTACC ATGCTATCTT TGACCAGATG CAACAGCAAA AGGAAAATAT TAAAGTAGGT
GAGGAGAGAG AAACCAGATG GAGAGCAGAA ATACGAAGTC GGGAAGCTGT TGAAAGAGGA
GTTCCACCTG GAGTACGTCC AGGATTTCCT AATGGGCCTG ATGGTCATCA CCATTTACCA
GATGCTGATG CAATTAGGAA AAAAATCAAA AGATTGAAGG AGGTGTCTAA ACAAGCCAAT
GCAAACAGGC AAAGAGGATG GGTAGCAGCA GAAAGAGCAA AACAAGTTGA AGAATTCTGG
CAACGAAAGA GGGAAGCTAT GCAAAACAAA GCTCGTGCTG AAGGACATAT GGGTACACTG
CAAAACCTGG CAGCTATCTA TGGAGGCAGG CCCATTTCTG CAAGAGGAAG GAAATCCAGA
AACAAGGAGG AAGAGGAATA CCTGGCAAGA TTAAGACAGA TCCGACTTCA AAACTTCAAT
GAACGCCAGC AGATTAAAGC TAAACTTCGT GGAGAAAAGA ATGAAGCTGA CGGTTCTGAT
GGACAAGAAG GAAGTGAAGA AGCAGAATTG AGACGCAAAA AAATTGAAGC ACTAAAGGCC
CAAGCAAACG CGCGAGCTGC AGTTCTGAAA GAGCAACTAG AGCGAAAGAG GAAGGAGGCA
TATGAAAGAG AGAAGAAAGC TTGGGAAGAA CATTTGACAG CAAAAGGGGT AAAGAATCCT
ATGGTGCCTT TTAATGTGTC AGCAGCTGGG GTTAATCCTG TCCCTGGGCA ACAAGAACCT
GGAGGACCTC CTGCCAAACT ACAACTTCCA TTGAAGCCCA GTACACCACT TATATCTATG
ACTTCAGCTT TGAAGGAAGT GGGTGTGGAT GAAAATACAA CTGCTATCCA GGAAACCACA
GAGGAAACGA AGAAGGCAGA TCTTGCTGTG CAAAATAAAA GAGAAATACT AAGAAGATTG
AATCAAAATC TTAAAACACA GGACGATGTA AAAGGAATAA AGGAGCCTAA AGACACCTGT
GAGGCAGCTA TGGCTGAAGA GAGTAAAGAA GAAGAATATC CACTTCTAGT AGATCGCAAG
AAATGGGAGG TGGCAGCAGC TGAGTTGGTG GTTCCTCTTG CACAGCTAAC TATGGAGGAA
TCATTGTCGG GGACAGAGAG ACAGACCGTG GGGGAGGTAA TTAAACTAGA TGTTGGTGAG
CCCCAGAGAA AAGTTTGGGG CAAAAGCCCT ACTGATTCAG TTTTGAAGAT ACTGGGGGAA
GCAGAGCTAC AGCTTCAAAC TGAATTATTG GAGGAAATAA TTATCACAAA TGATGTTCCT
GAAGAAGGTT CTCAGCCCTT AACCGTGAAA GAGAACAGTG AAGTAGAAAT TGCTTGTATT
GGAGAGAAAT CTTCATCTCC AGTTGTTGGT GTCATAGAAT CTGAAAGGAC AATACCAGAG
GAGTCACAAA CATTTGATGC CACCCAAGTG CTGTCCAGGC CTGTTGTGCT ACATGAGCTG
TATGATTTGG AAGCAGAAAT GTTGGAAGAA ACTGAAAAAA ATAAAAAGTG CAAAAGTGAC
CAACTTCTCA TCACTGTTCA TGATGTGTGG GTTAAAGAAA GGGAAACAAT AACGGAGCAT
GAGCCACTGG AAGATACTGC CTGTCAGAAA GATGGTGGTG GTGATGAAGC AGCTTTGGAG
AAGGAAATGC CGCAAAATGT GCAACCGCGT AATGAAGTTT CTGCTGGTCA TGCTTACACT
TGTCTCAGTG ACTCTATGCA ACCTGAACCC TTTTTCCAGA AGGTGGCACA GCCACAAGCC
ATACCAGCAG CCTCACCAGT TCTGTCAGCT CAGTCTTCAC TGGAAGAGCC TTTTCCACCT
CGTTCACGTT CTGTATCACC AGCAAAAAGT AAAGGCAAAA GTTCATTATT GATTGGGCTC
TCTACTGGCC TGTTTGATGC AAACAATCCA AAGATGTTAA GAACATGTTC ACTCCCAGAT
CTTTCCAAGT TGTACAGAAC ACTAATTGAC GTTCCCATTG TAGCAGATGT ACAACATCAA
GACAATCTTG AAATAGAGGA TATGGAAGAT GAGCATGTCA AAGAAGGGCA TTCTGATTCT
GAAGACATTA TGTTTGGTGA GGCAGATACA GACTTGCGGG CTCTTCAGGC CTCGATGGAA
CAGTTACTTA GGGAGCAGCC TAGTGAGGAA TTTAGTGAAG AGGAGTTGTC TACCTTAAAG
GCAGATACTG CAGCACGCAT AACAAATGGT ACAGAGTTGG ATGATGAGGA TGACAACAAC
CCCAGCAGTG AAAGTGTACT TAATGAAGAA TGGCAATCAG ACAACAGTGA TGGGGATATT
GCCAGTGAAT GTGAAGCATA TGACAGTGTC TTCAGCCATT TGGAAGAATT GAGATACAAT
CTGGAGCGGG AAATAGGCTT TGATAAATTC ATTGAAGTTT ATGATAAAAT AAAGGCAATA
CATGAAGATG AAGATGAGAA TATTGATGTT TGTTCAACAA TAGTTCAGAA TATTCTGGGA
AATGAATATA AACATCTGTA TGCCAAGATT CTTCATTTAG TGATGGCAGA TGGAGCCTAT
CAGGAGGATA ATGATGAATA AThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_027685111.1 CDS 62..3982 Translation
Target ORF information:
RefSeq Version XM_027829310.1 Organism Chelonia mydas(Green sea turtle) Definition Chelonia mydas NIMA related kinase 1 (NEK1), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_027829310.1
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
3901ATGGAGAAAT ATATTAAAGT GCAGAAGATT GGCGAAGGAT CCTTTGGAAA AGCAATTCTG
GTCAAAGCTA AAGAAAATAG CAGACAGTAT GTTGTTAAGG AGATAAACAT CTCTAAGATG
TCCAATAAAG AGAGAGAAGA ATCAAGGAGA GAAGTTGCTG TATTGGCAAA CATGAAACAT
CCAAATATTG TCCTGTATCG GGAATCATTT GAAGAAAATG GCTCTCTCTA TATAGTGATG
GATTACTGTG AAGGAGGGGA CCTGTTTAGA CGAATAAATG CTCAGAAAGG CATCTTGTTC
TCAGAGGATC AGATAATGGA TTGGTTTGTA CAGATTTGTT TAGCACTAAA ACATGTACAT
GACAGAAAAA TTTTGCATCG AGATATAAAG TCACAGAATA TATTTTTAAC CAAAGATGGA
ACAATACAAC TGGGAGACTT TGGAATAGCT AGAGTTCTTA ACAGTACTGT AGAGCTGGCT
CGCACTTGCA TAGGAACACC ATACTATTTG TCACCTGAAA TCTGTCGGAA CAAGCCTTAC
AACAATAAAA GTGACATATG GGCTCTTGGT TGTGTTCTCT ATGAGATGTG CACACTTAAA
CATGCATTTG AAGCTGGTAA CATGAAAAAT CTGGTACTGA AGATAATCTC TGGATCTTTT
CCTCCTGTTT CTCTGCATTA TTCCTACGAT CTACGTAATC TGCTTTCACA GTTATTTAAA
AGGAATCCTA GGGATAGACC ATCAGTCAAC TCCATATTGG AGAAAATCTT TATAGCCAAA
CGGGTGGAAA AATTTCTTAC ACCACAGCTT ATTGCAGACG AATTCAGTCA CAAAGTGTTC
CACAAGTTTG ACGCCCATGT TGCACCAGTA AAACGACTAG CTCAAGGACA AATCTGTGCT
TCAGCTGTGC CAGCTCAGAA AATTACCAAA CCTGCTGCAA AATATGGAGT GCCTTTAATG
ATCAAGAAAT CTGGTGATGC ATCTAAAAAA TTTCATGAGA AGAAGCCATT AGCTAAATTT
AGACAGGCCC ATCCAACTCC AATGAAGAAA ATGAATCCAG GAGAAGAAAG GAGGAAAATG
TTTGAGGAAG CTGCAAAAAA GAGAAGATTT GAATTACTTG AGAAAGAAAA ACGACAAAGA
GACCAGAAGG CTGAGCAGAT GAGAAGACTG GAAAAGGAAA GGATGGAACG GATAAACAGA
GCCAGGGAAC AAGGCTGGAG AAATGTGCTT AGTTCAGGTG GAAGTGGTGA AGTTAAGGCA
CCCTTTTTTG GCGGTGGAGG AGGTGTTGGG CCTTCCCCTG TGCCTGCCAG AGGACAGTAT
GAACACTACC ATGCTATCTT TGACCAGATG CAACAGCAAA AGGAAAATAT TAAAGTAGGT
GAGGAGAGAG AAACCAGATG GAGAGCAGAA ATACGAAGTC GGGAAGCTGT TGAAAGAGGA
GTTCCACCTG GAGTACGTCC AGGATTTCCT AATGGGCCTG ATGGTCATCA CCATTTACCA
GATGCTGATG CAATTAGGAA AAAAATCAAA AGATTGAAGG AGGTGTCTAA ACAAGCCAAT
GCAAACAGGC AAAGAGGATG GGTAGCAGCA GAAAGAGCAA AACAAGTTGA AGAATTCTGG
CAACGAAAGA GGGAAGCTAT GCAAAACAAA GCTCGTGCTG AAGGACATAT GGGTACACTG
CAAAACCTGG CAGCTATCTA TGGAGGCAGG CCCATTTCTG CAAGAGGAAG GAAATCCAGA
AACAAGGAGG AAGAGGAATA CCTGGCAAGA TTAAGACAGA TCCGACTTCA AAACTTCAAT
GAACGCCAGC AGATTAAAGC TAAACTTCGT GGAGAAAAGA ATGAAGCTGA CGGTTCTGAT
GGACAAGAAG GAAGTGAAGA AGCAGAATTG AGACGCAAAA AAATTGAAGC ACTAAAGGCC
CAAGCAAACG CGCGAGCTGC AGTTCTGAAA GAGCAACTAG AGCGAAAGAG GAAGGAGGCA
TATGAAAGAG AGAAGAAAGC TTGGGAAGAA CATTTGACAG CAAAAGGGGT AAAGAATCCT
ATGGTGCCTT TTAATGTGTC AGCAGCTGGG GTTAATCCTG TCCCTGGGCA ACAAGAACCT
GGAGGACCTC CTGCCAAACT ACAACTTCCA TTGAAGCCCA GTACACCACT TATATCTATG
ACTTCAGCTT TGAAGGAAGT GGGTGTGGAT GAAAATACAA CTGCTATCCA GGAAACCACA
GAGGAAACGA AGAAGGCAGA TCTTGCTGTG CAAAATAAAA GAGAAATACT AAGAAGATTG
AATCAAAATC TTAAAACACA GGACGATGTA AAAGGAATAA AGGAGCCTAA AGACACCTGT
GAGGCAGCTA TGGCTGAAGA GAGTAAAGAA GAAGAATATC CACTTCTAGT AGATCGCAAG
AAATGGGAGG TGGCAGCAGC TGAGTTGGTG GTTCCTCTTG CACAGCTAAC TATGGAGGAA
TCATTGTCGG GGACAGAGAG ACAGACCGTG GGGGAGGTAA TTAAACTAGA TGTTGGTGAG
CCCCAGAGAA AAGTTTGGGG CAAAAGCCCT ACTGATTCAG TTTTGAAGAT ACTGGGGGAA
GCAGAGCTAC AGCTTCAAAC TGAATTATTG GAGGAAATAA TTATCACAAA TGATGTTCCT
GAAGAAGGTT CTCAGCCCTT AACCGTGAAA GAGAACAGTG AAGTAGAAAT TGCTTGTATT
GGAGAGAAAT CTTCATCTCC AGTTGTTGGT GTCATAGAAT CTGAAAGGAC AATACCAGAG
GAGTCACAAA CATTTGATGC CACCCAAGTG CTGTCCAGGC CTGTTGTGCT ACATGAGCTG
TATGATTTGG AAGCAGAAAT GTTGGAAGAA ACTGAAAAAA ATAAAAAGTG CAAAAGTGAC
CAACTTCTCA TCACTGTTCA TGATGTGTGG GTTAAAGAAA GGGAAACAAT AACGGAGCAT
GAGCCACTGG AAGATACTGC CTGTCAGAAA GATGGTGGTG GTGATGAAGC AGCTTTGGAG
AAGGAAATGC CGCAAAATGT GCAACCGCGT AATGAAGTTT CTGCTGGTCA TGCTTACACT
TGTCTCAGTG ACTCTATGCA ACCTGAACCC TTTTTCCAGA AGGTGGCACA GCCACAAGCC
ATACCAGCAG CCTCACCAGT TCTGTCAGCT CAGTCTTCAC TGGAAGAGCC TTTTCCACCT
CGTTCACGTT CTGTATCACC AGCAAAAAGT AAAGGCAAAA GTTCATTATT GATTGGGCTC
TCTACTGGCC TGTTTGATGC AAACAATCCA AAGATGTTAA GAACATGTTC ACTCCCAGAT
CTTTCCAAGT TGTACAGAAC ACTAATTGAC GTTCCCATTG TAGCAGATGT ACAACATCAA
GACAATCTTG AAATAGAGGA TATGGAAGAT GAGCATGTCA AAGAAGGGCA TTCTGATTCT
GAAGACATTA TGTTTGGTGA GGCAGATACA GACTTGCGGG CTCTTCAGGC CTCGATGGAA
CAGTTACTTA GGGAGCAGCC TAGTGAGGAA TTTAGTGAAG AGGAGTTGTC TACCTTAAAG
GCAGATACTG CAGCACGCAT AACAAATGGT ACAGAGTTGG ATGATGAGGA TGACAACAAC
CCCAGCAGTG AAAGTGTACT TAATGAAGAA TGGCAATCAG ACAACAGTGA TGGGGATATT
GCCAGTGAAT GTGAAGCATA TGACAGTGTC TTCAGCCATT TGGAAGAATT GAGATACAAT
CTGGAGCGGG AAATAGGCTT TGATAAATTC ATTGAAGTTT ATGATAAAAT AAAGGCAATA
CATGAAGATG AAGATGAGAA TATTGATGTT TGTTCAACAA TAGTTCAGAA TATTCTGGGA
AATGAATATA AACATCTGTA TGCCAAGATT CTTCATTTAG TGATGGCAGA TGGAGCCTAT
CAGGAGGATA ATGATGAATA AThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OCh375622 Clone ID Related Accession (Same CDS sequence) XM_027829309.1 , XM_027829310.1 , XM_027829311.1 Accession Version XM_027829311.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3921bp)
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 1548086400000 Organism Chelonia mydas(Green sea turtle) Product serine/threonine-protein kinase Nek1 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006661173.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Chelonia mydas Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.1 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
3901ATGGAGAAAT ATATTAAAGT GCAGAAGATT GGCGAAGGAT CCTTTGGAAA AGCAATTCTG
GTCAAAGCTA AAGAAAATAG CAGACAGTAT GTTGTTAAGG AGATAAACAT CTCTAAGATG
TCCAATAAAG AGAGAGAAGA ATCAAGGAGA GAAGTTGCTG TATTGGCAAA CATGAAACAT
CCAAATATTG TCCTGTATCG GGAATCATTT GAAGAAAATG GCTCTCTCTA TATAGTGATG
GATTACTGTG AAGGAGGGGA CCTGTTTAGA CGAATAAATG CTCAGAAAGG CATCTTGTTC
TCAGAGGATC AGATAATGGA TTGGTTTGTA CAGATTTGTT TAGCACTAAA ACATGTACAT
GACAGAAAAA TTTTGCATCG AGATATAAAG TCACAGAATA TATTTTTAAC CAAAGATGGA
ACAATACAAC TGGGAGACTT TGGAATAGCT AGAGTTCTTA ACAGTACTGT AGAGCTGGCT
CGCACTTGCA TAGGAACACC ATACTATTTG TCACCTGAAA TCTGTCGGAA CAAGCCTTAC
AACAATAAAA GTGACATATG GGCTCTTGGT TGTGTTCTCT ATGAGATGTG CACACTTAAA
CATGCATTTG AAGCTGGTAA CATGAAAAAT CTGGTACTGA AGATAATCTC TGGATCTTTT
CCTCCTGTTT CTCTGCATTA TTCCTACGAT CTACGTAATC TGCTTTCACA GTTATTTAAA
AGGAATCCTA GGGATAGACC ATCAGTCAAC TCCATATTGG AGAAAATCTT TATAGCCAAA
CGGGTGGAAA AATTTCTTAC ACCACAGCTT ATTGCAGACG AATTCAGTCA CAAAGTGTTC
CACAAGTTTG ACGCCCATGT TGCACCAGTA AAACGACTAG CTCAAGGACA AATCTGTGCT
TCAGCTGTGC CAGCTCAGAA AATTACCAAA CCTGCTGCAA AATATGGAGT GCCTTTAATG
ATCAAGAAAT CTGGTGATGC ATCTAAAAAA TTTCATGAGA AGAAGCCATT AGCTAAATTT
AGACAGGCCC ATCCAACTCC AATGAAGAAA ATGAATCCAG GAGAAGAAAG GAGGAAAATG
TTTGAGGAAG CTGCAAAAAA GAGAAGATTT GAATTACTTG AGAAAGAAAA ACGACAAAGA
GACCAGAAGG CTGAGCAGAT GAGAAGACTG GAAAAGGAAA GGATGGAACG GATAAACAGA
GCCAGGGAAC AAGGCTGGAG AAATGTGCTT AGTTCAGGTG GAAGTGGTGA AGTTAAGGCA
CCCTTTTTTG GCGGTGGAGG AGGTGTTGGG CCTTCCCCTG TGCCTGCCAG AGGACAGTAT
GAACACTACC ATGCTATCTT TGACCAGATG CAACAGCAAA AGGAAAATAT TAAAGTAGGT
GAGGAGAGAG AAACCAGATG GAGAGCAGAA ATACGAAGTC GGGAAGCTGT TGAAAGAGGA
GTTCCACCTG GAGTACGTCC AGGATTTCCT AATGGGCCTG ATGGTCATCA CCATTTACCA
GATGCTGATG CAATTAGGAA AAAAATCAAA AGATTGAAGG AGGTGTCTAA ACAAGCCAAT
GCAAACAGGC AAAGAGGATG GGTAGCAGCA GAAAGAGCAA AACAAGTTGA AGAATTCTGG
CAACGAAAGA GGGAAGCTAT GCAAAACAAA GCTCGTGCTG AAGGACATAT GGGTACACTG
CAAAACCTGG CAGCTATCTA TGGAGGCAGG CCCATTTCTG CAAGAGGAAG GAAATCCAGA
AACAAGGAGG AAGAGGAATA CCTGGCAAGA TTAAGACAGA TCCGACTTCA AAACTTCAAT
GAACGCCAGC AGATTAAAGC TAAACTTCGT GGAGAAAAGA ATGAAGCTGA CGGTTCTGAT
GGACAAGAAG GAAGTGAAGA AGCAGAATTG AGACGCAAAA AAATTGAAGC ACTAAAGGCC
CAAGCAAACG CGCGAGCTGC AGTTCTGAAA GAGCAACTAG AGCGAAAGAG GAAGGAGGCA
TATGAAAGAG AGAAGAAAGC TTGGGAAGAA CATTTGACAG CAAAAGGGGT AAAGAATCCT
ATGGTGCCTT TTAATGTGTC AGCAGCTGGG GTTAATCCTG TCCCTGGGCA ACAAGAACCT
GGAGGACCTC CTGCCAAACT ACAACTTCCA TTGAAGCCCA GTACACCACT TATATCTATG
ACTTCAGCTT TGAAGGAAGT GGGTGTGGAT GAAAATACAA CTGCTATCCA GGAAACCACA
GAGGAAACGA AGAAGGCAGA TCTTGCTGTG CAAAATAAAA GAGAAATACT AAGAAGATTG
AATCAAAATC TTAAAACACA GGACGATGTA AAAGGAATAA AGGAGCCTAA AGACACCTGT
GAGGCAGCTA TGGCTGAAGA GAGTAAAGAA GAAGAATATC CACTTCTAGT AGATCGCAAG
AAATGGGAGG TGGCAGCAGC TGAGTTGGTG GTTCCTCTTG CACAGCTAAC TATGGAGGAA
TCATTGTCGG GGACAGAGAG ACAGACCGTG GGGGAGGTAA TTAAACTAGA TGTTGGTGAG
CCCCAGAGAA AAGTTTGGGG CAAAAGCCCT ACTGATTCAG TTTTGAAGAT ACTGGGGGAA
GCAGAGCTAC AGCTTCAAAC TGAATTATTG GAGGAAATAA TTATCACAAA TGATGTTCCT
GAAGAAGGTT CTCAGCCCTT AACCGTGAAA GAGAACAGTG AAGTAGAAAT TGCTTGTATT
GGAGAGAAAT CTTCATCTCC AGTTGTTGGT GTCATAGAAT CTGAAAGGAC AATACCAGAG
GAGTCACAAA CATTTGATGC CACCCAAGTG CTGTCCAGGC CTGTTGTGCT ACATGAGCTG
TATGATTTGG AAGCAGAAAT GTTGGAAGAA ACTGAAAAAA ATAAAAAGTG CAAAAGTGAC
CAACTTCTCA TCACTGTTCA TGATGTGTGG GTTAAAGAAA GGGAAACAAT AACGGAGCAT
GAGCCACTGG AAGATACTGC CTGTCAGAAA GATGGTGGTG GTGATGAAGC AGCTTTGGAG
AAGGAAATGC CGCAAAATGT GCAACCGCGT AATGAAGTTT CTGCTGGTCA TGCTTACACT
TGTCTCAGTG ACTCTATGCA ACCTGAACCC TTTTTCCAGA AGGTGGCACA GCCACAAGCC
ATACCAGCAG CCTCACCAGT TCTGTCAGCT CAGTCTTCAC TGGAAGAGCC TTTTCCACCT
CGTTCACGTT CTGTATCACC AGCAAAAAGT AAAGGCAAAA GTTCATTATT GATTGGGCTC
TCTACTGGCC TGTTTGATGC AAACAATCCA AAGATGTTAA GAACATGTTC ACTCCCAGAT
CTTTCCAAGT TGTACAGAAC ACTAATTGAC GTTCCCATTG TAGCAGATGT ACAACATCAA
GACAATCTTG AAATAGAGGA TATGGAAGAT GAGCATGTCA AAGAAGGGCA TTCTGATTCT
GAAGACATTA TGTTTGGTGA GGCAGATACA GACTTGCGGG CTCTTCAGGC CTCGATGGAA
CAGTTACTTA GGGAGCAGCC TAGTGAGGAA TTTAGTGAAG AGGAGTTGTC TACCTTAAAG
GCAGATACTG CAGCACGCAT AACAAATGGT ACAGAGTTGG ATGATGAGGA TGACAACAAC
CCCAGCAGTG AAAGTGTACT TAATGAAGAA TGGCAATCAG ACAACAGTGA TGGGGATATT
GCCAGTGAAT GTGAAGCATA TGACAGTGTC TTCAGCCATT TGGAAGAATT GAGATACAAT
CTGGAGCGGG AAATAGGCTT TGATAAATTC ATTGAAGTTT ATGATAAAAT AAAGGCAATA
CATGAAGATG AAGATGAGAA TATTGATGTT TGTTCAACAA TAGTTCAGAA TATTCTGGGA
AATGAATATA AACATCTGTA TGCCAAGATT CTTCATTTAG TGATGGCAGA TGGAGCCTAT
CAGGAGGATA ATGATGAATA AThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_027685112.1 CDS 46..3966 Translation
Target ORF information:
RefSeq Version XM_027829311.1 Organism Chelonia mydas(Green sea turtle) Definition Chelonia mydas NIMA related kinase 1 (NEK1), transcript variant X3, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_027829311.1
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
3901ATGGAGAAAT ATATTAAAGT GCAGAAGATT GGCGAAGGAT CCTTTGGAAA AGCAATTCTG
GTCAAAGCTA AAGAAAATAG CAGACAGTAT GTTGTTAAGG AGATAAACAT CTCTAAGATG
TCCAATAAAG AGAGAGAAGA ATCAAGGAGA GAAGTTGCTG TATTGGCAAA CATGAAACAT
CCAAATATTG TCCTGTATCG GGAATCATTT GAAGAAAATG GCTCTCTCTA TATAGTGATG
GATTACTGTG AAGGAGGGGA CCTGTTTAGA CGAATAAATG CTCAGAAAGG CATCTTGTTC
TCAGAGGATC AGATAATGGA TTGGTTTGTA CAGATTTGTT TAGCACTAAA ACATGTACAT
GACAGAAAAA TTTTGCATCG AGATATAAAG TCACAGAATA TATTTTTAAC CAAAGATGGA
ACAATACAAC TGGGAGACTT TGGAATAGCT AGAGTTCTTA ACAGTACTGT AGAGCTGGCT
CGCACTTGCA TAGGAACACC ATACTATTTG TCACCTGAAA TCTGTCGGAA CAAGCCTTAC
AACAATAAAA GTGACATATG GGCTCTTGGT TGTGTTCTCT ATGAGATGTG CACACTTAAA
CATGCATTTG AAGCTGGTAA CATGAAAAAT CTGGTACTGA AGATAATCTC TGGATCTTTT
CCTCCTGTTT CTCTGCATTA TTCCTACGAT CTACGTAATC TGCTTTCACA GTTATTTAAA
AGGAATCCTA GGGATAGACC ATCAGTCAAC TCCATATTGG AGAAAATCTT TATAGCCAAA
CGGGTGGAAA AATTTCTTAC ACCACAGCTT ATTGCAGACG AATTCAGTCA CAAAGTGTTC
CACAAGTTTG ACGCCCATGT TGCACCAGTA AAACGACTAG CTCAAGGACA AATCTGTGCT
TCAGCTGTGC CAGCTCAGAA AATTACCAAA CCTGCTGCAA AATATGGAGT GCCTTTAATG
ATCAAGAAAT CTGGTGATGC ATCTAAAAAA TTTCATGAGA AGAAGCCATT AGCTAAATTT
AGACAGGCCC ATCCAACTCC AATGAAGAAA ATGAATCCAG GAGAAGAAAG GAGGAAAATG
TTTGAGGAAG CTGCAAAAAA GAGAAGATTT GAATTACTTG AGAAAGAAAA ACGACAAAGA
GACCAGAAGG CTGAGCAGAT GAGAAGACTG GAAAAGGAAA GGATGGAACG GATAAACAGA
GCCAGGGAAC AAGGCTGGAG AAATGTGCTT AGTTCAGGTG GAAGTGGTGA AGTTAAGGCA
CCCTTTTTTG GCGGTGGAGG AGGTGTTGGG CCTTCCCCTG TGCCTGCCAG AGGACAGTAT
GAACACTACC ATGCTATCTT TGACCAGATG CAACAGCAAA AGGAAAATAT TAAAGTAGGT
GAGGAGAGAG AAACCAGATG GAGAGCAGAA ATACGAAGTC GGGAAGCTGT TGAAAGAGGA
GTTCCACCTG GAGTACGTCC AGGATTTCCT AATGGGCCTG ATGGTCATCA CCATTTACCA
GATGCTGATG CAATTAGGAA AAAAATCAAA AGATTGAAGG AGGTGTCTAA ACAAGCCAAT
GCAAACAGGC AAAGAGGATG GGTAGCAGCA GAAAGAGCAA AACAAGTTGA AGAATTCTGG
CAACGAAAGA GGGAAGCTAT GCAAAACAAA GCTCGTGCTG AAGGACATAT GGGTACACTG
CAAAACCTGG CAGCTATCTA TGGAGGCAGG CCCATTTCTG CAAGAGGAAG GAAATCCAGA
AACAAGGAGG AAGAGGAATA CCTGGCAAGA TTAAGACAGA TCCGACTTCA AAACTTCAAT
GAACGCCAGC AGATTAAAGC TAAACTTCGT GGAGAAAAGA ATGAAGCTGA CGGTTCTGAT
GGACAAGAAG GAAGTGAAGA AGCAGAATTG AGACGCAAAA AAATTGAAGC ACTAAAGGCC
CAAGCAAACG CGCGAGCTGC AGTTCTGAAA GAGCAACTAG AGCGAAAGAG GAAGGAGGCA
TATGAAAGAG AGAAGAAAGC TTGGGAAGAA CATTTGACAG CAAAAGGGGT AAAGAATCCT
ATGGTGCCTT TTAATGTGTC AGCAGCTGGG GTTAATCCTG TCCCTGGGCA ACAAGAACCT
GGAGGACCTC CTGCCAAACT ACAACTTCCA TTGAAGCCCA GTACACCACT TATATCTATG
ACTTCAGCTT TGAAGGAAGT GGGTGTGGAT GAAAATACAA CTGCTATCCA GGAAACCACA
GAGGAAACGA AGAAGGCAGA TCTTGCTGTG CAAAATAAAA GAGAAATACT AAGAAGATTG
AATCAAAATC TTAAAACACA GGACGATGTA AAAGGAATAA AGGAGCCTAA AGACACCTGT
GAGGCAGCTA TGGCTGAAGA GAGTAAAGAA GAAGAATATC CACTTCTAGT AGATCGCAAG
AAATGGGAGG TGGCAGCAGC TGAGTTGGTG GTTCCTCTTG CACAGCTAAC TATGGAGGAA
TCATTGTCGG GGACAGAGAG ACAGACCGTG GGGGAGGTAA TTAAACTAGA TGTTGGTGAG
CCCCAGAGAA AAGTTTGGGG CAAAAGCCCT ACTGATTCAG TTTTGAAGAT ACTGGGGGAA
GCAGAGCTAC AGCTTCAAAC TGAATTATTG GAGGAAATAA TTATCACAAA TGATGTTCCT
GAAGAAGGTT CTCAGCCCTT AACCGTGAAA GAGAACAGTG AAGTAGAAAT TGCTTGTATT
GGAGAGAAAT CTTCATCTCC AGTTGTTGGT GTCATAGAAT CTGAAAGGAC AATACCAGAG
GAGTCACAAA CATTTGATGC CACCCAAGTG CTGTCCAGGC CTGTTGTGCT ACATGAGCTG
TATGATTTGG AAGCAGAAAT GTTGGAAGAA ACTGAAAAAA ATAAAAAGTG CAAAAGTGAC
CAACTTCTCA TCACTGTTCA TGATGTGTGG GTTAAAGAAA GGGAAACAAT AACGGAGCAT
GAGCCACTGG AAGATACTGC CTGTCAGAAA GATGGTGGTG GTGATGAAGC AGCTTTGGAG
AAGGAAATGC CGCAAAATGT GCAACCGCGT AATGAAGTTT CTGCTGGTCA TGCTTACACT
TGTCTCAGTG ACTCTATGCA ACCTGAACCC TTTTTCCAGA AGGTGGCACA GCCACAAGCC
ATACCAGCAG CCTCACCAGT TCTGTCAGCT CAGTCTTCAC TGGAAGAGCC TTTTCCACCT
CGTTCACGTT CTGTATCACC AGCAAAAAGT AAAGGCAAAA GTTCATTATT GATTGGGCTC
TCTACTGGCC TGTTTGATGC AAACAATCCA AAGATGTTAA GAACATGTTC ACTCCCAGAT
CTTTCCAAGT TGTACAGAAC ACTAATTGAC GTTCCCATTG TAGCAGATGT ACAACATCAA
GACAATCTTG AAATAGAGGA TATGGAAGAT GAGCATGTCA AAGAAGGGCA TTCTGATTCT
GAAGACATTA TGTTTGGTGA GGCAGATACA GACTTGCGGG CTCTTCAGGC CTCGATGGAA
CAGTTACTTA GGGAGCAGCC TAGTGAGGAA TTTAGTGAAG AGGAGTTGTC TACCTTAAAG
GCAGATACTG CAGCACGCAT AACAAATGGT ACAGAGTTGG ATGATGAGGA TGACAACAAC
CCCAGCAGTG AAAGTGTACT TAATGAAGAA TGGCAATCAG ACAACAGTGA TGGGGATATT
GCCAGTGAAT GTGAAGCATA TGACAGTGTC TTCAGCCATT TGGAAGAATT GAGATACAAT
CTGGAGCGGG AAATAGGCTT TGATAAATTC ATTGAAGTTT ATGATAAAAT AAAGGCAATA
CATGAAGATG AAGATGAGAA TATTGATGTT TGTTCAACAA TAGTTCAGAA TATTCTGGGA
AATGAATATA AACATCTGTA TGCCAAGATT CTTCATTTAG TGATGGCAGA TGGAGCCTAT
CAGGAGGATA ATGATGAATA AThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OCh375623 Clone ID Related Accession (Same CDS sequence) XM_027829312.1 Accession Version XM_027829312.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3912bp)
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 1548086400000 Organism Chelonia mydas(Green sea turtle) Product serine/threonine-protein kinase Nek1 isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006661173.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Chelonia mydas Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.1 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
3901ATGGAGAAAT ATATTAAAGT GCAGAAGATT GGCGAAGGAT CCTTTGGAAA AGCAATTCTG
GTCAAAGCTA AAGAAAATAG CAGACAGTAT GTTGTTAAGG AGATAAACAT CTCTAAGATG
TCCAATAAAG AGAGAGAAGA ATCAAGGAGA GAAGTTGCTG TATTGGCAAA CATGAAACAT
CCAAATATTG TCCTGTATCG GGAATCATTT GAAGAAAATG GCTCTCTCTA TATAGTGATG
GATTACTGTG AAGGAGGGGA CCTGTTTAGA CGAATAAATG CTCAGAAAGG CATCTTGTTC
TCAGAGGATC AGATAATGGA TTGGTTTGTA CAGATTTGTT TAGCACTAAA ACATGTACAT
GACAGAAAAA TTTTGCATCG AGATATAAAG TCACAGAATA TATTTTTAAC CAAAGATGGA
ACAATACAAC TGGGAGACTT TGGAATAGCT AGAGTTCTTA ACAGTACTGT AGAGCTGGCT
CGCACTTGCA TAGGAACACC ATACTATTTG TCACCTGAAA TCTGTCGGAA CAAGCCTTAC
AACAATAAAA GTGACATATG GGCTCTTGGT TGTGTTCTCT ATGAGATGTG CACACTTAAA
CATGCATTTG AAGCTGGTAA CATGAAAAAT CTGGTACTGA AGATAATCTC TGGATCTTTT
CCTCCTGTTT CTCTGCATTA TTCCTACGAT CTACGTAATC TGCTTTCACA GTTATTTAAA
AGGAATCCTA GGGATAGACC ATCAGTCAAC TCCATATTGG AGAAAATCTT TATAGCCAAA
CGGGTGGAAA AATTTCTTAC ACCACAGCTT ATTGCAGACG AATTCAGTCA CAAAGTGTTC
CACAAGTTTG ACGCCCATGT TGCACCAGTA AAACGACTAG CTCAAGGACA AATCTGTGCT
TCAGCTGTGC CAGCTCAGAA AATTACCAAA CCTGCTGCAA AATATGGAGT GCCTTTAATG
ATCAAGAAAT CTGGTGATGC ATCTAAAAAA TTTCATGAGA AGAAGCCATT AGCTAAATTT
AGACAGGCCC ATCCAACTCC AATGAAGAAA ATGAATCCAG GAGAAGAAAG GAGGAAAATG
TTTGAGGAAG CTGCAAAAAA GAGAAGATTT GAATTACTTG AGAAAGAAAA ACGACAAAGA
GACCAGAAGG CTGAGCAGAT GAGAAGACTG GAAAAGGAAA GGATGGAACG GATAAACAGA
GCCAGGGAAC AAGGCTGGAG AAATGTGCTT AGTTCAGGTG GAAGTGGTGA AGTTAAGGCA
CCCTTTTTTG GCGGTGGAGG AGGTGTTGGG CCTTCCCCTG TGCCTGCCAG AGGACAGTAT
GAACACTACC ATGCTATCTT TGACCAGATG CAACAGCAAA AGGAAAATAT TAAAGTAGGT
GAGGAGAGAG AAACCAGATG GAGAGCAGAA ATACGAAGTC GGGAAGCTGT TGAAAGAGGA
GTTCCACCTG GAGTACGTCC AGGATTTCCT AATGGGCCTG ATGGTCATCA CCATTTACCA
GATGCTGATG CAATTAGGAA AAAAATCAAA AGATTGAAGG AGGTGTCTAA ACAAGCCAAT
GCAAACAGGC AAAGAGGATG GGTAGCAGCA GAAAGAGCAA AACAAGTTGA AGAATTCTGG
CAACGAAAGA GGGAAGCTAT GCAAAACAAA GCTCGTGCTG AAGGACATAT GGGTACACTG
CAAAACCTGG CAGCTATCTA TGGAGGCAGG CCCATTTCTG CAAGAGGAAG GAAATCCAGA
AACAAGGAGG AAGAGGAATA CCTGGCAAGA TTAAGACAGA TCCGACTTCA AAACTTCAAT
GAACGCCAGC AGATTAAAGC TAAACTTCGT GGAGAAAAGA ATGAAGCTGA CGGTTCTGAT
GGACAAGAAG GAAGTGAAGA AGCAGAATTG AGACGCAAAA AAATTGAAGC ACTAAAGGCC
CAAGCAAACG CGCGAGCTGC AGTTCTGAAA GAGCAACTAG AGCGAAAGAG GAAGGAGGCA
TATGAAAGAG AGAAGAAAGC TTGGGAAGAA CATTTGACAG CAAAAGGGGT AAAGAATCCT
ATGGTGCCTT TTAATGTGTC AGCAGCTGGG GTTAATCCTG TCCCTGGGCA ACAAGAACCT
GGAGGACCTC CTGCCAAACT ACAACTTCCA TTGAAGCCCA GTACACCACT TATATCTATG
ACTTCAGCTT TGAAGGAAGT GGGTGTGGAT GAAAATACAA CTGCTATCCA GGAAACCACA
GAGGAAACGA AGAAGGCAGA TCTTGCTGTG CAAAATAAAA GAGAAATACT AAGAAGATTG
AATCAAAATC TTAAAACACA GGACGATGTA AAAGGAATAA AGGAGCCTAA AGACACCTGT
GAGGCAGCTA TGGCTGAAGA GAGTAAAGAA GAAGAATATC CACTTCTAGT AGATCGCAAG
AAATGGGAGG TGGCAGCAGC TGAGTTGGTG GTTCCTCTTG CACAGCTAAC TATGGAGGAA
TCATTGTCGG GGACAGAGAG ACAGACCGTG GGGGAGGTAA TTAAACTAGA TGTTGGTGAG
CCCCAGAGAA AAGTTTGGGG CAAAAGCCCT ACTGATTCAG TTTTGAAGAT ACTGGGGGAA
GCAGAGCTAC AGCTTCAAAC TGAATTATTG GAGGAAATAA TTATCACAAA TGATGTTCCT
GAAGAAGGTT CTCAGCCCTT AACCGTGAAA GAGAACAGTG AAGTAGAAAT TGCTTGTATT
GGAGAGAAAT CTTCATCTCC AGTTGTTGGT GTCATAGAAT CTGAAAGGAC AATACCAGAG
GAGTCACAAA CATTTGATGC CACCCAAGTG CTGTCCAGGC CTGTTGTGCT ACATGAGCTG
TATGATTTGG AAGCAGAAAT GTTGGAAGAA ACTGAAAAAA ATAAAAAGTG CAAAAGTGAC
CAACTTCTCA TCACTGTTCA TGATGTGTGG GTTAAAGAAA GGGAAACAAT AACGGAGCAT
GAGCCACTGG AAGATACTGC CTGTCAGAAA GATGGTGGTG GTGATGAAGC AGCTTTGGAG
AAGGAAATGC CGCAAAATGT GCAACCGCGT AATGAAGTTT CTGCTGACAC TTGTCTCAGT
GACTCTATGC AACCTGAACC CTTTTTCCAG AAGGTGGCAC AGCCACAAGC CATACCAGCA
GCCTCACCAG TTCTGTCAGC TCAGTCTTCA CTGGAAGAGC CTTTTCCACC TCGTTCACGT
TCTGTATCAC CAGCAAAAAG TAAAGGCAAA AGTTCATTAT TGATTGGGCT CTCTACTGGC
CTGTTTGATG CAAACAATCC AAAGATGTTA AGAACATGTT CACTCCCAGA TCTTTCCAAG
TTGTACAGAA CACTAATTGA CGTTCCCATT GTAGCAGATG TACAACATCA AGACAATCTT
GAAATAGAGG ATATGGAAGA TGAGCATGTC AAAGAAGGGC ATTCTGATTC TGAAGACATT
ATGTTTGGTG AGGCAGATAC AGACTTGCGG GCTCTTCAGG CCTCGATGGA ACAGTTACTT
AGGGAGCAGC CTAGTGAGGA ATTTAGTGAA GAGGAGTTGT CTACCTTAAA GGCAGATACT
GCAGCACGCA TAACAAATGG TACAGAGTTG GATGATGAGG ATGACAACAA CCCCAGCAGT
GAAAGTGTAC TTAATGAAGA ATGGCAATCA GACAACAGTG ATGGGGATAT TGCCAGTGAA
TGTGAAGCAT ATGACAGTGT CTTCAGCCAT TTGGAAGAAT TGAGATACAA TCTGGAGCGG
GAAATAGGCT TTGATAAATT CATTGAAGTT TATGATAAAA TAAAGGCAAT ACATGAAGAT
GAAGATGAGA ATATTGATGT TTGTTCAACA ATAGTTCAGA ATATTCTGGG AAATGAATAT
AAACATCTGT ATGCCAAGAT TCTTCATTTA GTGATGGCAG ATGGAGCCTA TCAGGAGGAT
AATGATGAAT AAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_027685113.1 CDS 66..3977 Translation
Target ORF information:
RefSeq Version XM_027829312.1 Organism Chelonia mydas(Green sea turtle) Definition Chelonia mydas NIMA related kinase 1 (NEK1), transcript variant X4, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_027829312.1
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
3901ATGGAGAAAT ATATTAAAGT GCAGAAGATT GGCGAAGGAT CCTTTGGAAA AGCAATTCTG
GTCAAAGCTA AAGAAAATAG CAGACAGTAT GTTGTTAAGG AGATAAACAT CTCTAAGATG
TCCAATAAAG AGAGAGAAGA ATCAAGGAGA GAAGTTGCTG TATTGGCAAA CATGAAACAT
CCAAATATTG TCCTGTATCG GGAATCATTT GAAGAAAATG GCTCTCTCTA TATAGTGATG
GATTACTGTG AAGGAGGGGA CCTGTTTAGA CGAATAAATG CTCAGAAAGG CATCTTGTTC
TCAGAGGATC AGATAATGGA TTGGTTTGTA CAGATTTGTT TAGCACTAAA ACATGTACAT
GACAGAAAAA TTTTGCATCG AGATATAAAG TCACAGAATA TATTTTTAAC CAAAGATGGA
ACAATACAAC TGGGAGACTT TGGAATAGCT AGAGTTCTTA ACAGTACTGT AGAGCTGGCT
CGCACTTGCA TAGGAACACC ATACTATTTG TCACCTGAAA TCTGTCGGAA CAAGCCTTAC
AACAATAAAA GTGACATATG GGCTCTTGGT TGTGTTCTCT ATGAGATGTG CACACTTAAA
CATGCATTTG AAGCTGGTAA CATGAAAAAT CTGGTACTGA AGATAATCTC TGGATCTTTT
CCTCCTGTTT CTCTGCATTA TTCCTACGAT CTACGTAATC TGCTTTCACA GTTATTTAAA
AGGAATCCTA GGGATAGACC ATCAGTCAAC TCCATATTGG AGAAAATCTT TATAGCCAAA
CGGGTGGAAA AATTTCTTAC ACCACAGCTT ATTGCAGACG AATTCAGTCA CAAAGTGTTC
CACAAGTTTG ACGCCCATGT TGCACCAGTA AAACGACTAG CTCAAGGACA AATCTGTGCT
TCAGCTGTGC CAGCTCAGAA AATTACCAAA CCTGCTGCAA AATATGGAGT GCCTTTAATG
ATCAAGAAAT CTGGTGATGC ATCTAAAAAA TTTCATGAGA AGAAGCCATT AGCTAAATTT
AGACAGGCCC ATCCAACTCC AATGAAGAAA ATGAATCCAG GAGAAGAAAG GAGGAAAATG
TTTGAGGAAG CTGCAAAAAA GAGAAGATTT GAATTACTTG AGAAAGAAAA ACGACAAAGA
GACCAGAAGG CTGAGCAGAT GAGAAGACTG GAAAAGGAAA GGATGGAACG GATAAACAGA
GCCAGGGAAC AAGGCTGGAG AAATGTGCTT AGTTCAGGTG GAAGTGGTGA AGTTAAGGCA
CCCTTTTTTG GCGGTGGAGG AGGTGTTGGG CCTTCCCCTG TGCCTGCCAG AGGACAGTAT
GAACACTACC ATGCTATCTT TGACCAGATG CAACAGCAAA AGGAAAATAT TAAAGTAGGT
GAGGAGAGAG AAACCAGATG GAGAGCAGAA ATACGAAGTC GGGAAGCTGT TGAAAGAGGA
GTTCCACCTG GAGTACGTCC AGGATTTCCT AATGGGCCTG ATGGTCATCA CCATTTACCA
GATGCTGATG CAATTAGGAA AAAAATCAAA AGATTGAAGG AGGTGTCTAA ACAAGCCAAT
GCAAACAGGC AAAGAGGATG GGTAGCAGCA GAAAGAGCAA AACAAGTTGA AGAATTCTGG
CAACGAAAGA GGGAAGCTAT GCAAAACAAA GCTCGTGCTG AAGGACATAT GGGTACACTG
CAAAACCTGG CAGCTATCTA TGGAGGCAGG CCCATTTCTG CAAGAGGAAG GAAATCCAGA
AACAAGGAGG AAGAGGAATA CCTGGCAAGA TTAAGACAGA TCCGACTTCA AAACTTCAAT
GAACGCCAGC AGATTAAAGC TAAACTTCGT GGAGAAAAGA ATGAAGCTGA CGGTTCTGAT
GGACAAGAAG GAAGTGAAGA AGCAGAATTG AGACGCAAAA AAATTGAAGC ACTAAAGGCC
CAAGCAAACG CGCGAGCTGC AGTTCTGAAA GAGCAACTAG AGCGAAAGAG GAAGGAGGCA
TATGAAAGAG AGAAGAAAGC TTGGGAAGAA CATTTGACAG CAAAAGGGGT AAAGAATCCT
ATGGTGCCTT TTAATGTGTC AGCAGCTGGG GTTAATCCTG TCCCTGGGCA ACAAGAACCT
GGAGGACCTC CTGCCAAACT ACAACTTCCA TTGAAGCCCA GTACACCACT TATATCTATG
ACTTCAGCTT TGAAGGAAGT GGGTGTGGAT GAAAATACAA CTGCTATCCA GGAAACCACA
GAGGAAACGA AGAAGGCAGA TCTTGCTGTG CAAAATAAAA GAGAAATACT AAGAAGATTG
AATCAAAATC TTAAAACACA GGACGATGTA AAAGGAATAA AGGAGCCTAA AGACACCTGT
GAGGCAGCTA TGGCTGAAGA GAGTAAAGAA GAAGAATATC CACTTCTAGT AGATCGCAAG
AAATGGGAGG TGGCAGCAGC TGAGTTGGTG GTTCCTCTTG CACAGCTAAC TATGGAGGAA
TCATTGTCGG GGACAGAGAG ACAGACCGTG GGGGAGGTAA TTAAACTAGA TGTTGGTGAG
CCCCAGAGAA AAGTTTGGGG CAAAAGCCCT ACTGATTCAG TTTTGAAGAT ACTGGGGGAA
GCAGAGCTAC AGCTTCAAAC TGAATTATTG GAGGAAATAA TTATCACAAA TGATGTTCCT
GAAGAAGGTT CTCAGCCCTT AACCGTGAAA GAGAACAGTG AAGTAGAAAT TGCTTGTATT
GGAGAGAAAT CTTCATCTCC AGTTGTTGGT GTCATAGAAT CTGAAAGGAC AATACCAGAG
GAGTCACAAA CATTTGATGC CACCCAAGTG CTGTCCAGGC CTGTTGTGCT ACATGAGCTG
TATGATTTGG AAGCAGAAAT GTTGGAAGAA ACTGAAAAAA ATAAAAAGTG CAAAAGTGAC
CAACTTCTCA TCACTGTTCA TGATGTGTGG GTTAAAGAAA GGGAAACAAT AACGGAGCAT
GAGCCACTGG AAGATACTGC CTGTCAGAAA GATGGTGGTG GTGATGAAGC AGCTTTGGAG
AAGGAAATGC CGCAAAATGT GCAACCGCGT AATGAAGTTT CTGCTGACAC TTGTCTCAGT
GACTCTATGC AACCTGAACC CTTTTTCCAG AAGGTGGCAC AGCCACAAGC CATACCAGCA
GCCTCACCAG TTCTGTCAGC TCAGTCTTCA CTGGAAGAGC CTTTTCCACC TCGTTCACGT
TCTGTATCAC CAGCAAAAAG TAAAGGCAAA AGTTCATTAT TGATTGGGCT CTCTACTGGC
CTGTTTGATG CAAACAATCC AAAGATGTTA AGAACATGTT CACTCCCAGA TCTTTCCAAG
TTGTACAGAA CACTAATTGA CGTTCCCATT GTAGCAGATG TACAACATCA AGACAATCTT
GAAATAGAGG ATATGGAAGA TGAGCATGTC AAAGAAGGGC ATTCTGATTC TGAAGACATT
ATGTTTGGTG AGGCAGATAC AGACTTGCGG GCTCTTCAGG CCTCGATGGA ACAGTTACTT
AGGGAGCAGC CTAGTGAGGA ATTTAGTGAA GAGGAGTTGT CTACCTTAAA GGCAGATACT
GCAGCACGCA TAACAAATGG TACAGAGTTG GATGATGAGG ATGACAACAA CCCCAGCAGT
GAAAGTGTAC TTAATGAAGA ATGGCAATCA GACAACAGTG ATGGGGATAT TGCCAGTGAA
TGTGAAGCAT ATGACAGTGT CTTCAGCCAT TTGGAAGAAT TGAGATACAA TCTGGAGCGG
GAAATAGGCT TTGATAAATT CATTGAAGTT TATGATAAAA TAAAGGCAAT ACATGAAGAT
GAAGATGAGA ATATTGATGT TTGTTCAACA ATAGTTCAGA ATATTCTGGG AAATGAATAT
AAACATCTGT ATGCCAAGAT TCTTCATTTA GTGATGGCAG ATGGAGCCTA TCAGGAGGAT
AATGATGAAT AAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OCh375624 Clone ID Related Accession (Same CDS sequence) XM_027829313.1 Accession Version XM_027829313.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3837bp)
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 1548086400000 Organism Chelonia mydas(Green sea turtle) Product serine/threonine-protein kinase Nek1 isoform X3 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006661173.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Chelonia mydas Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.1 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
3781ATGGAGAAAT ATATTAAAGT GCAGAAGATT GGCGAAGGAT CCTTTGGAAA AGCAATTCTG
GTCAAAGCTA AAGAAAATAG CAGACAGTAT GTTGTTAAGG AGATAAACAT CTCTAAGATG
TCCAATAAAG AGAGAGAAGA ATCAAGGAGA GAAGTTGCTG TATTGGCAAA CATGAAACAT
CCAAATATTG TCCTGTATCG GGAATCATTT GAAGAAAATG GCTCTCTCTA TATAGTGATG
GATTACTGTG AAGGAGGGGA CCTGTTTAGA CGAATAAATG CTCAGAAAGG CATCTTGTTC
TCAGAGGATC AGATAATGGA TTGGTTTGTA CAGATTTGTT TAGCACTAAA ACATGTACAT
GACAGAAAAA TTTTGCATCG AGATATAAAG TCACAGAATA TATTTTTAAC CAAAGATGGA
ACAATACAAC TGGGAGACTT TGGAATAGCT AGAGTTCTTA ACAGTACTGT AGAGCTGGCT
CGCACTTGCA TAGGAACACC ATACTATTTG TCACCTGAAA TCTGTCGGAA CAAGCCTTAC
AACAATAAAA GTGACATATG GGCTCTTGGT TGTGTTCTCT ATGAGATGTG CACACTTAAA
CATGCATTTG AAGCTGGTAA CATGAAAAAT CTGGTACTGA AGATAATCTC TGGATCTTTT
CCTCCTGTTT CTCTGCATTA TTCCTACGAT CTACGTAATC TGCTTTCACA GTTATTTAAA
AGGAATCCTA GGGATAGACC ATCAGTCAAC TCCATATTGG AGAAAATCTT TATAGCCAAA
CGGGTGGAAA AATTTCTTAC ACCACAGCTT ATTGCAGACG AATTCAGTCA CAAAGTGTTC
CACAAGTTTG ACGCCCATGT TGCACCAGTA AAACGACTAG CTCAAGGACA AATCTGTGCT
TCAGCTGTGC CAGCTCAGAA AATTACCAAA CCTGCTGCAA AATATGGAGT GCCTTTAATG
ATCAAGAAAT CTGGTGATGC ATCTAAAAAA TTTCATGAGA AGAAGCCATT AGCTAAATTT
AGACAGGCCC ATCCAACTCC AATGAAGAAA ATGAATCCAG GAGAAGAAAG GAGGAAAATG
TTTGAGGAAG CTGCAAAAAA GAGAAGATTT GAATTACTTG AGAAAGAAAA ACGACAAAGA
GACCAGAAGG CTGAGCAGAT GAGAAGACTG GAAAAGGAAA GGATGGAACG GATAAACAGA
GCCAGGGAAC AAGGCTGGAG AAATGTGCTT AGTTCAGGTG GAAGTGGTGA AGTTAAGGCA
CCCTTTTTTG GCGGTGGAGG AGGTGTTGGG CCTTCCCCTG TGCCTGCCAG AGGACAGTAT
GAACACTACC ATGCTATCTT TGACCAGATG CAACAGCAAA AGGAAAATAT TAAAGTAGGT
GAGGAGAGAG AAACCAGATG GAGAGCAGAA ATACGAAGTC GGGAAGCTGT TGAAAGAGGA
GTTCCACCTG GAGTACGTCC AGGATTTCCT AATGGGCCTG ATGGTCATCA CCATTTACCA
GATGCTGATG CAATTAGGAA AAAAATCAAA AGATTGAAGG AGGTGTCTAA ACAAGCCAAT
GCAAACAGGC AAAGAGGATG GGTAGCAGCA GAAAGAGCAA AACAAGTTGA AGAATTCTGG
CAACGAAAGA GGGAAGCTAT GCAAAACAAA GCTCGTGCTG AAGGACATAT GGAATACCTG
GCAAGATTAA GACAGATCCG ACTTCAAAAC TTCAATGAAC GCCAGCAGAT TAAAGCTAAA
CTTCGTGGAG AAAAGAATGA AGCTGACGGT TCTGATGGAC AAGAAGGAAG TGAAGAAGCA
GAATTGAGAC GCAAAAAAAT TGAAGCACTA AAGGCCCAAG CAAACGCGCG AGCTGCAGTT
CTGAAAGAGC AACTAGAGCG AAAGAGGAAG GAGGCATATG AAAGAGAGAA GAAAGCTTGG
GAAGAACATT TGACAGCAAA AGGGGTAAAG AATCCTATGG TGCCTTTTAA TGTGTCAGCA
GCTGGGGTTA ATCCTGTCCC TGGGCAACAA GAACCTGGAG GACCTCCTGC CAAACTACAA
CTTCCATTGA AGCCCAGTAC ACCACTTATA TCTATGACTT CAGCTTTGAA GGAAGTGGGT
GTGGATGAAA ATACAACTGC TATCCAGGAA ACCACAGAGG AAACGAAGAA GGCAGATCTT
GCTGTGCAAA ATAAAAGAGA AATACTAAGA AGATTGAATC AAAATCTTAA AACACAGGAC
GATGTAAAAG GAATAAAGGA GCCTAAAGAC ACCTGTGAGG CAGCTATGGC TGAAGAGAGT
AAAGAAGAAG AATATCCACT TCTAGTAGAT CGCAAGAAAT GGGAGGTGGC AGCAGCTGAG
TTGGTGGTTC CTCTTGCACA GCTAACTATG GAGGAATCAT TGTCGGGGAC AGAGAGACAG
ACCGTGGGGG AGGTAATTAA ACTAGATGTT GGTGAGCCCC AGAGAAAAGT TTGGGGCAAA
AGCCCTACTG ATTCAGTTTT GAAGATACTG GGGGAAGCAG AGCTACAGCT TCAAACTGAA
TTATTGGAGG AAATAATTAT CACAAATGAT GTTCCTGAAG AAGGTTCTCA GCCCTTAACC
GTGAAAGAGA ACAGTGAAGT AGAAATTGCT TGTATTGGAG AGAAATCTTC ATCTCCAGTT
GTTGGTGTCA TAGAATCTGA AAGGACAATA CCAGAGGAGT CACAAACATT TGATGCCACC
CAAGTGCTGT CCAGGCCTGT TGTGCTACAT GAGCTGTATG ATTTGGAAGC AGAAATGTTG
GAAGAAACTG AAAAAAATAA AAAGTGCAAA AGTGACCAAC TTCTCATCAC TGTTCATGAT
GTGTGGGTTA AAGAAAGGGA AACAATAACG GAGCATGAGC CACTGGAAGA TACTGCCTGT
CAGAAAGATG GTGGTGGTGA TGAAGCAGCT TTGGAGAAGG AAATGCCGCA AAATGTGCAA
CCGCGTAATG AAGTTTCTGC TGGTCATGCT TACACTTGTC TCAGTGACTC TATGCAACCT
GAACCCTTTT TCCAGAAGGT GGCACAGCCA CAAGCCATAC CAGCAGCCTC ACCAGTTCTG
TCAGCTCAGT CTTCACTGGA AGAGCCTTTT CCACCTCGTT CACGTTCTGT ATCACCAGCA
AAAAGTAAAG GCAAAAGTTC ATTATTGATT GGGCTCTCTA CTGGCCTGTT TGATGCAAAC
AATCCAAAGA TGTTAAGAAC ATGTTCACTC CCAGATCTTT CCAAGTTGTA CAGAACACTA
ATTGACGTTC CCATTGTAGC AGATGTACAA CATCAAGACA ATCTTGAAAT AGAGGATATG
GAAGATGAGC ATGTCAAAGA AGGGCATTCT GATTCTGAAG ACATTATGTT TGGTGAGGCA
GATACAGACT TGCGGGCTCT TCAGGCCTCG ATGGAACAGT TACTTAGGGA GCAGCCTAGT
GAGGAATTTA GTGAAGAGGA GTTGTCTACC TTAAAGGCAG ATACTGCAGC ACGCATAACA
AATGGTACAG AGTTGGATGA TGAGGATGAC AACAACCCCA GCAGTGAAAG TGTACTTAAT
GAAGAATGGC AATCAGACAA CAGTGATGGG GATATTGCCA GTGAATGTGA AGCATATGAC
AGTGTCTTCA GCCATTTGGA AGAATTGAGA TACAATCTGG AGCGGGAAAT AGGCTTTGAT
AAATTCATTG AAGTTTATGA TAAAATAAAG GCAATACATG AAGATGAAGA TGAGAATATT
GATGTTTGTT CAACAATAGT TCAGAATATT CTGGGAAATG AATATAAACA TCTGTATGCC
AAGATTCTTC ATTTAGTGAT GGCAGATGGA GCCTATCAGG AGGATAATGA TGAATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_027685114.1 CDS 104..3940 Translation
Target ORF information:
RefSeq Version XM_027829313.1 Organism Chelonia mydas(Green sea turtle) Definition Chelonia mydas NIMA related kinase 1 (NEK1), transcript variant X5, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_027829313.1
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
3781ATGGAGAAAT ATATTAAAGT GCAGAAGATT GGCGAAGGAT CCTTTGGAAA AGCAATTCTG
GTCAAAGCTA AAGAAAATAG CAGACAGTAT GTTGTTAAGG AGATAAACAT CTCTAAGATG
TCCAATAAAG AGAGAGAAGA ATCAAGGAGA GAAGTTGCTG TATTGGCAAA CATGAAACAT
CCAAATATTG TCCTGTATCG GGAATCATTT GAAGAAAATG GCTCTCTCTA TATAGTGATG
GATTACTGTG AAGGAGGGGA CCTGTTTAGA CGAATAAATG CTCAGAAAGG CATCTTGTTC
TCAGAGGATC AGATAATGGA TTGGTTTGTA CAGATTTGTT TAGCACTAAA ACATGTACAT
GACAGAAAAA TTTTGCATCG AGATATAAAG TCACAGAATA TATTTTTAAC CAAAGATGGA
ACAATACAAC TGGGAGACTT TGGAATAGCT AGAGTTCTTA ACAGTACTGT AGAGCTGGCT
CGCACTTGCA TAGGAACACC ATACTATTTG TCACCTGAAA TCTGTCGGAA CAAGCCTTAC
AACAATAAAA GTGACATATG GGCTCTTGGT TGTGTTCTCT ATGAGATGTG CACACTTAAA
CATGCATTTG AAGCTGGTAA CATGAAAAAT CTGGTACTGA AGATAATCTC TGGATCTTTT
CCTCCTGTTT CTCTGCATTA TTCCTACGAT CTACGTAATC TGCTTTCACA GTTATTTAAA
AGGAATCCTA GGGATAGACC ATCAGTCAAC TCCATATTGG AGAAAATCTT TATAGCCAAA
CGGGTGGAAA AATTTCTTAC ACCACAGCTT ATTGCAGACG AATTCAGTCA CAAAGTGTTC
CACAAGTTTG ACGCCCATGT TGCACCAGTA AAACGACTAG CTCAAGGACA AATCTGTGCT
TCAGCTGTGC CAGCTCAGAA AATTACCAAA CCTGCTGCAA AATATGGAGT GCCTTTAATG
ATCAAGAAAT CTGGTGATGC ATCTAAAAAA TTTCATGAGA AGAAGCCATT AGCTAAATTT
AGACAGGCCC ATCCAACTCC AATGAAGAAA ATGAATCCAG GAGAAGAAAG GAGGAAAATG
TTTGAGGAAG CTGCAAAAAA GAGAAGATTT GAATTACTTG AGAAAGAAAA ACGACAAAGA
GACCAGAAGG CTGAGCAGAT GAGAAGACTG GAAAAGGAAA GGATGGAACG GATAAACAGA
GCCAGGGAAC AAGGCTGGAG AAATGTGCTT AGTTCAGGTG GAAGTGGTGA AGTTAAGGCA
CCCTTTTTTG GCGGTGGAGG AGGTGTTGGG CCTTCCCCTG TGCCTGCCAG AGGACAGTAT
GAACACTACC ATGCTATCTT TGACCAGATG CAACAGCAAA AGGAAAATAT TAAAGTAGGT
GAGGAGAGAG AAACCAGATG GAGAGCAGAA ATACGAAGTC GGGAAGCTGT TGAAAGAGGA
GTTCCACCTG GAGTACGTCC AGGATTTCCT AATGGGCCTG ATGGTCATCA CCATTTACCA
GATGCTGATG CAATTAGGAA AAAAATCAAA AGATTGAAGG AGGTGTCTAA ACAAGCCAAT
GCAAACAGGC AAAGAGGATG GGTAGCAGCA GAAAGAGCAA AACAAGTTGA AGAATTCTGG
CAACGAAAGA GGGAAGCTAT GCAAAACAAA GCTCGTGCTG AAGGACATAT GGAATACCTG
GCAAGATTAA GACAGATCCG ACTTCAAAAC TTCAATGAAC GCCAGCAGAT TAAAGCTAAA
CTTCGTGGAG AAAAGAATGA AGCTGACGGT TCTGATGGAC AAGAAGGAAG TGAAGAAGCA
GAATTGAGAC GCAAAAAAAT TGAAGCACTA AAGGCCCAAG CAAACGCGCG AGCTGCAGTT
CTGAAAGAGC AACTAGAGCG AAAGAGGAAG GAGGCATATG AAAGAGAGAA GAAAGCTTGG
GAAGAACATT TGACAGCAAA AGGGGTAAAG AATCCTATGG TGCCTTTTAA TGTGTCAGCA
GCTGGGGTTA ATCCTGTCCC TGGGCAACAA GAACCTGGAG GACCTCCTGC CAAACTACAA
CTTCCATTGA AGCCCAGTAC ACCACTTATA TCTATGACTT CAGCTTTGAA GGAAGTGGGT
GTGGATGAAA ATACAACTGC TATCCAGGAA ACCACAGAGG AAACGAAGAA GGCAGATCTT
GCTGTGCAAA ATAAAAGAGA AATACTAAGA AGATTGAATC AAAATCTTAA AACACAGGAC
GATGTAAAAG GAATAAAGGA GCCTAAAGAC ACCTGTGAGG CAGCTATGGC TGAAGAGAGT
AAAGAAGAAG AATATCCACT TCTAGTAGAT CGCAAGAAAT GGGAGGTGGC AGCAGCTGAG
TTGGTGGTTC CTCTTGCACA GCTAACTATG GAGGAATCAT TGTCGGGGAC AGAGAGACAG
ACCGTGGGGG AGGTAATTAA ACTAGATGTT GGTGAGCCCC AGAGAAAAGT TTGGGGCAAA
AGCCCTACTG ATTCAGTTTT GAAGATACTG GGGGAAGCAG AGCTACAGCT TCAAACTGAA
TTATTGGAGG AAATAATTAT CACAAATGAT GTTCCTGAAG AAGGTTCTCA GCCCTTAACC
GTGAAAGAGA ACAGTGAAGT AGAAATTGCT TGTATTGGAG AGAAATCTTC ATCTCCAGTT
GTTGGTGTCA TAGAATCTGA AAGGACAATA CCAGAGGAGT CACAAACATT TGATGCCACC
CAAGTGCTGT CCAGGCCTGT TGTGCTACAT GAGCTGTATG ATTTGGAAGC AGAAATGTTG
GAAGAAACTG AAAAAAATAA AAAGTGCAAA AGTGACCAAC TTCTCATCAC TGTTCATGAT
GTGTGGGTTA AAGAAAGGGA AACAATAACG GAGCATGAGC CACTGGAAGA TACTGCCTGT
CAGAAAGATG GTGGTGGTGA TGAAGCAGCT TTGGAGAAGG AAATGCCGCA AAATGTGCAA
CCGCGTAATG AAGTTTCTGC TGGTCATGCT TACACTTGTC TCAGTGACTC TATGCAACCT
GAACCCTTTT TCCAGAAGGT GGCACAGCCA CAAGCCATAC CAGCAGCCTC ACCAGTTCTG
TCAGCTCAGT CTTCACTGGA AGAGCCTTTT CCACCTCGTT CACGTTCTGT ATCACCAGCA
AAAAGTAAAG GCAAAAGTTC ATTATTGATT GGGCTCTCTA CTGGCCTGTT TGATGCAAAC
AATCCAAAGA TGTTAAGAAC ATGTTCACTC CCAGATCTTT CCAAGTTGTA CAGAACACTA
ATTGACGTTC CCATTGTAGC AGATGTACAA CATCAAGACA ATCTTGAAAT AGAGGATATG
GAAGATGAGC ATGTCAAAGA AGGGCATTCT GATTCTGAAG ACATTATGTT TGGTGAGGCA
GATACAGACT TGCGGGCTCT TCAGGCCTCG ATGGAACAGT TACTTAGGGA GCAGCCTAGT
GAGGAATTTA GTGAAGAGGA GTTGTCTACC TTAAAGGCAG ATACTGCAGC ACGCATAACA
AATGGTACAG AGTTGGATGA TGAGGATGAC AACAACCCCA GCAGTGAAAG TGTACTTAAT
GAAGAATGGC AATCAGACAA CAGTGATGGG GATATTGCCA GTGAATGTGA AGCATATGAC
AGTGTCTTCA GCCATTTGGA AGAATTGAGA TACAATCTGG AGCGGGAAAT AGGCTTTGAT
AAATTCATTG AAGTTTATGA TAAAATAAAG GCAATACATG AAGATGAAGA TGAGAATATT
GATGTTTGTT CAACAATAGT TCAGAATATT CTGGGAAATG AATATAAACA TCTGTATGCC
AAGATTCTTC ATTTAGTGAT GGCAGATGGA GCCTATCAGG AGGATAATGA TGAATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OCh375625 Clone ID Related Accession (Same CDS sequence) XM_027829314.1 Accession Version XM_027829314.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3828bp)
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 1548086400000 Organism Chelonia mydas(Green sea turtle) Product serine/threonine-protein kinase Nek1 isoform X4 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006661173.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Chelonia mydas Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.1 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
3781ATGGAGAAAT ATATTAAAGT GCAGAAGATT GGCGAAGGAT CCTTTGGAAA AGCAATTCTG
GTCAAAGCTA AAGAAAATAG CAGACAGTAT GTTGTTAAGG AGATAAACAT CTCTAAGATG
TCCAATAAAG AGAGAGAAGA ATCAAGGAGA GAAGTTGCTG TATTGGCAAA CATGAAACAT
CCAAATATTG TCCTGTATCG GGAATCATTT GAAGAAAATG GCTCTCTCTA TATAGTGATG
GATTACTGTG AAGGAGGGGA CCTGTTTAGA CGAATAAATG CTCAGAAAGG CATCTTGTTC
TCAGAGGATC AGATAATGGA TTGGTTTGTA CAGATTTGTT TAGCACTAAA ACATGTACAT
GACAGAAAAA TTTTGCATCG AGATATAAAG TCACAGAATA TATTTTTAAC CAAAGATGGA
ACAATACAAC TGGGAGACTT TGGAATAGCT AGAGTTCTTA ACAGTACTGT AGAGCTGGCT
CGCACTTGCA TAGGAACACC ATACTATTTG TCACCTGAAA TCTGTCGGAA CAAGCCTTAC
AACAATAAAA GTGACATATG GGCTCTTGGT TGTGTTCTCT ATGAGATGTG CACACTTAAA
CATGCATTTG AAGCTGGTAA CATGAAAAAT CTGGTACTGA AGATAATCTC TGGATCTTTT
CCTCCTGTTT CTCTGCATTA TTCCTACGAT CTACGTAATC TGCTTTCACA GTTATTTAAA
AGGAATCCTA GGGATAGACC ATCAGTCAAC TCCATATTGG AGAAAATCTT TATAGCCAAA
CGGGTGGAAA AATTTCTTAC ACCACAGCTT ATTGCAGACG AATTCAGTCA CAAAGTGTTC
CACAAGTTTG ACGCCCATGT TGCACCAGTA AAACGACTAG CTCAAGGACA AATCTGTGCT
TCAGCTGTGC CAGCTCAGAA AATTACCAAA CCTGCTGCAA AATATGGAGT GCCTTTAATG
ATCAAGAAAT CTGGTGATGC ATCTAAAAAA TTTCATGAGA AGAAGCCATT AGCTAAATTT
AGACAGGCCC ATCCAACTCC AATGAAGAAA ATGAATCCAG GAGAAGAAAG GAGGAAAATG
TTTGAGGAAG CTGCAAAAAA GAGAAGATTT GAATTACTTG AGAAAGAAAA ACGACAAAGA
GACCAGAAGG CTGAGCAGAT GAGAAGACTG GAAAAGGAAA GGATGGAACG GATAAACAGA
GCCAGGGAAC AAGGCTGGAG AAATGTGCTT AGTTCAGGTG GAAGTGGTGA AGTTAAGGCA
CCCTTTTTTG GCGGTGGAGG AGGTGTTGGG CCTTCCCCTG TGCCTGCCAG AGGACAGTAT
GAACACTACC ATGCTATCTT TGACCAGATG CAACAGCAAA AGGAAAATAT TAAAGTAGGT
GAGGAGAGAG AAACCAGATG GAGAGCAGAA ATACGAAGTC GGGAAGCTGT TGAAAGAGGA
GTTCCACCTG GAGTACGTCC AGGATTTCCT AATGGGCCTG ATGGTCATCA CCATTTACCA
GATGCTGATG CAATTAGGAA AAAAATCAAA AGATTGAAGG AGGTGTCTAA ACAAGCCAAT
GCAAACAGGC AAAGAGGATG GGTAGCAGCA GAAAGAGCAA AACAAGTTGA AGAATTCTGG
CAACGAAAGA GGGAAGCTAT GCAAAACAAA GCTCGTGCTG AAGGACATAT GGAATACCTG
GCAAGATTAA GACAGATCCG ACTTCAAAAC TTCAATGAAC GCCAGCAGAT TAAAGCTAAA
CTTCGTGGAG AAAAGAATGA AGCTGACGGT TCTGATGGAC AAGAAGGAAG TGAAGAAGCA
GAATTGAGAC GCAAAAAAAT TGAAGCACTA AAGGCCCAAG CAAACGCGCG AGCTGCAGTT
CTGAAAGAGC AACTAGAGCG AAAGAGGAAG GAGGCATATG AAAGAGAGAA GAAAGCTTGG
GAAGAACATT TGACAGCAAA AGGGGTAAAG AATCCTATGG TGCCTTTTAA TGTGTCAGCA
GCTGGGGTTA ATCCTGTCCC TGGGCAACAA GAACCTGGAG GACCTCCTGC CAAACTACAA
CTTCCATTGA AGCCCAGTAC ACCACTTATA TCTATGACTT CAGCTTTGAA GGAAGTGGGT
GTGGATGAAA ATACAACTGC TATCCAGGAA ACCACAGAGG AAACGAAGAA GGCAGATCTT
GCTGTGCAAA ATAAAAGAGA AATACTAAGA AGATTGAATC AAAATCTTAA AACACAGGAC
GATGTAAAAG GAATAAAGGA GCCTAAAGAC ACCTGTGAGG CAGCTATGGC TGAAGAGAGT
AAAGAAGAAG AATATCCACT TCTAGTAGAT CGCAAGAAAT GGGAGGTGGC AGCAGCTGAG
TTGGTGGTTC CTCTTGCACA GCTAACTATG GAGGAATCAT TGTCGGGGAC AGAGAGACAG
ACCGTGGGGG AGGTAATTAA ACTAGATGTT GGTGAGCCCC AGAGAAAAGT TTGGGGCAAA
AGCCCTACTG ATTCAGTTTT GAAGATACTG GGGGAAGCAG AGCTACAGCT TCAAACTGAA
TTATTGGAGG AAATAATTAT CACAAATGAT GTTCCTGAAG AAGGTTCTCA GCCCTTAACC
GTGAAAGAGA ACAGTGAAGT AGAAATTGCT TGTATTGGAG AGAAATCTTC ATCTCCAGTT
GTTGGTGTCA TAGAATCTGA AAGGACAATA CCAGAGGAGT CACAAACATT TGATGCCACC
CAAGTGCTGT CCAGGCCTGT TGTGCTACAT GAGCTGTATG ATTTGGAAGC AGAAATGTTG
GAAGAAACTG AAAAAAATAA AAAGTGCAAA AGTGACCAAC TTCTCATCAC TGTTCATGAT
GTGTGGGTTA AAGAAAGGGA AACAATAACG GAGCATGAGC CACTGGAAGA TACTGCCTGT
CAGAAAGATG GTGGTGGTGA TGAAGCAGCT TTGGAGAAGG AAATGCCGCA AAATGTGCAA
CCGCGTAATG AAGTTTCTGC TGACACTTGT CTCAGTGACT CTATGCAACC TGAACCCTTT
TTCCAGAAGG TGGCACAGCC ACAAGCCATA CCAGCAGCCT CACCAGTTCT GTCAGCTCAG
TCTTCACTGG AAGAGCCTTT TCCACCTCGT TCACGTTCTG TATCACCAGC AAAAAGTAAA
GGCAAAAGTT CATTATTGAT TGGGCTCTCT ACTGGCCTGT TTGATGCAAA CAATCCAAAG
ATGTTAAGAA CATGTTCACT CCCAGATCTT TCCAAGTTGT ACAGAACACT AATTGACGTT
CCCATTGTAG CAGATGTACA ACATCAAGAC AATCTTGAAA TAGAGGATAT GGAAGATGAG
CATGTCAAAG AAGGGCATTC TGATTCTGAA GACATTATGT TTGGTGAGGC AGATACAGAC
TTGCGGGCTC TTCAGGCCTC GATGGAACAG TTACTTAGGG AGCAGCCTAG TGAGGAATTT
AGTGAAGAGG AGTTGTCTAC CTTAAAGGCA GATACTGCAG CACGCATAAC AAATGGTACA
GAGTTGGATG ATGAGGATGA CAACAACCCC AGCAGTGAAA GTGTACTTAA TGAAGAATGG
CAATCAGACA ACAGTGATGG GGATATTGCC AGTGAATGTG AAGCATATGA CAGTGTCTTC
AGCCATTTGG AAGAATTGAG ATACAATCTG GAGCGGGAAA TAGGCTTTGA TAAATTCATT
GAAGTTTATG ATAAAATAAA GGCAATACAT GAAGATGAAG ATGAGAATAT TGATGTTTGT
TCAACAATAG TTCAGAATAT TCTGGGAAAT GAATATAAAC ATCTGTATGC CAAGATTCTT
CATTTAGTGA TGGCAGATGG AGCCTATCAG GAGGATAATG ATGAATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_027685115.1 CDS 66..3893 Translation
Target ORF information:
RefSeq Version XM_027829314.1 Organism Chelonia mydas(Green sea turtle) Definition Chelonia mydas NIMA related kinase 1 (NEK1), transcript variant X6, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_027829314.1
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
3781ATGGAGAAAT ATATTAAAGT GCAGAAGATT GGCGAAGGAT CCTTTGGAAA AGCAATTCTG
GTCAAAGCTA AAGAAAATAG CAGACAGTAT GTTGTTAAGG AGATAAACAT CTCTAAGATG
TCCAATAAAG AGAGAGAAGA ATCAAGGAGA GAAGTTGCTG TATTGGCAAA CATGAAACAT
CCAAATATTG TCCTGTATCG GGAATCATTT GAAGAAAATG GCTCTCTCTA TATAGTGATG
GATTACTGTG AAGGAGGGGA CCTGTTTAGA CGAATAAATG CTCAGAAAGG CATCTTGTTC
TCAGAGGATC AGATAATGGA TTGGTTTGTA CAGATTTGTT TAGCACTAAA ACATGTACAT
GACAGAAAAA TTTTGCATCG AGATATAAAG TCACAGAATA TATTTTTAAC CAAAGATGGA
ACAATACAAC TGGGAGACTT TGGAATAGCT AGAGTTCTTA ACAGTACTGT AGAGCTGGCT
CGCACTTGCA TAGGAACACC ATACTATTTG TCACCTGAAA TCTGTCGGAA CAAGCCTTAC
AACAATAAAA GTGACATATG GGCTCTTGGT TGTGTTCTCT ATGAGATGTG CACACTTAAA
CATGCATTTG AAGCTGGTAA CATGAAAAAT CTGGTACTGA AGATAATCTC TGGATCTTTT
CCTCCTGTTT CTCTGCATTA TTCCTACGAT CTACGTAATC TGCTTTCACA GTTATTTAAA
AGGAATCCTA GGGATAGACC ATCAGTCAAC TCCATATTGG AGAAAATCTT TATAGCCAAA
CGGGTGGAAA AATTTCTTAC ACCACAGCTT ATTGCAGACG AATTCAGTCA CAAAGTGTTC
CACAAGTTTG ACGCCCATGT TGCACCAGTA AAACGACTAG CTCAAGGACA AATCTGTGCT
TCAGCTGTGC CAGCTCAGAA AATTACCAAA CCTGCTGCAA AATATGGAGT GCCTTTAATG
ATCAAGAAAT CTGGTGATGC ATCTAAAAAA TTTCATGAGA AGAAGCCATT AGCTAAATTT
AGACAGGCCC ATCCAACTCC AATGAAGAAA ATGAATCCAG GAGAAGAAAG GAGGAAAATG
TTTGAGGAAG CTGCAAAAAA GAGAAGATTT GAATTACTTG AGAAAGAAAA ACGACAAAGA
GACCAGAAGG CTGAGCAGAT GAGAAGACTG GAAAAGGAAA GGATGGAACG GATAAACAGA
GCCAGGGAAC AAGGCTGGAG AAATGTGCTT AGTTCAGGTG GAAGTGGTGA AGTTAAGGCA
CCCTTTTTTG GCGGTGGAGG AGGTGTTGGG CCTTCCCCTG TGCCTGCCAG AGGACAGTAT
GAACACTACC ATGCTATCTT TGACCAGATG CAACAGCAAA AGGAAAATAT TAAAGTAGGT
GAGGAGAGAG AAACCAGATG GAGAGCAGAA ATACGAAGTC GGGAAGCTGT TGAAAGAGGA
GTTCCACCTG GAGTACGTCC AGGATTTCCT AATGGGCCTG ATGGTCATCA CCATTTACCA
GATGCTGATG CAATTAGGAA AAAAATCAAA AGATTGAAGG AGGTGTCTAA ACAAGCCAAT
GCAAACAGGC AAAGAGGATG GGTAGCAGCA GAAAGAGCAA AACAAGTTGA AGAATTCTGG
CAACGAAAGA GGGAAGCTAT GCAAAACAAA GCTCGTGCTG AAGGACATAT GGAATACCTG
GCAAGATTAA GACAGATCCG ACTTCAAAAC TTCAATGAAC GCCAGCAGAT TAAAGCTAAA
CTTCGTGGAG AAAAGAATGA AGCTGACGGT TCTGATGGAC AAGAAGGAAG TGAAGAAGCA
GAATTGAGAC GCAAAAAAAT TGAAGCACTA AAGGCCCAAG CAAACGCGCG AGCTGCAGTT
CTGAAAGAGC AACTAGAGCG AAAGAGGAAG GAGGCATATG AAAGAGAGAA GAAAGCTTGG
GAAGAACATT TGACAGCAAA AGGGGTAAAG AATCCTATGG TGCCTTTTAA TGTGTCAGCA
GCTGGGGTTA ATCCTGTCCC TGGGCAACAA GAACCTGGAG GACCTCCTGC CAAACTACAA
CTTCCATTGA AGCCCAGTAC ACCACTTATA TCTATGACTT CAGCTTTGAA GGAAGTGGGT
GTGGATGAAA ATACAACTGC TATCCAGGAA ACCACAGAGG AAACGAAGAA GGCAGATCTT
GCTGTGCAAA ATAAAAGAGA AATACTAAGA AGATTGAATC AAAATCTTAA AACACAGGAC
GATGTAAAAG GAATAAAGGA GCCTAAAGAC ACCTGTGAGG CAGCTATGGC TGAAGAGAGT
AAAGAAGAAG AATATCCACT TCTAGTAGAT CGCAAGAAAT GGGAGGTGGC AGCAGCTGAG
TTGGTGGTTC CTCTTGCACA GCTAACTATG GAGGAATCAT TGTCGGGGAC AGAGAGACAG
ACCGTGGGGG AGGTAATTAA ACTAGATGTT GGTGAGCCCC AGAGAAAAGT TTGGGGCAAA
AGCCCTACTG ATTCAGTTTT GAAGATACTG GGGGAAGCAG AGCTACAGCT TCAAACTGAA
TTATTGGAGG AAATAATTAT CACAAATGAT GTTCCTGAAG AAGGTTCTCA GCCCTTAACC
GTGAAAGAGA ACAGTGAAGT AGAAATTGCT TGTATTGGAG AGAAATCTTC ATCTCCAGTT
GTTGGTGTCA TAGAATCTGA AAGGACAATA CCAGAGGAGT CACAAACATT TGATGCCACC
CAAGTGCTGT CCAGGCCTGT TGTGCTACAT GAGCTGTATG ATTTGGAAGC AGAAATGTTG
GAAGAAACTG AAAAAAATAA AAAGTGCAAA AGTGACCAAC TTCTCATCAC TGTTCATGAT
GTGTGGGTTA AAGAAAGGGA AACAATAACG GAGCATGAGC CACTGGAAGA TACTGCCTGT
CAGAAAGATG GTGGTGGTGA TGAAGCAGCT TTGGAGAAGG AAATGCCGCA AAATGTGCAA
CCGCGTAATG AAGTTTCTGC TGACACTTGT CTCAGTGACT CTATGCAACC TGAACCCTTT
TTCCAGAAGG TGGCACAGCC ACAAGCCATA CCAGCAGCCT CACCAGTTCT GTCAGCTCAG
TCTTCACTGG AAGAGCCTTT TCCACCTCGT TCACGTTCTG TATCACCAGC AAAAAGTAAA
GGCAAAAGTT CATTATTGAT TGGGCTCTCT ACTGGCCTGT TTGATGCAAA CAATCCAAAG
ATGTTAAGAA CATGTTCACT CCCAGATCTT TCCAAGTTGT ACAGAACACT AATTGACGTT
CCCATTGTAG CAGATGTACA ACATCAAGAC AATCTTGAAA TAGAGGATAT GGAAGATGAG
CATGTCAAAG AAGGGCATTC TGATTCTGAA GACATTATGT TTGGTGAGGC AGATACAGAC
TTGCGGGCTC TTCAGGCCTC GATGGAACAG TTACTTAGGG AGCAGCCTAG TGAGGAATTT
AGTGAAGAGG AGTTGTCTAC CTTAAAGGCA GATACTGCAG CACGCATAAC AAATGGTACA
GAGTTGGATG ATGAGGATGA CAACAACCCC AGCAGTGAAA GTGTACTTAA TGAAGAATGG
CAATCAGACA ACAGTGATGG GGATATTGCC AGTGAATGTG AAGCATATGA CAGTGTCTTC
AGCCATTTGG AAGAATTGAG ATACAATCTG GAGCGGGAAA TAGGCTTTGA TAAATTCATT
GAAGTTTATG ATAAAATAAA GGCAATACAT GAAGATGAAG ATGAGAATAT TGATGTTTGT
TCAACAATAG TTCAGAATAT TCTGGGAAAT GAATATAAAC ATCTGTATGC CAAGATTCTT
CATTTAGTGA TGGCAGATGG AGCCTATCAG GAGGATAATG ATGAATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OCh375626 Clone ID Related Accession (Same CDS sequence) XM_027829315.1 Accession Version XM_027829315.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3789bp)
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 1548086400000 Organism Chelonia mydas(Green sea turtle) Product serine/threonine-protein kinase Nek1 isoform X5 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006661173.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Chelonia mydas Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.1 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
3781ATGGAGAAAT ATATTAAAGT GCAGAAGATT GGCGAAGGAT CCTTTGGAAA AGCAATTCTG
GTCAAAGCTA AAGAAAATAG CAGACAGTAT GTTGTTAAGG AGATAAACAT CTCTAAGATG
TCCAATAAAG AGAGAGAAGA ATCAAGGAGA GAAGTTGCTG TATTGGCAAA CATGAAACAT
CCAAATATTG TCCTGTATCG GGAATCATTT GAAGAAAATG GCTCTCTCTA TATAGTGATG
GATTACTGTG AAGGAGGGGA CCTGTTTAGA CGAATAAATG CTCAGAAAGG CATCTTGTTC
TCAGAGGATC AGATAATGGA TTGGTTTGTA CAGATTTGTT TAGCACTAAA ACATGTACAT
GACAGAAAAA TTTTGCATCG AGATATAAAG TCACAGAATA TATTTTTAAC CAAAGATGGA
ACAATACAAC TGGGAGACTT TGGAATAGCT AGAGTTCTTA ACAGTACTGT AGAGCTGGCT
CGCACTTGCA TAGGAACACC ATACTATTTG TCACCTGAAA TCTGTCGGAA CAAGCCTTAC
AACAATAAAA GTGACATATG GGCTCTTGGT TGTGTTCTCT ATGAGATGTG CACACTTAAA
CATGCATTTG AAGCTGGTAA CATGAAAAAT CTGGTACTGA AGATAATCTC TGGATCTTTT
CCTCCTGTTT CTCTGCATTA TTCCTACGAT CTACGTAATC TGCTTTCACA GTTATTTAAA
AGGAATCCTA GGGATAGACC ATCAGTCAAC TCCATATTGG AGAAAATCTT TATAGCCAAA
CGGGTGGAAA AATTTCTTAC ACCACAGCTT ATTGCAGACG AATTCAGTCA CAAAGTGTTC
CACAAGTTTG ACGCCCATGT TGCACCAGTA AAACGACTAG CTCAAGGACA AATCTGTGCT
TCAGCTGTGC CAGCTCAGAA AATTACCAAA CCTGCTGCAA AATATGGAGT GCCTTTAATG
ATCAAGAAAT CTGGTGATGC ATCTAAAAAA TTTCATGAGA AGAAGCCATT AGCTAAATTT
AGACAGGCCC ATCCAACTCC AATGAAGAAA ATGAATCCAG GAGAAGAAAG GAGGAAAATG
TTTGAGGAAG CTGCAAAAAA GAGAAGATTT GAATTACTTG AGAAAGAAAA ACGACAAAGA
GACCAGAAGG CTGAGCAGAT GAGAAGACTG GAAAAGGAAA GGATGGAACG GATAAACAGA
GCCAGGGAAC AAGGCTGGAG AAATGTGCTT AGTTCAGGTG GAAGTGGTGA AGTTAAGGCA
CCCTTTTTTG GCGGTGGAGG AGGTGTTGGG CCTTCCCCTG TGCCTGCCAG AGGACAGTAT
GAACACTACC ATGCTATCTT TGACCAGATG CAACAGCAAA AGGAAAATAT TAAAGTAGGT
GAGGAGAGAG AAACCAGATG GAGAGCAGAA ATACGAAGTC GGGAAGCTGT TGAAAGGCAA
AGAGGATGGG TAGCAGCAGA AAGAGCAAAA CAAGTTGAAG AATTCTGGCA ACGAAAGAGG
GAAGCTATGC AAAACAAAGC TCGTGCTGAA GGACATATGG GTACACTGCA AAACCTGGCA
GCTATCTATG GAGGCAGGCC CATTTCTGCA AGAGGAAGGA AATCCAGAAA CAAGGAGGAA
GAGGAATACC TGGCAAGATT AAGACAGATC CGACTTCAAA ACTTCAATGA ACGCCAGCAG
ATTAAAGCTA AACTTCGTGG AGAAAAGAAT GAAGCTGACG GTTCTGATGG ACAAGAAGGA
AGTGAAGAAG CAGAATTGAG ACGCAAAAAA ATTGAAGCAC TAAAGGCCCA AGCAAACGCG
CGAGCTGCAG TTCTGAAAGA GCAACTAGAG CGAAAGAGGA AGGAGGCATA TGAAAGAGAG
AAGAAAGCTT GGGAAGAACA TTTGACAGCA AAAGGGGTAA AGAATCCTAT GGTGCCTTTT
AATGTGTCAG CAGCTGGGGT TAATCCTGTC CCTGGGCAAC AAGAACCTGG AGGACCTCCT
GCCAAACTAC AACTTCCATT GAAGCCCAGT ACACCACTTA TATCTATGAC TTCAGCTTTG
AAGGAAGTGG GTGTGGATGA AAATACAACT GCTATCCAGG AAACCACAGA GGAAACGAAG
AAGGCAGATC TTGCTGTGCA AAATAAAAGA GAAATACTAA GAAGATTGAA TCAAAATCTT
AAAACACAGG ACGATGTAAA AGGAATAAAG GAGCCTAAAG ACACCTGTGA GGCAGCTATG
GCTGAAGAGA GTAAAGAAGA AGAATATCCA CTTCTAGTAG ATCGCAAGAA ATGGGAGGTG
GCAGCAGCTG AGTTGGTGGT TCCTCTTGCA CAGCTAACTA TGGAGGAATC ATTGTCGGGG
ACAGAGAGAC AGACCGTGGG GGAGGTAATT AAACTAGATG TTGGTGAGCC CCAGAGAAAA
GTTTGGGGCA AAAGCCCTAC TGATTCAGTT TTGAAGATAC TGGGGGAAGC AGAGCTACAG
CTTCAAACTG AATTATTGGA GGAAATAATT ATCACAAATG ATGTTCCTGA AGAAGGTTCT
CAGCCCTTAA CCGTGAAAGA GAACAGTGAA GTAGAAATTG CTTGTATTGG AGAGAAATCT
TCATCTCCAG TTGTTGGTGT CATAGAATCT GAAAGGACAA TACCAGAGGA GTCACAAACA
TTTGATGCCA CCCAAGTGCT GTCCAGGCCT GTTGTGCTAC ATGAGCTGTA TGATTTGGAA
GCAGAAATGT TGGAAGAAAC TGAAAAAAAT AAAAAGTGCA AAAGTGACCA ACTTCTCATC
ACTGTTCATG ATGTGTGGGT TAAAGAAAGG GAAACAATAA CGGAGCATGA GCCACTGGAA
GATACTGCCT GTCAGAAAGA TGGTGGTGGT GATGAAGCAG CTTTGGAGAA GGAAATGCCG
CAAAATGTGC AACCGCGTAA TGAAGTTTCT GCTGGTCATG CTTACACTTG TCTCAGTGAC
TCTATGCAAC CTGAACCCTT TTTCCAGAAG GTGGCACAGC CACAAGCCAT ACCAGCAGCC
TCACCAGTTC TGTCAGCTCA GTCTTCACTG GAAGAGCCTT TTCCACCTCG TTCACGTTCT
GTATCACCAG CAAAAAGTAA AGGCAAAAGT TCATTATTGA TTGGGCTCTC TACTGGCCTG
TTTGATGCAA ACAATCCAAA GATGTTAAGA ACATGTTCAC TCCCAGATCT TTCCAAGTTG
TACAGAACAC TAATTGACGT TCCCATTGTA GCAGATGTAC AACATCAAGA CAATCTTGAA
ATAGAGGATA TGGAAGATGA GCATGTCAAA GAAGGGCATT CTGATTCTGA AGACATTATG
TTTGGTGAGG CAGATACAGA CTTGCGGGCT CTTCAGGCCT CGATGGAACA GTTACTTAGG
GAGCAGCCTA GTGAGGAATT TAGTGAAGAG GAGTTGTCTA CCTTAAAGGC AGATACTGCA
GCACGCATAA CAAATGGTAC AGAGTTGGAT GATGAGGATG ACAACAACCC CAGCAGTGAA
AGTGTACTTA ATGAAGAATG GCAATCAGAC AACAGTGATG GGGATATTGC CAGTGAATGT
GAAGCATATG ACAGTGTCTT CAGCCATTTG GAAGAATTGA GATACAATCT GGAGCGGGAA
ATAGGCTTTG ATAAATTCAT TGAAGTTTAT GATAAAATAA AGGCAATACA TGAAGATGAA
GATGAGAATA TTGATGTTTG TTCAACAATA GTTCAGAATA TTCTGGGAAA TGAATATAAA
CATCTGTATG CCAAGATTCT TCATTTAGTG ATGGCAGATG GAGCCTATCA GGAGGATAAT
GATGAATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_027685116.1 CDS 104..3892 Translation
Target ORF information:
RefSeq Version XM_027829315.1 Organism Chelonia mydas(Green sea turtle) Definition Chelonia mydas NIMA related kinase 1 (NEK1), transcript variant X7, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_027829315.1
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
3781ATGGAGAAAT ATATTAAAGT GCAGAAGATT GGCGAAGGAT CCTTTGGAAA AGCAATTCTG
GTCAAAGCTA AAGAAAATAG CAGACAGTAT GTTGTTAAGG AGATAAACAT CTCTAAGATG
TCCAATAAAG AGAGAGAAGA ATCAAGGAGA GAAGTTGCTG TATTGGCAAA CATGAAACAT
CCAAATATTG TCCTGTATCG GGAATCATTT GAAGAAAATG GCTCTCTCTA TATAGTGATG
GATTACTGTG AAGGAGGGGA CCTGTTTAGA CGAATAAATG CTCAGAAAGG CATCTTGTTC
TCAGAGGATC AGATAATGGA TTGGTTTGTA CAGATTTGTT TAGCACTAAA ACATGTACAT
GACAGAAAAA TTTTGCATCG AGATATAAAG TCACAGAATA TATTTTTAAC CAAAGATGGA
ACAATACAAC TGGGAGACTT TGGAATAGCT AGAGTTCTTA ACAGTACTGT AGAGCTGGCT
CGCACTTGCA TAGGAACACC ATACTATTTG TCACCTGAAA TCTGTCGGAA CAAGCCTTAC
AACAATAAAA GTGACATATG GGCTCTTGGT TGTGTTCTCT ATGAGATGTG CACACTTAAA
CATGCATTTG AAGCTGGTAA CATGAAAAAT CTGGTACTGA AGATAATCTC TGGATCTTTT
CCTCCTGTTT CTCTGCATTA TTCCTACGAT CTACGTAATC TGCTTTCACA GTTATTTAAA
AGGAATCCTA GGGATAGACC ATCAGTCAAC TCCATATTGG AGAAAATCTT TATAGCCAAA
CGGGTGGAAA AATTTCTTAC ACCACAGCTT ATTGCAGACG AATTCAGTCA CAAAGTGTTC
CACAAGTTTG ACGCCCATGT TGCACCAGTA AAACGACTAG CTCAAGGACA AATCTGTGCT
TCAGCTGTGC CAGCTCAGAA AATTACCAAA CCTGCTGCAA AATATGGAGT GCCTTTAATG
ATCAAGAAAT CTGGTGATGC ATCTAAAAAA TTTCATGAGA AGAAGCCATT AGCTAAATTT
AGACAGGCCC ATCCAACTCC AATGAAGAAA ATGAATCCAG GAGAAGAAAG GAGGAAAATG
TTTGAGGAAG CTGCAAAAAA GAGAAGATTT GAATTACTTG AGAAAGAAAA ACGACAAAGA
GACCAGAAGG CTGAGCAGAT GAGAAGACTG GAAAAGGAAA GGATGGAACG GATAAACAGA
GCCAGGGAAC AAGGCTGGAG AAATGTGCTT AGTTCAGGTG GAAGTGGTGA AGTTAAGGCA
CCCTTTTTTG GCGGTGGAGG AGGTGTTGGG CCTTCCCCTG TGCCTGCCAG AGGACAGTAT
GAACACTACC ATGCTATCTT TGACCAGATG CAACAGCAAA AGGAAAATAT TAAAGTAGGT
GAGGAGAGAG AAACCAGATG GAGAGCAGAA ATACGAAGTC GGGAAGCTGT TGAAAGGCAA
AGAGGATGGG TAGCAGCAGA AAGAGCAAAA CAAGTTGAAG AATTCTGGCA ACGAAAGAGG
GAAGCTATGC AAAACAAAGC TCGTGCTGAA GGACATATGG GTACACTGCA AAACCTGGCA
GCTATCTATG GAGGCAGGCC CATTTCTGCA AGAGGAAGGA AATCCAGAAA CAAGGAGGAA
GAGGAATACC TGGCAAGATT AAGACAGATC CGACTTCAAA ACTTCAATGA ACGCCAGCAG
ATTAAAGCTA AACTTCGTGG AGAAAAGAAT GAAGCTGACG GTTCTGATGG ACAAGAAGGA
AGTGAAGAAG CAGAATTGAG ACGCAAAAAA ATTGAAGCAC TAAAGGCCCA AGCAAACGCG
CGAGCTGCAG TTCTGAAAGA GCAACTAGAG CGAAAGAGGA AGGAGGCATA TGAAAGAGAG
AAGAAAGCTT GGGAAGAACA TTTGACAGCA AAAGGGGTAA AGAATCCTAT GGTGCCTTTT
AATGTGTCAG CAGCTGGGGT TAATCCTGTC CCTGGGCAAC AAGAACCTGG AGGACCTCCT
GCCAAACTAC AACTTCCATT GAAGCCCAGT ACACCACTTA TATCTATGAC TTCAGCTTTG
AAGGAAGTGG GTGTGGATGA AAATACAACT GCTATCCAGG AAACCACAGA GGAAACGAAG
AAGGCAGATC TTGCTGTGCA AAATAAAAGA GAAATACTAA GAAGATTGAA TCAAAATCTT
AAAACACAGG ACGATGTAAA AGGAATAAAG GAGCCTAAAG ACACCTGTGA GGCAGCTATG
GCTGAAGAGA GTAAAGAAGA AGAATATCCA CTTCTAGTAG ATCGCAAGAA ATGGGAGGTG
GCAGCAGCTG AGTTGGTGGT TCCTCTTGCA CAGCTAACTA TGGAGGAATC ATTGTCGGGG
ACAGAGAGAC AGACCGTGGG GGAGGTAATT AAACTAGATG TTGGTGAGCC CCAGAGAAAA
GTTTGGGGCA AAAGCCCTAC TGATTCAGTT TTGAAGATAC TGGGGGAAGC AGAGCTACAG
CTTCAAACTG AATTATTGGA GGAAATAATT ATCACAAATG ATGTTCCTGA AGAAGGTTCT
CAGCCCTTAA CCGTGAAAGA GAACAGTGAA GTAGAAATTG CTTGTATTGG AGAGAAATCT
TCATCTCCAG TTGTTGGTGT CATAGAATCT GAAAGGACAA TACCAGAGGA GTCACAAACA
TTTGATGCCA CCCAAGTGCT GTCCAGGCCT GTTGTGCTAC ATGAGCTGTA TGATTTGGAA
GCAGAAATGT TGGAAGAAAC TGAAAAAAAT AAAAAGTGCA AAAGTGACCA ACTTCTCATC
ACTGTTCATG ATGTGTGGGT TAAAGAAAGG GAAACAATAA CGGAGCATGA GCCACTGGAA
GATACTGCCT GTCAGAAAGA TGGTGGTGGT GATGAAGCAG CTTTGGAGAA GGAAATGCCG
CAAAATGTGC AACCGCGTAA TGAAGTTTCT GCTGGTCATG CTTACACTTG TCTCAGTGAC
TCTATGCAAC CTGAACCCTT TTTCCAGAAG GTGGCACAGC CACAAGCCAT ACCAGCAGCC
TCACCAGTTC TGTCAGCTCA GTCTTCACTG GAAGAGCCTT TTCCACCTCG TTCACGTTCT
GTATCACCAG CAAAAAGTAA AGGCAAAAGT TCATTATTGA TTGGGCTCTC TACTGGCCTG
TTTGATGCAA ACAATCCAAA GATGTTAAGA ACATGTTCAC TCCCAGATCT TTCCAAGTTG
TACAGAACAC TAATTGACGT TCCCATTGTA GCAGATGTAC AACATCAAGA CAATCTTGAA
ATAGAGGATA TGGAAGATGA GCATGTCAAA GAAGGGCATT CTGATTCTGA AGACATTATG
TTTGGTGAGG CAGATACAGA CTTGCGGGCT CTTCAGGCCT CGATGGAACA GTTACTTAGG
GAGCAGCCTA GTGAGGAATT TAGTGAAGAG GAGTTGTCTA CCTTAAAGGC AGATACTGCA
GCACGCATAA CAAATGGTAC AGAGTTGGAT GATGAGGATG ACAACAACCC CAGCAGTGAA
AGTGTACTTA ATGAAGAATG GCAATCAGAC AACAGTGATG GGGATATTGC CAGTGAATGT
GAAGCATATG ACAGTGTCTT CAGCCATTTG GAAGAATTGA GATACAATCT GGAGCGGGAA
ATAGGCTTTG ATAAATTCAT TGAAGTTTAT GATAAAATAA AGGCAATACA TGAAGATGAA
GATGAGAATA TTGATGTTTG TTCAACAATA GTTCAGAATA TTCTGGGAAA TGAATATAAA
CATCTGTATG CCAAGATTCT TCATTTAGTG ATGGCAGATG GAGCCTATCA GGAGGATAAT
GATGAATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OCh375627 Clone ID Related Accession (Same CDS sequence) XM_027829316.1 Accession Version XM_027829316.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3780bp)
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 1548086400000 Organism Chelonia mydas(Green sea turtle) Product serine/threonine-protein kinase Nek1 isoform X6 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006661173.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Chelonia mydas Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.1 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
3721ATGGAGAAAT ATATTAAAGT GCAGAAGATT GGCGAAGGAT CCTTTGGAAA AGCAATTCTG
GTCAAAGCTA AAGAAAATAG CAGACAGTAT GTTGTTAAGG AGATAAACAT CTCTAAGATG
TCCAATAAAG AGAGAGAAGA ATCAAGGAGA GAAGTTGCTG TATTGGCAAA CATGAAACAT
CCAAATATTG TCCTGTATCG GGAATCATTT GAAGAAAATG GCTCTCTCTA TATAGTGATG
GATTACTGTG AAGGAGGGGA CCTGTTTAGA CGAATAAATG CTCAGAAAGG CATCTTGTTC
TCAGAGGATC AGATAATGGA TTGGTTTGTA CAGATTTGTT TAGCACTAAA ACATGTACAT
GACAGAAAAA TTTTGCATCG AGATATAAAG TCACAGAATA TATTTTTAAC CAAAGATGGA
ACAATACAAC TGGGAGACTT TGGAATAGCT AGAGTTCTTA ACAGTACTGT AGAGCTGGCT
CGCACTTGCA TAGGAACACC ATACTATTTG TCACCTGAAA TCTGTCGGAA CAAGCCTTAC
AACAATAAAA GTGACATATG GGCTCTTGGT TGTGTTCTCT ATGAGATGTG CACACTTAAA
CATGCATTTG AAGCTGGTAA CATGAAAAAT CTGGTACTGA AGATAATCTC TGGATCTTTT
CCTCCTGTTT CTCTGCATTA TTCCTACGAT CTACGTAATC TGCTTTCACA GTTATTTAAA
AGGAATCCTA GGGATAGACC ATCAGTCAAC TCCATATTGG AGAAAATCTT TATAGCCAAA
CGGGTGGAAA AATTTCTTAC ACCACAGCTT ATTGCAGACG AATTCAGTCA CAAAGTGTTC
CACAAGTTTG ACGCCCATGT TGCACCAGTA AAACGACTAG CTCAAGGACA AATCTGTGCT
TCAGCTGTGC CAGCTCAGAA AATTACCAAA CCTGCTGCAA AATATGGAGT GCCTTTAATG
ATCAAGAAAT CTGGTGATGC ATCTAAAAAA TTTCATGAGA AGAAGCCATT AGCTAAATTT
AGACAGGCCC ATCCAACTCC AATGAAGAAA ATGAATCCAG GAGAAGAAAG GAGGAAAATG
TTTGAGGAAG CTGCAAAAAA GAGAAGATTT GAATTACTTG AGAAAGAAAA ACGACAAAGA
GACCAGAAGG CTGAGCAGAT GAGAAGACTG GAAAAGGAAA GGATGGAACG GATAAACAGA
GCCAGGGAAC AAGGCTGGAG AAATGTGCTT AGTTCAGGTG GAAGTGGTGA AGTTAAGGCA
CCCTTTTTTG GCGGTGGAGG AGGTGTTGGG CCTTCCCCTG TGCCTGCCAG AGGACAGTAT
GAACACTACC ATGCTATCTT TGACCAGATG CAACAGCAAA AGGAAAATAT TAAAGTAGGT
GAGGAGAGAG AAACCAGATG GAGAGCAGAA ATACGAAGTC GGGAAGCTGT TGAAAGGCAA
AGAGGATGGG TAGCAGCAGA AAGAGCAAAA CAAGTTGAAG AATTCTGGCA ACGAAAGAGG
GAAGCTATGC AAAACAAAGC TCGTGCTGAA GGACATATGG GTACACTGCA AAACCTGGCA
GCTATCTATG GAGGCAGGCC CATTTCTGCA AGAGGAAGGA AATCCAGAAA CAAGGAGGAA
GAGGAATACC TGGCAAGATT AAGACAGATC CGACTTCAAA ACTTCAATGA ACGCCAGCAG
ATTAAAGCTA AACTTCGTGG AGAAAAGAAT GAAGCTGACG GTTCTGATGG ACAAGAAGGA
AGTGAAGAAG CAGAATTGAG ACGCAAAAAA ATTGAAGCAC TAAAGGCCCA AGCAAACGCG
CGAGCTGCAG TTCTGAAAGA GCAACTAGAG CGAAAGAGGA AGGAGGCATA TGAAAGAGAG
AAGAAAGCTT GGGAAGAACA TTTGACAGCA AAAGGGGTAA AGAATCCTAT GGTGCCTTTT
AATGTGTCAG CAGCTGGGGT TAATCCTGTC CCTGGGCAAC AAGAACCTGG AGGACCTCCT
GCCAAACTAC AACTTCCATT GAAGCCCAGT ACACCACTTA TATCTATGAC TTCAGCTTTG
AAGGAAGTGG GTGTGGATGA AAATACAACT GCTATCCAGG AAACCACAGA GGAAACGAAG
AAGGCAGATC TTGCTGTGCA AAATAAAAGA GAAATACTAA GAAGATTGAA TCAAAATCTT
AAAACACAGG ACGATGTAAA AGGAATAAAG GAGCCTAAAG ACACCTGTGA GGCAGCTATG
GCTGAAGAGA GTAAAGAAGA AGAATATCCA CTTCTAGTAG ATCGCAAGAA ATGGGAGGTG
GCAGCAGCTG AGTTGGTGGT TCCTCTTGCA CAGCTAACTA TGGAGGAATC ATTGTCGGGG
ACAGAGAGAC AGACCGTGGG GGAGGTAATT AAACTAGATG TTGGTGAGCC CCAGAGAAAA
GTTTGGGGCA AAAGCCCTAC TGATTCAGTT TTGAAGATAC TGGGGGAAGC AGAGCTACAG
CTTCAAACTG AATTATTGGA GGAAATAATT ATCACAAATG ATGTTCCTGA AGAAGGTTCT
CAGCCCTTAA CCGTGAAAGA GAACAGTGAA GTAGAAATTG CTTGTATTGG AGAGAAATCT
TCATCTCCAG TTGTTGGTGT CATAGAATCT GAAAGGACAA TACCAGAGGA GTCACAAACA
TTTGATGCCA CCCAAGTGCT GTCCAGGCCT GTTGTGCTAC ATGAGCTGTA TGATTTGGAA
GCAGAAATGT TGGAAGAAAC TGAAAAAAAT AAAAAGTGCA AAAGTGACCA ACTTCTCATC
ACTGTTCATG ATGTGTGGGT TAAAGAAAGG GAAACAATAA CGGAGCATGA GCCACTGGAA
GATACTGCCT GTCAGAAAGA TGGTGGTGGT GATGAAGCAG CTTTGGAGAA GGAAATGCCG
CAAAATGTGC AACCGCGTAA TGAAGTTTCT GCTGACACTT GTCTCAGTGA CTCTATGCAA
CCTGAACCCT TTTTCCAGAA GGTGGCACAG CCACAAGCCA TACCAGCAGC CTCACCAGTT
CTGTCAGCTC AGTCTTCACT GGAAGAGCCT TTTCCACCTC GTTCACGTTC TGTATCACCA
GCAAAAAGTA AAGGCAAAAG TTCATTATTG ATTGGGCTCT CTACTGGCCT GTTTGATGCA
AACAATCCAA AGATGTTAAG AACATGTTCA CTCCCAGATC TTTCCAAGTT GTACAGAACA
CTAATTGACG TTCCCATTGT AGCAGATGTA CAACATCAAG ACAATCTTGA AATAGAGGAT
ATGGAAGATG AGCATGTCAA AGAAGGGCAT TCTGATTCTG AAGACATTAT GTTTGGTGAG
GCAGATACAG ACTTGCGGGC TCTTCAGGCC TCGATGGAAC AGTTACTTAG GGAGCAGCCT
AGTGAGGAAT TTAGTGAAGA GGAGTTGTCT ACCTTAAAGG CAGATACTGC AGCACGCATA
ACAAATGGTA CAGAGTTGGA TGATGAGGAT GACAACAACC CCAGCAGTGA AAGTGTACTT
AATGAAGAAT GGCAATCAGA CAACAGTGAT GGGGATATTG CCAGTGAATG TGAAGCATAT
GACAGTGTCT TCAGCCATTT GGAAGAATTG AGATACAATC TGGAGCGGGA AATAGGCTTT
GATAAATTCA TTGAAGTTTA TGATAAAATA AAGGCAATAC ATGAAGATGA AGATGAGAAT
ATTGATGTTT GTTCAACAAT AGTTCAGAAT ATTCTGGGAA ATGAATATAA ACATCTGTAT
GCCAAGATTC TTCATTTAGT GATGGCAGAT GGAGCCTATC AGGAGGATAA TGATGAATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_027685117.1 CDS 66..3845 Translation
Target ORF information:
RefSeq Version XM_027829316.1 Organism Chelonia mydas(Green sea turtle) Definition Chelonia mydas NIMA related kinase 1 (NEK1), transcript variant X8, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_027829316.1
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
3721ATGGAGAAAT ATATTAAAGT GCAGAAGATT GGCGAAGGAT CCTTTGGAAA AGCAATTCTG
GTCAAAGCTA AAGAAAATAG CAGACAGTAT GTTGTTAAGG AGATAAACAT CTCTAAGATG
TCCAATAAAG AGAGAGAAGA ATCAAGGAGA GAAGTTGCTG TATTGGCAAA CATGAAACAT
CCAAATATTG TCCTGTATCG GGAATCATTT GAAGAAAATG GCTCTCTCTA TATAGTGATG
GATTACTGTG AAGGAGGGGA CCTGTTTAGA CGAATAAATG CTCAGAAAGG CATCTTGTTC
TCAGAGGATC AGATAATGGA TTGGTTTGTA CAGATTTGTT TAGCACTAAA ACATGTACAT
GACAGAAAAA TTTTGCATCG AGATATAAAG TCACAGAATA TATTTTTAAC CAAAGATGGA
ACAATACAAC TGGGAGACTT TGGAATAGCT AGAGTTCTTA ACAGTACTGT AGAGCTGGCT
CGCACTTGCA TAGGAACACC ATACTATTTG TCACCTGAAA TCTGTCGGAA CAAGCCTTAC
AACAATAAAA GTGACATATG GGCTCTTGGT TGTGTTCTCT ATGAGATGTG CACACTTAAA
CATGCATTTG AAGCTGGTAA CATGAAAAAT CTGGTACTGA AGATAATCTC TGGATCTTTT
CCTCCTGTTT CTCTGCATTA TTCCTACGAT CTACGTAATC TGCTTTCACA GTTATTTAAA
AGGAATCCTA GGGATAGACC ATCAGTCAAC TCCATATTGG AGAAAATCTT TATAGCCAAA
CGGGTGGAAA AATTTCTTAC ACCACAGCTT ATTGCAGACG AATTCAGTCA CAAAGTGTTC
CACAAGTTTG ACGCCCATGT TGCACCAGTA AAACGACTAG CTCAAGGACA AATCTGTGCT
TCAGCTGTGC CAGCTCAGAA AATTACCAAA CCTGCTGCAA AATATGGAGT GCCTTTAATG
ATCAAGAAAT CTGGTGATGC ATCTAAAAAA TTTCATGAGA AGAAGCCATT AGCTAAATTT
AGACAGGCCC ATCCAACTCC AATGAAGAAA ATGAATCCAG GAGAAGAAAG GAGGAAAATG
TTTGAGGAAG CTGCAAAAAA GAGAAGATTT GAATTACTTG AGAAAGAAAA ACGACAAAGA
GACCAGAAGG CTGAGCAGAT GAGAAGACTG GAAAAGGAAA GGATGGAACG GATAAACAGA
GCCAGGGAAC AAGGCTGGAG AAATGTGCTT AGTTCAGGTG GAAGTGGTGA AGTTAAGGCA
CCCTTTTTTG GCGGTGGAGG AGGTGTTGGG CCTTCCCCTG TGCCTGCCAG AGGACAGTAT
GAACACTACC ATGCTATCTT TGACCAGATG CAACAGCAAA AGGAAAATAT TAAAGTAGGT
GAGGAGAGAG AAACCAGATG GAGAGCAGAA ATACGAAGTC GGGAAGCTGT TGAAAGGCAA
AGAGGATGGG TAGCAGCAGA AAGAGCAAAA CAAGTTGAAG AATTCTGGCA ACGAAAGAGG
GAAGCTATGC AAAACAAAGC TCGTGCTGAA GGACATATGG GTACACTGCA AAACCTGGCA
GCTATCTATG GAGGCAGGCC CATTTCTGCA AGAGGAAGGA AATCCAGAAA CAAGGAGGAA
GAGGAATACC TGGCAAGATT AAGACAGATC CGACTTCAAA ACTTCAATGA ACGCCAGCAG
ATTAAAGCTA AACTTCGTGG AGAAAAGAAT GAAGCTGACG GTTCTGATGG ACAAGAAGGA
AGTGAAGAAG CAGAATTGAG ACGCAAAAAA ATTGAAGCAC TAAAGGCCCA AGCAAACGCG
CGAGCTGCAG TTCTGAAAGA GCAACTAGAG CGAAAGAGGA AGGAGGCATA TGAAAGAGAG
AAGAAAGCTT GGGAAGAACA TTTGACAGCA AAAGGGGTAA AGAATCCTAT GGTGCCTTTT
AATGTGTCAG CAGCTGGGGT TAATCCTGTC CCTGGGCAAC AAGAACCTGG AGGACCTCCT
GCCAAACTAC AACTTCCATT GAAGCCCAGT ACACCACTTA TATCTATGAC TTCAGCTTTG
AAGGAAGTGG GTGTGGATGA AAATACAACT GCTATCCAGG AAACCACAGA GGAAACGAAG
AAGGCAGATC TTGCTGTGCA AAATAAAAGA GAAATACTAA GAAGATTGAA TCAAAATCTT
AAAACACAGG ACGATGTAAA AGGAATAAAG GAGCCTAAAG ACACCTGTGA GGCAGCTATG
GCTGAAGAGA GTAAAGAAGA AGAATATCCA CTTCTAGTAG ATCGCAAGAA ATGGGAGGTG
GCAGCAGCTG AGTTGGTGGT TCCTCTTGCA CAGCTAACTA TGGAGGAATC ATTGTCGGGG
ACAGAGAGAC AGACCGTGGG GGAGGTAATT AAACTAGATG TTGGTGAGCC CCAGAGAAAA
GTTTGGGGCA AAAGCCCTAC TGATTCAGTT TTGAAGATAC TGGGGGAAGC AGAGCTACAG
CTTCAAACTG AATTATTGGA GGAAATAATT ATCACAAATG ATGTTCCTGA AGAAGGTTCT
CAGCCCTTAA CCGTGAAAGA GAACAGTGAA GTAGAAATTG CTTGTATTGG AGAGAAATCT
TCATCTCCAG TTGTTGGTGT CATAGAATCT GAAAGGACAA TACCAGAGGA GTCACAAACA
TTTGATGCCA CCCAAGTGCT GTCCAGGCCT GTTGTGCTAC ATGAGCTGTA TGATTTGGAA
GCAGAAATGT TGGAAGAAAC TGAAAAAAAT AAAAAGTGCA AAAGTGACCA ACTTCTCATC
ACTGTTCATG ATGTGTGGGT TAAAGAAAGG GAAACAATAA CGGAGCATGA GCCACTGGAA
GATACTGCCT GTCAGAAAGA TGGTGGTGGT GATGAAGCAG CTTTGGAGAA GGAAATGCCG
CAAAATGTGC AACCGCGTAA TGAAGTTTCT GCTGACACTT GTCTCAGTGA CTCTATGCAA
CCTGAACCCT TTTTCCAGAA GGTGGCACAG CCACAAGCCA TACCAGCAGC CTCACCAGTT
CTGTCAGCTC AGTCTTCACT GGAAGAGCCT TTTCCACCTC GTTCACGTTC TGTATCACCA
GCAAAAAGTA AAGGCAAAAG TTCATTATTG ATTGGGCTCT CTACTGGCCT GTTTGATGCA
AACAATCCAA AGATGTTAAG AACATGTTCA CTCCCAGATC TTTCCAAGTT GTACAGAACA
CTAATTGACG TTCCCATTGT AGCAGATGTA CAACATCAAG ACAATCTTGA AATAGAGGAT
ATGGAAGATG AGCATGTCAA AGAAGGGCAT TCTGATTCTG AAGACATTAT GTTTGGTGAG
GCAGATACAG ACTTGCGGGC TCTTCAGGCC TCGATGGAAC AGTTACTTAG GGAGCAGCCT
AGTGAGGAAT TTAGTGAAGA GGAGTTGTCT ACCTTAAAGG CAGATACTGC AGCACGCATA
ACAAATGGTA CAGAGTTGGA TGATGAGGAT GACAACAACC CCAGCAGTGA AAGTGTACTT
AATGAAGAAT GGCAATCAGA CAACAGTGAT GGGGATATTG CCAGTGAATG TGAAGCATAT
GACAGTGTCT TCAGCCATTT GGAAGAATTG AGATACAATC TGGAGCGGGA AATAGGCTTT
GATAAATTCA TTGAAGTTTA TGATAAAATA AAGGCAATAC ATGAAGATGA AGATGAGAAT
ATTGATGTTT GTTCAACAAT AGTTCAGAAT ATTCTGGGAA ATGAATATAA ACATCTGTAT
GCCAAGATTC TTCATTTAGT GATGGCAGAT GGAGCCTATC AGGAGGATAA TGATGAATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OCh375628 Clone ID Related Accession (Same CDS sequence) XM_027829317.1 Accession Version XM_027829317.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3705bp)
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 1548086400000 Organism Chelonia mydas(Green sea turtle) Product serine/threonine-protein kinase Nek1 isoform X7 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006661173.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Chelonia mydas Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.1 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
3661ATGGAGAAAT ATATTAAAGT GCAGAAGATT GGCGAAGGAT CCTTTGGAAA AGCAATTCTG
GTCAAAGCTA AAGAAAATAG CAGACAGTAT GTTGTTAAGG AGATAAACAT CTCTAAGATG
TCCAATAAAG AGAGAGAAGA ATCAAGGAGA GAAGTTGCTG TATTGGCAAA CATGAAACAT
CCAAATATTG TCCTGTATCG GGAATCATTT GAAGAAAATG GCTCTCTCTA TATAGTGATG
GATTACTGTG AAGGAGGGGA CCTGTTTAGA CGAATAAATG CTCAGAAAGG CATCTTGTTC
TCAGAGGATC AGATAATGGA TTGGTTTGTA CAGATTTGTT TAGCACTAAA ACATGTACAT
GACAGAAAAA TTTTGCATCG AGATATAAAG TCACAGAATA TATTTTTAAC CAAAGATGGA
ACAATACAAC TGGGAGACTT TGGAATAGCT AGAGTTCTTA ACAGTACTGT AGAGCTGGCT
CGCACTTGCA TAGGAACACC ATACTATTTG TCACCTGAAA TCTGTCGGAA CAAGCCTTAC
AACAATAAAA GTGACATATG GGCTCTTGGT TGTGTTCTCT ATGAGATGTG CACACTTAAA
CATGCATTTG AAGCTGGTAA CATGAAAAAT CTGGTACTGA AGATAATCTC TGGATCTTTT
CCTCCTGTTT CTCTGCATTA TTCCTACGAT CTACGTAATC TGCTTTCACA GTTATTTAAA
AGGAATCCTA GGGATAGACC ATCAGTCAAC TCCATATTGG AGAAAATCTT TATAGCCAAA
CGGGTGGAAA AATTTCTTAC ACCACAGCTT ATTGCAGACG AATTCAGTCA CAAAGTGTTC
CACAAGTTTG ACGCCCATGT TGCACCAGTA AAACGACTAG CTCAAGGACA AATCTGTGCT
TCAGCTGTGC CAGCTCAGAA AATTACCAAA CCTGCTGCAA AATATGGAGT GCCTTTAATG
ATCAAGAAAT CTGGTGATGC ATCTAAAAAA TTTCATGAGA AGAAGCCATT AGCTAAATTT
AGACAGGCCC ATCCAACTCC AATGAAGAAA ATGAATCCAG GAGAAGAAAG GAGGAAAATG
TTTGAGGAAG CTGCAAAAAA GAGAAGATTT GAATTACTTG AGAAAGAAAA ACGACAAAGA
GACCAGAAGG CTGAGCAGAT GAGAAGACTG GAAAAGGAAA GGATGGAACG GATAAACAGA
GCCAGGGAAC AAGGCTGGAG AAATGTGCTT AGTTCAGGTG GAAGTGGTGA AGTTAAGGCA
CCCTTTTTTG GCGGTGGAGG AGGTGTTGGG CCTTCCCCTG TGCCTGCCAG AGGACAGTAT
GAACACTACC ATGCTATCTT TGACCAGATG CAACAGCAAA AGGAAAATAT TAAAGTAGGT
GAGGAGAGAG AAACCAGATG GAGAGCAGAA ATACGAAGTC GGGAAGCTGT TGAAAGGCAA
AGAGGATGGG TAGCAGCAGA AAGAGCAAAA CAAGTTGAAG AATTCTGGCA ACGAAAGAGG
GAAGCTATGC AAAACAAAGC TCGTGCTGAA GGACATATGG AATACCTGGC AAGATTAAGA
CAGATCCGAC TTCAAAACTT CAATGAACGC CAGCAGATTA AAGCTAAACT TCGTGGAGAA
AAGAATGAAG CTGACGGTTC TGATGGACAA GAAGGAAGTG AAGAAGCAGA ATTGAGACGC
AAAAAAATTG AAGCACTAAA GGCCCAAGCA AACGCGCGAG CTGCAGTTCT GAAAGAGCAA
CTAGAGCGAA AGAGGAAGGA GGCATATGAA AGAGAGAAGA AAGCTTGGGA AGAACATTTG
ACAGCAAAAG GGGTAAAGAA TCCTATGGTG CCTTTTAATG TGTCAGCAGC TGGGGTTAAT
CCTGTCCCTG GGCAACAAGA ACCTGGAGGA CCTCCTGCCA AACTACAACT TCCATTGAAG
CCCAGTACAC CACTTATATC TATGACTTCA GCTTTGAAGG AAGTGGGTGT GGATGAAAAT
ACAACTGCTA TCCAGGAAAC CACAGAGGAA ACGAAGAAGG CAGATCTTGC TGTGCAAAAT
AAAAGAGAAA TACTAAGAAG ATTGAATCAA AATCTTAAAA CACAGGACGA TGTAAAAGGA
ATAAAGGAGC CTAAAGACAC CTGTGAGGCA GCTATGGCTG AAGAGAGTAA AGAAGAAGAA
TATCCACTTC TAGTAGATCG CAAGAAATGG GAGGTGGCAG CAGCTGAGTT GGTGGTTCCT
CTTGCACAGC TAACTATGGA GGAATCATTG TCGGGGACAG AGAGACAGAC CGTGGGGGAG
GTAATTAAAC TAGATGTTGG TGAGCCCCAG AGAAAAGTTT GGGGCAAAAG CCCTACTGAT
TCAGTTTTGA AGATACTGGG GGAAGCAGAG CTACAGCTTC AAACTGAATT ATTGGAGGAA
ATAATTATCA CAAATGATGT TCCTGAAGAA GGTTCTCAGC CCTTAACCGT GAAAGAGAAC
AGTGAAGTAG AAATTGCTTG TATTGGAGAG AAATCTTCAT CTCCAGTTGT TGGTGTCATA
GAATCTGAAA GGACAATACC AGAGGAGTCA CAAACATTTG ATGCCACCCA AGTGCTGTCC
AGGCCTGTTG TGCTACATGA GCTGTATGAT TTGGAAGCAG AAATGTTGGA AGAAACTGAA
AAAAATAAAA AGTGCAAAAG TGACCAACTT CTCATCACTG TTCATGATGT GTGGGTTAAA
GAAAGGGAAA CAATAACGGA GCATGAGCCA CTGGAAGATA CTGCCTGTCA GAAAGATGGT
GGTGGTGATG AAGCAGCTTT GGAGAAGGAA ATGCCGCAAA ATGTGCAACC GCGTAATGAA
GTTTCTGCTG GTCATGCTTA CACTTGTCTC AGTGACTCTA TGCAACCTGA ACCCTTTTTC
CAGAAGGTGG CACAGCCACA AGCCATACCA GCAGCCTCAC CAGTTCTGTC AGCTCAGTCT
TCACTGGAAG AGCCTTTTCC ACCTCGTTCA CGTTCTGTAT CACCAGCAAA AAGTAAAGGC
AAAAGTTCAT TATTGATTGG GCTCTCTACT GGCCTGTTTG ATGCAAACAA TCCAAAGATG
TTAAGAACAT GTTCACTCCC AGATCTTTCC AAGTTGTACA GAACACTAAT TGACGTTCCC
ATTGTAGCAG ATGTACAACA TCAAGACAAT CTTGAAATAG AGGATATGGA AGATGAGCAT
GTCAAAGAAG GGCATTCTGA TTCTGAAGAC ATTATGTTTG GTGAGGCAGA TACAGACTTG
CGGGCTCTTC AGGCCTCGAT GGAACAGTTA CTTAGGGAGC AGCCTAGTGA GGAATTTAGT
GAAGAGGAGT TGTCTACCTT AAAGGCAGAT ACTGCAGCAC GCATAACAAA TGGTACAGAG
TTGGATGATG AGGATGACAA CAACCCCAGC AGTGAAAGTG TACTTAATGA AGAATGGCAA
TCAGACAACA GTGATGGGGA TATTGCCAGT GAATGTGAAG CATATGACAG TGTCTTCAGC
CATTTGGAAG AATTGAGATA CAATCTGGAG CGGGAAATAG GCTTTGATAA ATTCATTGAA
GTTTATGATA AAATAAAGGC AATACATGAA GATGAAGATG AGAATATTGA TGTTTGTTCA
ACAATAGTTC AGAATATTCT GGGAAATGAA TATAAACATC TGTATGCCAA GATTCTTCAT
TTAGTGATGG CAGATGGAGC CTATCAGGAG GATAATGATG AATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_027685118.1 CDS 104..3808 Translation
Target ORF information:
RefSeq Version XM_027829317.1 Organism Chelonia mydas(Green sea turtle) Definition Chelonia mydas NIMA related kinase 1 (NEK1), transcript variant X9, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_027829317.1
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
3661ATGGAGAAAT ATATTAAAGT GCAGAAGATT GGCGAAGGAT CCTTTGGAAA AGCAATTCTG
GTCAAAGCTA AAGAAAATAG CAGACAGTAT GTTGTTAAGG AGATAAACAT CTCTAAGATG
TCCAATAAAG AGAGAGAAGA ATCAAGGAGA GAAGTTGCTG TATTGGCAAA CATGAAACAT
CCAAATATTG TCCTGTATCG GGAATCATTT GAAGAAAATG GCTCTCTCTA TATAGTGATG
GATTACTGTG AAGGAGGGGA CCTGTTTAGA CGAATAAATG CTCAGAAAGG CATCTTGTTC
TCAGAGGATC AGATAATGGA TTGGTTTGTA CAGATTTGTT TAGCACTAAA ACATGTACAT
GACAGAAAAA TTTTGCATCG AGATATAAAG TCACAGAATA TATTTTTAAC CAAAGATGGA
ACAATACAAC TGGGAGACTT TGGAATAGCT AGAGTTCTTA ACAGTACTGT AGAGCTGGCT
CGCACTTGCA TAGGAACACC ATACTATTTG TCACCTGAAA TCTGTCGGAA CAAGCCTTAC
AACAATAAAA GTGACATATG GGCTCTTGGT TGTGTTCTCT ATGAGATGTG CACACTTAAA
CATGCATTTG AAGCTGGTAA CATGAAAAAT CTGGTACTGA AGATAATCTC TGGATCTTTT
CCTCCTGTTT CTCTGCATTA TTCCTACGAT CTACGTAATC TGCTTTCACA GTTATTTAAA
AGGAATCCTA GGGATAGACC ATCAGTCAAC TCCATATTGG AGAAAATCTT TATAGCCAAA
CGGGTGGAAA AATTTCTTAC ACCACAGCTT ATTGCAGACG AATTCAGTCA CAAAGTGTTC
CACAAGTTTG ACGCCCATGT TGCACCAGTA AAACGACTAG CTCAAGGACA AATCTGTGCT
TCAGCTGTGC CAGCTCAGAA AATTACCAAA CCTGCTGCAA AATATGGAGT GCCTTTAATG
ATCAAGAAAT CTGGTGATGC ATCTAAAAAA TTTCATGAGA AGAAGCCATT AGCTAAATTT
AGACAGGCCC ATCCAACTCC AATGAAGAAA ATGAATCCAG GAGAAGAAAG GAGGAAAATG
TTTGAGGAAG CTGCAAAAAA GAGAAGATTT GAATTACTTG AGAAAGAAAA ACGACAAAGA
GACCAGAAGG CTGAGCAGAT GAGAAGACTG GAAAAGGAAA GGATGGAACG GATAAACAGA
GCCAGGGAAC AAGGCTGGAG AAATGTGCTT AGTTCAGGTG GAAGTGGTGA AGTTAAGGCA
CCCTTTTTTG GCGGTGGAGG AGGTGTTGGG CCTTCCCCTG TGCCTGCCAG AGGACAGTAT
GAACACTACC ATGCTATCTT TGACCAGATG CAACAGCAAA AGGAAAATAT TAAAGTAGGT
GAGGAGAGAG AAACCAGATG GAGAGCAGAA ATACGAAGTC GGGAAGCTGT TGAAAGGCAA
AGAGGATGGG TAGCAGCAGA AAGAGCAAAA CAAGTTGAAG AATTCTGGCA ACGAAAGAGG
GAAGCTATGC AAAACAAAGC TCGTGCTGAA GGACATATGG AATACCTGGC AAGATTAAGA
CAGATCCGAC TTCAAAACTT CAATGAACGC CAGCAGATTA AAGCTAAACT TCGTGGAGAA
AAGAATGAAG CTGACGGTTC TGATGGACAA GAAGGAAGTG AAGAAGCAGA ATTGAGACGC
AAAAAAATTG AAGCACTAAA GGCCCAAGCA AACGCGCGAG CTGCAGTTCT GAAAGAGCAA
CTAGAGCGAA AGAGGAAGGA GGCATATGAA AGAGAGAAGA AAGCTTGGGA AGAACATTTG
ACAGCAAAAG GGGTAAAGAA TCCTATGGTG CCTTTTAATG TGTCAGCAGC TGGGGTTAAT
CCTGTCCCTG GGCAACAAGA ACCTGGAGGA CCTCCTGCCA AACTACAACT TCCATTGAAG
CCCAGTACAC CACTTATATC TATGACTTCA GCTTTGAAGG AAGTGGGTGT GGATGAAAAT
ACAACTGCTA TCCAGGAAAC CACAGAGGAA ACGAAGAAGG CAGATCTTGC TGTGCAAAAT
AAAAGAGAAA TACTAAGAAG ATTGAATCAA AATCTTAAAA CACAGGACGA TGTAAAAGGA
ATAAAGGAGC CTAAAGACAC CTGTGAGGCA GCTATGGCTG AAGAGAGTAA AGAAGAAGAA
TATCCACTTC TAGTAGATCG CAAGAAATGG GAGGTGGCAG CAGCTGAGTT GGTGGTTCCT
CTTGCACAGC TAACTATGGA GGAATCATTG TCGGGGACAG AGAGACAGAC CGTGGGGGAG
GTAATTAAAC TAGATGTTGG TGAGCCCCAG AGAAAAGTTT GGGGCAAAAG CCCTACTGAT
TCAGTTTTGA AGATACTGGG GGAAGCAGAG CTACAGCTTC AAACTGAATT ATTGGAGGAA
ATAATTATCA CAAATGATGT TCCTGAAGAA GGTTCTCAGC CCTTAACCGT GAAAGAGAAC
AGTGAAGTAG AAATTGCTTG TATTGGAGAG AAATCTTCAT CTCCAGTTGT TGGTGTCATA
GAATCTGAAA GGACAATACC AGAGGAGTCA CAAACATTTG ATGCCACCCA AGTGCTGTCC
AGGCCTGTTG TGCTACATGA GCTGTATGAT TTGGAAGCAG AAATGTTGGA AGAAACTGAA
AAAAATAAAA AGTGCAAAAG TGACCAACTT CTCATCACTG TTCATGATGT GTGGGTTAAA
GAAAGGGAAA CAATAACGGA GCATGAGCCA CTGGAAGATA CTGCCTGTCA GAAAGATGGT
GGTGGTGATG AAGCAGCTTT GGAGAAGGAA ATGCCGCAAA ATGTGCAACC GCGTAATGAA
GTTTCTGCTG GTCATGCTTA CACTTGTCTC AGTGACTCTA TGCAACCTGA ACCCTTTTTC
CAGAAGGTGG CACAGCCACA AGCCATACCA GCAGCCTCAC CAGTTCTGTC AGCTCAGTCT
TCACTGGAAG AGCCTTTTCC ACCTCGTTCA CGTTCTGTAT CACCAGCAAA AAGTAAAGGC
AAAAGTTCAT TATTGATTGG GCTCTCTACT GGCCTGTTTG ATGCAAACAA TCCAAAGATG
TTAAGAACAT GTTCACTCCC AGATCTTTCC AAGTTGTACA GAACACTAAT TGACGTTCCC
ATTGTAGCAG ATGTACAACA TCAAGACAAT CTTGAAATAG AGGATATGGA AGATGAGCAT
GTCAAAGAAG GGCATTCTGA TTCTGAAGAC ATTATGTTTG GTGAGGCAGA TACAGACTTG
CGGGCTCTTC AGGCCTCGAT GGAACAGTTA CTTAGGGAGC AGCCTAGTGA GGAATTTAGT
GAAGAGGAGT TGTCTACCTT AAAGGCAGAT ACTGCAGCAC GCATAACAAA TGGTACAGAG
TTGGATGATG AGGATGACAA CAACCCCAGC AGTGAAAGTG TACTTAATGA AGAATGGCAA
TCAGACAACA GTGATGGGGA TATTGCCAGT GAATGTGAAG CATATGACAG TGTCTTCAGC
CATTTGGAAG AATTGAGATA CAATCTGGAG CGGGAAATAG GCTTTGATAA ATTCATTGAA
GTTTATGATA AAATAAAGGC AATACATGAA GATGAAGATG AGAATATTGA TGTTTGTTCA
ACAATAGTTC AGAATATTCT GGGAAATGAA TATAAACATC TGTATGCCAA GATTCTTCAT
TTAGTGATGG CAGATGGAGC CTATCAGGAG GATAATGATG AATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OCh375629 Clone ID Related Accession (Same CDS sequence) XM_027829318.1 Accession Version XM_027829318.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3606bp)
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 1548086400000 Organism Chelonia mydas(Green sea turtle) Product serine/threonine-protein kinase Nek1 isoform X8 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006661173.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Chelonia mydas Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.1 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
3601ATGGATTGGT TTGTACAGAT TTGTTTAGCA CTAAAACATG TACATGACAG AAAAATTTTG
CATCGAGATA TAAAGTCACA GAATATATTT TTAACCAAAG ATGGAACAAT ACAACTGGGA
GACTTTGGAA TAGCTAGAGT TCTTAACAGT ACTGTAGAGC TGGCTCGCAC TTGCATAGGA
ACACCATACT ATTTGTCACC TGAAATCTGT CGGAACAAGC CTTACAACAA TAAAAGTGAC
ATATGGGCTC TTGGTTGTGT TCTCTATGAG ATGTGCACAC TTAAACATGC ATTTGAAGCT
GGTAACATGA AAAATCTGGT ACTGAAGATA ATCTCTGGAT CTTTTCCTCC TGTTTCTCTG
CATTATTCCT ACGATCTACG TAATCTGCTT TCACAGTTAT TTAAAAGGAA TCCTAGGGAT
AGACCATCAG TCAACTCCAT ATTGGAGAAA ATCTTTATAG CCAAACGGGT GGAAAAATTT
CTTACACCAC AGCTTATTGC AGACGAATTC AGTCACAAAG TGTTCCACAA GTTTGACGCC
CATGTTGCAC CAGTAAAACG ACTAGCTCAA GGACAAATCT GTGCTTCAGC TGTGCCAGCT
CAGAAAATTA CCAAACCTGC TGCAAAATAT GGAGTGCCTT TAATGATCAA GAAATCTGGT
GATGCATCTA AAAAATTTCA TGAGAAGAAG CCATTAGCTA AATTTAGACA GGCCCATCCA
ACTCCAATGA AGAAAATGAA TCCAGGAGAA GAAAGGAGGA AAATGTTTGA GGAAGCTGCA
AAAAAGAGAA GATTTGAATT ACTTGAGAAA GAAAAACGAC AAAGAGACCA GAAGGCTGAG
CAGATGAGAA GACTGGAAAA GGAAAGGATG GAACGGATAA ACAGAGCCAG GGAACAAGGC
TGGAGAAATG TGCTTAGTTC AGGTGGAAGT GGTGAAGTTA AGGCACCCTT TTTTGGCGGT
GGAGGAGGTG TTGGGCCTTC CCCTGTGCCT GCCAGAGGAC AGTATGAACA CTACCATGCT
ATCTTTGACC AGATGCAACA GCAAAAGGAA AATATTAAAG TAGGTGAGGA GAGAGAAACC
AGATGGAGAG CAGAAATACG AAGTCGGGAA GCTGTTGAAA GAGGAGTTCC ACCTGGAGTA
CGTCCAGGAT TTCCTAATGG GCCTGATGGT CATCACCATT TACCAGATGC TGATGCAATT
AGGAAAAAAA TCAAAAGATT GAAGGAGGTG TCTAAACAAG CCAATGCAAA CAGGCAAAGA
GGATGGGTAG CAGCAGAAAG AGCAAAACAA GTTGAAGAAT TCTGGCAACG AAAGAGGGAA
GCTATGCAAA ACAAAGCTCG TGCTGAAGGA CATATGGGTA CACTGCAAAA CCTGGCAGCT
ATCTATGGAG GCAGGCCCAT TTCTGCAAGA GGAAGGAAAT CCAGAAACAA GGAGGAAGAG
GAATACCTGG CAAGATTAAG ACAGATCCGA CTTCAAAACT TCAATGAACG CCAGCAGATT
AAAGCTAAAC TTCGTGGAGA AAAGAATGAA GCTGACGGTT CTGATGGACA AGAAGGAAGT
GAAGAAGCAG AATTGAGACG CAAAAAAATT GAAGCACTAA AGGCCCAAGC AAACGCGCGA
GCTGCAGTTC TGAAAGAGCA ACTAGAGCGA AAGAGGAAGG AGGCATATGA AAGAGAGAAG
AAAGCTTGGG AAGAACATTT GACAGCAAAA GGGGTAAAGA ATCCTATGGT GCCTTTTAAT
GTGTCAGCAG CTGGGGTTAA TCCTGTCCCT GGGCAACAAG AACCTGGAGG ACCTCCTGCC
AAACTACAAC TTCCATTGAA GCCCAGTACA CCACTTATAT CTATGACTTC AGCTTTGAAG
GAAGTGGGTG TGGATGAAAA TACAACTGCT ATCCAGGAAA CCACAGAGGA AACGAAGAAG
GCAGATCTTG CTGTGCAAAA TAAAAGAGAA ATACTAAGAA GATTGAATCA AAATCTTAAA
ACACAGGACG ATGTAAAAGG AATAAAGGAG CCTAAAGACA CCTGTGAGGC AGCTATGGCT
GAAGAGAGTA AAGAAGAAGA ATATCCACTT CTAGTAGATC GCAAGAAATG GGAGGTGGCA
GCAGCTGAGT TGGTGGTTCC TCTTGCACAG CTAACTATGG AGGAATCATT GTCGGGGACA
GAGAGACAGA CCGTGGGGGA GGTAATTAAA CTAGATGTTG GTGAGCCCCA GAGAAAAGTT
TGGGGCAAAA GCCCTACTGA TTCAGTTTTG AAGATACTGG GGGAAGCAGA GCTACAGCTT
CAAACTGAAT TATTGGAGGA AATAATTATC ACAAATGATG TTCCTGAAGA AGGTTCTCAG
CCCTTAACCG TGAAAGAGAA CAGTGAAGTA GAAATTGCTT GTATTGGAGA GAAATCTTCA
TCTCCAGTTG TTGGTGTCAT AGAATCTGAA AGGACAATAC CAGAGGAGTC ACAAACATTT
GATGCCACCC AAGTGCTGTC CAGGCCTGTT GTGCTACATG AGCTGTATGA TTTGGAAGCA
GAAATGTTGG AAGAAACTGA AAAAAATAAA AAGTGCAAAA GTGACCAACT TCTCATCACT
GTTCATGATG TGTGGGTTAA AGAAAGGGAA ACAATAACGG AGCATGAGCC ACTGGAAGAT
ACTGCCTGTC AGAAAGATGG TGGTGGTGAT GAAGCAGCTT TGGAGAAGGA AATGCCGCAA
AATGTGCAAC CGCGTAATGA AGTTTCTGCT GGTCATGCTT ACACTTGTCT CAGTGACTCT
ATGCAACCTG AACCCTTTTT CCAGAAGGTG GCACAGCCAC AAGCCATACC AGCAGCCTCA
CCAGTTCTGT CAGCTCAGTC TTCACTGGAA GAGCCTTTTC CACCTCGTTC ACGTTCTGTA
TCACCAGCAA AAAGTAAAGG CAAAAGTTCA TTATTGATTG GGCTCTCTAC TGGCCTGTTT
GATGCAAACA ATCCAAAGAT GTTAAGAACA TGTTCACTCC CAGATCTTTC CAAGTTGTAC
AGAACACTAA TTGACGTTCC CATTGTAGCA GATGTACAAC ATCAAGACAA TCTTGAAATA
GAGGATATGG AAGATGAGCA TGTCAAAGAA GGGCATTCTG ATTCTGAAGA CATTATGTTT
GGTGAGGCAG ATACAGACTT GCGGGCTCTT CAGGCCTCGA TGGAACAGTT ACTTAGGGAG
CAGCCTAGTG AGGAATTTAG TGAAGAGGAG TTGTCTACCT TAAAGGCAGA TACTGCAGCA
CGCATAACAA ATGGTACAGA GTTGGATGAT GAGGATGACA ACAACCCCAG CAGTGAAAGT
GTACTTAATG AAGAATGGCA ATCAGACAAC AGTGATGGGG ATATTGCCAG TGAATGTGAA
GCATATGACA GTGTCTTCAG CCATTTGGAA GAATTGAGAT ACAATCTGGA GCGGGAAATA
GGCTTTGATA AATTCATTGA AGTTTATGAT AAAATAAAGG CAATACATGA AGATGAAGAT
GAGAATATTG ATGTTTGTTC AACAATAGTT CAGAATATTC TGGGAAATGA ATATAAACAT
CTGTATGCCA AGATTCTTCA TTTAGTGATG GCAGATGGAG CCTATCAGGA GGATAATGAT
GAATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_027685119.1 CDS 321..3926 Translation
Target ORF information:
RefSeq Version XM_027829318.1 Organism Chelonia mydas(Green sea turtle) Definition Chelonia mydas NIMA related kinase 1 (NEK1), transcript variant X10, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_027829318.1
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
3601ATGGATTGGT TTGTACAGAT TTGTTTAGCA CTAAAACATG TACATGACAG AAAAATTTTG
CATCGAGATA TAAAGTCACA GAATATATTT TTAACCAAAG ATGGAACAAT ACAACTGGGA
GACTTTGGAA TAGCTAGAGT TCTTAACAGT ACTGTAGAGC TGGCTCGCAC TTGCATAGGA
ACACCATACT ATTTGTCACC TGAAATCTGT CGGAACAAGC CTTACAACAA TAAAAGTGAC
ATATGGGCTC TTGGTTGTGT TCTCTATGAG ATGTGCACAC TTAAACATGC ATTTGAAGCT
GGTAACATGA AAAATCTGGT ACTGAAGATA ATCTCTGGAT CTTTTCCTCC TGTTTCTCTG
CATTATTCCT ACGATCTACG TAATCTGCTT TCACAGTTAT TTAAAAGGAA TCCTAGGGAT
AGACCATCAG TCAACTCCAT ATTGGAGAAA ATCTTTATAG CCAAACGGGT GGAAAAATTT
CTTACACCAC AGCTTATTGC AGACGAATTC AGTCACAAAG TGTTCCACAA GTTTGACGCC
CATGTTGCAC CAGTAAAACG ACTAGCTCAA GGACAAATCT GTGCTTCAGC TGTGCCAGCT
CAGAAAATTA CCAAACCTGC TGCAAAATAT GGAGTGCCTT TAATGATCAA GAAATCTGGT
GATGCATCTA AAAAATTTCA TGAGAAGAAG CCATTAGCTA AATTTAGACA GGCCCATCCA
ACTCCAATGA AGAAAATGAA TCCAGGAGAA GAAAGGAGGA AAATGTTTGA GGAAGCTGCA
AAAAAGAGAA GATTTGAATT ACTTGAGAAA GAAAAACGAC AAAGAGACCA GAAGGCTGAG
CAGATGAGAA GACTGGAAAA GGAAAGGATG GAACGGATAA ACAGAGCCAG GGAACAAGGC
TGGAGAAATG TGCTTAGTTC AGGTGGAAGT GGTGAAGTTA AGGCACCCTT TTTTGGCGGT
GGAGGAGGTG TTGGGCCTTC CCCTGTGCCT GCCAGAGGAC AGTATGAACA CTACCATGCT
ATCTTTGACC AGATGCAACA GCAAAAGGAA AATATTAAAG TAGGTGAGGA GAGAGAAACC
AGATGGAGAG CAGAAATACG AAGTCGGGAA GCTGTTGAAA GAGGAGTTCC ACCTGGAGTA
CGTCCAGGAT TTCCTAATGG GCCTGATGGT CATCACCATT TACCAGATGC TGATGCAATT
AGGAAAAAAA TCAAAAGATT GAAGGAGGTG TCTAAACAAG CCAATGCAAA CAGGCAAAGA
GGATGGGTAG CAGCAGAAAG AGCAAAACAA GTTGAAGAAT TCTGGCAACG AAAGAGGGAA
GCTATGCAAA ACAAAGCTCG TGCTGAAGGA CATATGGGTA CACTGCAAAA CCTGGCAGCT
ATCTATGGAG GCAGGCCCAT TTCTGCAAGA GGAAGGAAAT CCAGAAACAA GGAGGAAGAG
GAATACCTGG CAAGATTAAG ACAGATCCGA CTTCAAAACT TCAATGAACG CCAGCAGATT
AAAGCTAAAC TTCGTGGAGA AAAGAATGAA GCTGACGGTT CTGATGGACA AGAAGGAAGT
GAAGAAGCAG AATTGAGACG CAAAAAAATT GAAGCACTAA AGGCCCAAGC AAACGCGCGA
GCTGCAGTTC TGAAAGAGCA ACTAGAGCGA AAGAGGAAGG AGGCATATGA AAGAGAGAAG
AAAGCTTGGG AAGAACATTT GACAGCAAAA GGGGTAAAGA ATCCTATGGT GCCTTTTAAT
GTGTCAGCAG CTGGGGTTAA TCCTGTCCCT GGGCAACAAG AACCTGGAGG ACCTCCTGCC
AAACTACAAC TTCCATTGAA GCCCAGTACA CCACTTATAT CTATGACTTC AGCTTTGAAG
GAAGTGGGTG TGGATGAAAA TACAACTGCT ATCCAGGAAA CCACAGAGGA AACGAAGAAG
GCAGATCTTG CTGTGCAAAA TAAAAGAGAA ATACTAAGAA GATTGAATCA AAATCTTAAA
ACACAGGACG ATGTAAAAGG AATAAAGGAG CCTAAAGACA CCTGTGAGGC AGCTATGGCT
GAAGAGAGTA AAGAAGAAGA ATATCCACTT CTAGTAGATC GCAAGAAATG GGAGGTGGCA
GCAGCTGAGT TGGTGGTTCC TCTTGCACAG CTAACTATGG AGGAATCATT GTCGGGGACA
GAGAGACAGA CCGTGGGGGA GGTAATTAAA CTAGATGTTG GTGAGCCCCA GAGAAAAGTT
TGGGGCAAAA GCCCTACTGA TTCAGTTTTG AAGATACTGG GGGAAGCAGA GCTACAGCTT
CAAACTGAAT TATTGGAGGA AATAATTATC ACAAATGATG TTCCTGAAGA AGGTTCTCAG
CCCTTAACCG TGAAAGAGAA CAGTGAAGTA GAAATTGCTT GTATTGGAGA GAAATCTTCA
TCTCCAGTTG TTGGTGTCAT AGAATCTGAA AGGACAATAC CAGAGGAGTC ACAAACATTT
GATGCCACCC AAGTGCTGTC CAGGCCTGTT GTGCTACATG AGCTGTATGA TTTGGAAGCA
GAAATGTTGG AAGAAACTGA AAAAAATAAA AAGTGCAAAA GTGACCAACT TCTCATCACT
GTTCATGATG TGTGGGTTAA AGAAAGGGAA ACAATAACGG AGCATGAGCC ACTGGAAGAT
ACTGCCTGTC AGAAAGATGG TGGTGGTGAT GAAGCAGCTT TGGAGAAGGA AATGCCGCAA
AATGTGCAAC CGCGTAATGA AGTTTCTGCT GGTCATGCTT ACACTTGTCT CAGTGACTCT
ATGCAACCTG AACCCTTTTT CCAGAAGGTG GCACAGCCAC AAGCCATACC AGCAGCCTCA
CCAGTTCTGT CAGCTCAGTC TTCACTGGAA GAGCCTTTTC CACCTCGTTC ACGTTCTGTA
TCACCAGCAA AAAGTAAAGG CAAAAGTTCA TTATTGATTG GGCTCTCTAC TGGCCTGTTT
GATGCAAACA ATCCAAAGAT GTTAAGAACA TGTTCACTCC CAGATCTTTC CAAGTTGTAC
AGAACACTAA TTGACGTTCC CATTGTAGCA GATGTACAAC ATCAAGACAA TCTTGAAATA
GAGGATATGG AAGATGAGCA TGTCAAAGAA GGGCATTCTG ATTCTGAAGA CATTATGTTT
GGTGAGGCAG ATACAGACTT GCGGGCTCTT CAGGCCTCGA TGGAACAGTT ACTTAGGGAG
CAGCCTAGTG AGGAATTTAG TGAAGAGGAG TTGTCTACCT TAAAGGCAGA TACTGCAGCA
CGCATAACAA ATGGTACAGA GTTGGATGAT GAGGATGACA ACAACCCCAG CAGTGAAAGT
GTACTTAATG AAGAATGGCA ATCAGACAAC AGTGATGGGG ATATTGCCAG TGAATGTGAA
GCATATGACA GTGTCTTCAG CCATTTGGAA GAATTGAGAT ACAATCTGGA GCGGGAAATA
GGCTTTGATA AATTCATTGA AGTTTATGAT AAAATAAAGG CAATACATGA AGATGAAGAT
GAGAATATTG ATGTTTGTTC AACAATAGTT CAGAATATTC TGGGAAATGA ATATAAACAT
CTGTATGCCA AGATTCTTCA TTTAGTGATG GCAGATGGAG CCTATCAGGA GGATAATGAT
GAATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OCh375630 Clone ID Related Accession (Same CDS sequence) XM_027829319.1 Accession Version XM_027829319.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3522bp)
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 1548086400000 Organism Chelonia mydas(Green sea turtle) Product serine/threonine-protein kinase Nek1 isoform X9 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006661173.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Chelonia mydas Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.1 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
3481ATGGATTGGT TTGTACAGAT TTGTTTAGCA CTAAAACATG TACATGACAG AAAAATTTTG
CATCGAGATA TAAAGTCACA GAATATATTT TTAACCAAAG ATGGAACAAT ACAACTGGGA
GACTTTGGAA TAGCTAGAGT TCTTAACAGT ACTGTAGAGC TGGCTCGCAC TTGCATAGGA
ACACCATACT ATTTGTCACC TGAAATCTGT CGGAACAAGC CTTACAACAA TAAAAGTGAC
ATATGGGCTC TTGGTTGTGT TCTCTATGAG ATGTGCACAC TTAAACATGC ATTTGAAGCT
GGTAACATGA AAAATCTGGT ACTGAAGATA ATCTCTGGAT CTTTTCCTCC TGTTTCTCTG
CATTATTCCT ACGATCTACG TAATCTGCTT TCACAGTTAT TTAAAAGGAA TCCTAGGGAT
AGACCATCAG TCAACTCCAT ATTGGAGAAA ATCTTTATAG CCAAACGGGT GGAAAAATTT
CTTACACCAC AGCTTATTGC AGACGAATTC AGTCACAAAG TGTTCCACAA GTTTGACGCC
CATGTTGCAC CAGTAAAACG ACTAGCTCAA GGACAAATCT GTGCTTCAGC TGTGCCAGCT
CAGAAAATTA CCAAACCTGC TGCAAAATAT GGAGTGCCTT TAATGATCAA GAAATCTGGT
GATGCATCTA AAAAATTTCA TGAGAAGAAG CCATTAGCTA AATTTAGACA GGCCCATCCA
ACTCCAATGA AGAAAATGAA TCCAGGAGAA GAAAGGAGGA AAATGTTTGA GGAAGCTGCA
AAAAAGAGAA GATTTGAATT ACTTGAGAAA GAAAAACGAC AAAGAGACCA GAAGGCTGAG
CAGATGAGAA GACTGGAAAA GGAAAGGATG GAACGGATAA ACAGAGCCAG GGAACAAGGC
TGGAGAAATG TGCTTAGTTC AGGTGGAAGT GGTGAAGTTA AGGCACCCTT TTTTGGCGGT
GGAGGAGGTG TTGGGCCTTC CCCTGTGCCT GCCAGAGGAC AGTATGAACA CTACCATGCT
ATCTTTGACC AGATGCAACA GCAAAAGGAA AATATTAAAG TAGGTGAGGA GAGAGAAACC
AGATGGAGAG CAGAAATACG AAGTCGGGAA GCTGTTGAAA GAGGAGTTCC ACCTGGAGTA
CGTCCAGGAT TTCCTAATGG GCCTGATGGT CATCACCATT TACCAGATGC TGATGCAATT
AGGAAAAAAA TCAAAAGATT GAAGGAGGTG TCTAAACAAG CCAATGCAAA CAGGCAAAGA
GGATGGGTAG CAGCAGAAAG AGCAAAACAA GTTGAAGAAT TCTGGCAACG AAAGAGGGAA
GCTATGCAAA ACAAAGCTCG TGCTGAAGGA CATATGGAAT ACCTGGCAAG ATTAAGACAG
ATCCGACTTC AAAACTTCAA TGAACGCCAG CAGATTAAAG CTAAACTTCG TGGAGAAAAG
AATGAAGCTG ACGGTTCTGA TGGACAAGAA GGAAGTGAAG AAGCAGAATT GAGACGCAAA
AAAATTGAAG CACTAAAGGC CCAAGCAAAC GCGCGAGCTG CAGTTCTGAA AGAGCAACTA
GAGCGAAAGA GGAAGGAGGC ATATGAAAGA GAGAAGAAAG CTTGGGAAGA ACATTTGACA
GCAAAAGGGG TAAAGAATCC TATGGTGCCT TTTAATGTGT CAGCAGCTGG GGTTAATCCT
GTCCCTGGGC AACAAGAACC TGGAGGACCT CCTGCCAAAC TACAACTTCC ATTGAAGCCC
AGTACACCAC TTATATCTAT GACTTCAGCT TTGAAGGAAG TGGGTGTGGA TGAAAATACA
ACTGCTATCC AGGAAACCAC AGAGGAAACG AAGAAGGCAG ATCTTGCTGT GCAAAATAAA
AGAGAAATAC TAAGAAGATT GAATCAAAAT CTTAAAACAC AGGACGATGT AAAAGGAATA
AAGGAGCCTA AAGACACCTG TGAGGCAGCT ATGGCTGAAG AGAGTAAAGA AGAAGAATAT
CCACTTCTAG TAGATCGCAA GAAATGGGAG GTGGCAGCAG CTGAGTTGGT GGTTCCTCTT
GCACAGCTAA CTATGGAGGA ATCATTGTCG GGGACAGAGA GACAGACCGT GGGGGAGGTA
ATTAAACTAG ATGTTGGTGA GCCCCAGAGA AAAGTTTGGG GCAAAAGCCC TACTGATTCA
GTTTTGAAGA TACTGGGGGA AGCAGAGCTA CAGCTTCAAA CTGAATTATT GGAGGAAATA
ATTATCACAA ATGATGTTCC TGAAGAAGGT TCTCAGCCCT TAACCGTGAA AGAGAACAGT
GAAGTAGAAA TTGCTTGTAT TGGAGAGAAA TCTTCATCTC CAGTTGTTGG TGTCATAGAA
TCTGAAAGGA CAATACCAGA GGAGTCACAA ACATTTGATG CCACCCAAGT GCTGTCCAGG
CCTGTTGTGC TACATGAGCT GTATGATTTG GAAGCAGAAA TGTTGGAAGA AACTGAAAAA
AATAAAAAGT GCAAAAGTGA CCAACTTCTC ATCACTGTTC ATGATGTGTG GGTTAAAGAA
AGGGAAACAA TAACGGAGCA TGAGCCACTG GAAGATACTG CCTGTCAGAA AGATGGTGGT
GGTGATGAAG CAGCTTTGGA GAAGGAAATG CCGCAAAATG TGCAACCGCG TAATGAAGTT
TCTGCTGGTC ATGCTTACAC TTGTCTCAGT GACTCTATGC AACCTGAACC CTTTTTCCAG
AAGGTGGCAC AGCCACAAGC CATACCAGCA GCCTCACCAG TTCTGTCAGC TCAGTCTTCA
CTGGAAGAGC CTTTTCCACC TCGTTCACGT TCTGTATCAC CAGCAAAAAG TAAAGGCAAA
AGTTCATTAT TGATTGGGCT CTCTACTGGC CTGTTTGATG CAAACAATCC AAAGATGTTA
AGAACATGTT CACTCCCAGA TCTTTCCAAG TTGTACAGAA CACTAATTGA CGTTCCCATT
GTAGCAGATG TACAACATCA AGACAATCTT GAAATAGAGG ATATGGAAGA TGAGCATGTC
AAAGAAGGGC ATTCTGATTC TGAAGACATT ATGTTTGGTG AGGCAGATAC AGACTTGCGG
GCTCTTCAGG CCTCGATGGA ACAGTTACTT AGGGAGCAGC CTAGTGAGGA ATTTAGTGAA
GAGGAGTTGT CTACCTTAAA GGCAGATACT GCAGCACGCA TAACAAATGG TACAGAGTTG
GATGATGAGG ATGACAACAA CCCCAGCAGT GAAAGTGTAC TTAATGAAGA ATGGCAATCA
GACAACAGTG ATGGGGATAT TGCCAGTGAA TGTGAAGCAT ATGACAGTGT CTTCAGCCAT
TTGGAAGAAT TGAGATACAA TCTGGAGCGG GAAATAGGCT TTGATAAATT CATTGAAGTT
TATGATAAAA TAAAGGCAAT ACATGAAGAT GAAGATGAGA ATATTGATGT TTGTTCAACA
ATAGTTCAGA ATATTCTGGG AAATGAATAT AAACATCTGT ATGCCAAGAT TCTTCATTTA
GTGATGGCAG ATGGAGCCTA TCAGGAGGAT AATGATGAAT AAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_027685120.1 CDS 321..3842 Translation
Target ORF information:
RefSeq Version XM_027829319.1 Organism Chelonia mydas(Green sea turtle) Definition Chelonia mydas NIMA related kinase 1 (NEK1), transcript variant X11, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_027829319.1
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
3481ATGGATTGGT TTGTACAGAT TTGTTTAGCA CTAAAACATG TACATGACAG AAAAATTTTG
CATCGAGATA TAAAGTCACA GAATATATTT TTAACCAAAG ATGGAACAAT ACAACTGGGA
GACTTTGGAA TAGCTAGAGT TCTTAACAGT ACTGTAGAGC TGGCTCGCAC TTGCATAGGA
ACACCATACT ATTTGTCACC TGAAATCTGT CGGAACAAGC CTTACAACAA TAAAAGTGAC
ATATGGGCTC TTGGTTGTGT TCTCTATGAG ATGTGCACAC TTAAACATGC ATTTGAAGCT
GGTAACATGA AAAATCTGGT ACTGAAGATA ATCTCTGGAT CTTTTCCTCC TGTTTCTCTG
CATTATTCCT ACGATCTACG TAATCTGCTT TCACAGTTAT TTAAAAGGAA TCCTAGGGAT
AGACCATCAG TCAACTCCAT ATTGGAGAAA ATCTTTATAG CCAAACGGGT GGAAAAATTT
CTTACACCAC AGCTTATTGC AGACGAATTC AGTCACAAAG TGTTCCACAA GTTTGACGCC
CATGTTGCAC CAGTAAAACG ACTAGCTCAA GGACAAATCT GTGCTTCAGC TGTGCCAGCT
CAGAAAATTA CCAAACCTGC TGCAAAATAT GGAGTGCCTT TAATGATCAA GAAATCTGGT
GATGCATCTA AAAAATTTCA TGAGAAGAAG CCATTAGCTA AATTTAGACA GGCCCATCCA
ACTCCAATGA AGAAAATGAA TCCAGGAGAA GAAAGGAGGA AAATGTTTGA GGAAGCTGCA
AAAAAGAGAA GATTTGAATT ACTTGAGAAA GAAAAACGAC AAAGAGACCA GAAGGCTGAG
CAGATGAGAA GACTGGAAAA GGAAAGGATG GAACGGATAA ACAGAGCCAG GGAACAAGGC
TGGAGAAATG TGCTTAGTTC AGGTGGAAGT GGTGAAGTTA AGGCACCCTT TTTTGGCGGT
GGAGGAGGTG TTGGGCCTTC CCCTGTGCCT GCCAGAGGAC AGTATGAACA CTACCATGCT
ATCTTTGACC AGATGCAACA GCAAAAGGAA AATATTAAAG TAGGTGAGGA GAGAGAAACC
AGATGGAGAG CAGAAATACG AAGTCGGGAA GCTGTTGAAA GAGGAGTTCC ACCTGGAGTA
CGTCCAGGAT TTCCTAATGG GCCTGATGGT CATCACCATT TACCAGATGC TGATGCAATT
AGGAAAAAAA TCAAAAGATT GAAGGAGGTG TCTAAACAAG CCAATGCAAA CAGGCAAAGA
GGATGGGTAG CAGCAGAAAG AGCAAAACAA GTTGAAGAAT TCTGGCAACG AAAGAGGGAA
GCTATGCAAA ACAAAGCTCG TGCTGAAGGA CATATGGAAT ACCTGGCAAG ATTAAGACAG
ATCCGACTTC AAAACTTCAA TGAACGCCAG CAGATTAAAG CTAAACTTCG TGGAGAAAAG
AATGAAGCTG ACGGTTCTGA TGGACAAGAA GGAAGTGAAG AAGCAGAATT GAGACGCAAA
AAAATTGAAG CACTAAAGGC CCAAGCAAAC GCGCGAGCTG CAGTTCTGAA AGAGCAACTA
GAGCGAAAGA GGAAGGAGGC ATATGAAAGA GAGAAGAAAG CTTGGGAAGA ACATTTGACA
GCAAAAGGGG TAAAGAATCC TATGGTGCCT TTTAATGTGT CAGCAGCTGG GGTTAATCCT
GTCCCTGGGC AACAAGAACC TGGAGGACCT CCTGCCAAAC TACAACTTCC ATTGAAGCCC
AGTACACCAC TTATATCTAT GACTTCAGCT TTGAAGGAAG TGGGTGTGGA TGAAAATACA
ACTGCTATCC AGGAAACCAC AGAGGAAACG AAGAAGGCAG ATCTTGCTGT GCAAAATAAA
AGAGAAATAC TAAGAAGATT GAATCAAAAT CTTAAAACAC AGGACGATGT AAAAGGAATA
AAGGAGCCTA AAGACACCTG TGAGGCAGCT ATGGCTGAAG AGAGTAAAGA AGAAGAATAT
CCACTTCTAG TAGATCGCAA GAAATGGGAG GTGGCAGCAG CTGAGTTGGT GGTTCCTCTT
GCACAGCTAA CTATGGAGGA ATCATTGTCG GGGACAGAGA GACAGACCGT GGGGGAGGTA
ATTAAACTAG ATGTTGGTGA GCCCCAGAGA AAAGTTTGGG GCAAAAGCCC TACTGATTCA
GTTTTGAAGA TACTGGGGGA AGCAGAGCTA CAGCTTCAAA CTGAATTATT GGAGGAAATA
ATTATCACAA ATGATGTTCC TGAAGAAGGT TCTCAGCCCT TAACCGTGAA AGAGAACAGT
GAAGTAGAAA TTGCTTGTAT TGGAGAGAAA TCTTCATCTC CAGTTGTTGG TGTCATAGAA
TCTGAAAGGA CAATACCAGA GGAGTCACAA ACATTTGATG CCACCCAAGT GCTGTCCAGG
CCTGTTGTGC TACATGAGCT GTATGATTTG GAAGCAGAAA TGTTGGAAGA AACTGAAAAA
AATAAAAAGT GCAAAAGTGA CCAACTTCTC ATCACTGTTC ATGATGTGTG GGTTAAAGAA
AGGGAAACAA TAACGGAGCA TGAGCCACTG GAAGATACTG CCTGTCAGAA AGATGGTGGT
GGTGATGAAG CAGCTTTGGA GAAGGAAATG CCGCAAAATG TGCAACCGCG TAATGAAGTT
TCTGCTGGTC ATGCTTACAC TTGTCTCAGT GACTCTATGC AACCTGAACC CTTTTTCCAG
AAGGTGGCAC AGCCACAAGC CATACCAGCA GCCTCACCAG TTCTGTCAGC TCAGTCTTCA
CTGGAAGAGC CTTTTCCACC TCGTTCACGT TCTGTATCAC CAGCAAAAAG TAAAGGCAAA
AGTTCATTAT TGATTGGGCT CTCTACTGGC CTGTTTGATG CAAACAATCC AAAGATGTTA
AGAACATGTT CACTCCCAGA TCTTTCCAAG TTGTACAGAA CACTAATTGA CGTTCCCATT
GTAGCAGATG TACAACATCA AGACAATCTT GAAATAGAGG ATATGGAAGA TGAGCATGTC
AAAGAAGGGC ATTCTGATTC TGAAGACATT ATGTTTGGTG AGGCAGATAC AGACTTGCGG
GCTCTTCAGG CCTCGATGGA ACAGTTACTT AGGGAGCAGC CTAGTGAGGA ATTTAGTGAA
GAGGAGTTGT CTACCTTAAA GGCAGATACT GCAGCACGCA TAACAAATGG TACAGAGTTG
GATGATGAGG ATGACAACAA CCCCAGCAGT GAAAGTGTAC TTAATGAAGA ATGGCAATCA
GACAACAGTG ATGGGGATAT TGCCAGTGAA TGTGAAGCAT ATGACAGTGT CTTCAGCCAT
TTGGAAGAAT TGAGATACAA TCTGGAGCGG GAAATAGGCT TTGATAAATT CATTGAAGTT
TATGATAAAA TAAAGGCAAT ACATGAAGAT GAAGATGAGA ATATTGATGT TTGTTCAACA
ATAGTTCAGA ATATTCTGGG AAATGAATAT AAACATCTGT ATGCCAAGAT TCTTCATTTA
GTGATGGCAG ATGGAGCCTA TCAGGAGGAT AATGATGAAT AAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OCh375631 Clone ID Related Accession (Same CDS sequence) XM_027829320.1 Accession Version XM_027829320.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3474bp)
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 1548086400000 Organism Chelonia mydas(Green sea turtle) Product serine/threonine-protein kinase Nek1 isoform X10 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006661173.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Chelonia mydas Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.1 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
3421ATGGATTGGT TTGTACAGAT TTGTTTAGCA CTAAAACATG TACATGACAG AAAAATTTTG
CATCGAGATA TAAAGTCACA GAATATATTT TTAACCAAAG ATGGAACAAT ACAACTGGGA
GACTTTGGAA TAGCTAGAGT TCTTAACAGT ACTGTAGAGC TGGCTCGCAC TTGCATAGGA
ACACCATACT ATTTGTCACC TGAAATCTGT CGGAACAAGC CTTACAACAA TAAAAGTGAC
ATATGGGCTC TTGGTTGTGT TCTCTATGAG ATGTGCACAC TTAAACATGC ATTTGAAGCT
GGTAACATGA AAAATCTGGT ACTGAAGATA ATCTCTGGAT CTTTTCCTCC TGTTTCTCTG
CATTATTCCT ACGATCTACG TAATCTGCTT TCACAGTTAT TTAAAAGGAA TCCTAGGGAT
AGACCATCAG TCAACTCCAT ATTGGAGAAA ATCTTTATAG CCAAACGGGT GGAAAAATTT
CTTACACCAC AGCTTATTGC AGACGAATTC AGTCACAAAG TGTTCCACAA GTTTGACGCC
CATGTTGCAC CAGTAAAACG ACTAGCTCAA GGACAAATCT GTGCTTCAGC TGTGCCAGCT
CAGAAAATTA CCAAACCTGC TGCAAAATAT GGAGTGCCTT TAATGATCAA GAAATCTGGT
GATGCATCTA AAAAATTTCA TGAGAAGAAG CCATTAGCTA AATTTAGACA GGCCCATCCA
ACTCCAATGA AGAAAATGAA TCCAGGAGAA GAAAGGAGGA AAATGTTTGA GGAAGCTGCA
AAAAAGAGAA GATTTGAATT ACTTGAGAAA GAAAAACGAC AAAGAGACCA GAAGGCTGAG
CAGATGAGAA GACTGGAAAA GGAAAGGATG GAACGGATAA ACAGAGCCAG GGAACAAGGC
TGGAGAAATG TGCTTAGTTC AGGTGGAAGT GGTGAAGTTA AGGCACCCTT TTTTGGCGGT
GGAGGAGGTG TTGGGCCTTC CCCTGTGCCT GCCAGAGGAC AGTATGAACA CTACCATGCT
ATCTTTGACC AGATGCAACA GCAAAAGGAA AATATTAAAG TAGGTGAGGA GAGAGAAACC
AGATGGAGAG CAGAAATACG AAGTCGGGAA GCTGTTGAAA GGCAAAGAGG ATGGGTAGCA
GCAGAAAGAG CAAAACAAGT TGAAGAATTC TGGCAACGAA AGAGGGAAGC TATGCAAAAC
AAAGCTCGTG CTGAAGGACA TATGGGTACA CTGCAAAACC TGGCAGCTAT CTATGGAGGC
AGGCCCATTT CTGCAAGAGG AAGGAAATCC AGAAACAAGG AGGAAGAGGA ATACCTGGCA
AGATTAAGAC AGATCCGACT TCAAAACTTC AATGAACGCC AGCAGATTAA AGCTAAACTT
CGTGGAGAAA AGAATGAAGC TGACGGTTCT GATGGACAAG AAGGAAGTGA AGAAGCAGAA
TTGAGACGCA AAAAAATTGA AGCACTAAAG GCCCAAGCAA ACGCGCGAGC TGCAGTTCTG
AAAGAGCAAC TAGAGCGAAA GAGGAAGGAG GCATATGAAA GAGAGAAGAA AGCTTGGGAA
GAACATTTGA CAGCAAAAGG GGTAAAGAAT CCTATGGTGC CTTTTAATGT GTCAGCAGCT
GGGGTTAATC CTGTCCCTGG GCAACAAGAA CCTGGAGGAC CTCCTGCCAA ACTACAACTT
CCATTGAAGC CCAGTACACC ACTTATATCT ATGACTTCAG CTTTGAAGGA AGTGGGTGTG
GATGAAAATA CAACTGCTAT CCAGGAAACC ACAGAGGAAA CGAAGAAGGC AGATCTTGCT
GTGCAAAATA AAAGAGAAAT ACTAAGAAGA TTGAATCAAA ATCTTAAAAC ACAGGACGAT
GTAAAAGGAA TAAAGGAGCC TAAAGACACC TGTGAGGCAG CTATGGCTGA AGAGAGTAAA
GAAGAAGAAT ATCCACTTCT AGTAGATCGC AAGAAATGGG AGGTGGCAGC AGCTGAGTTG
GTGGTTCCTC TTGCACAGCT AACTATGGAG GAATCATTGT CGGGGACAGA GAGACAGACC
GTGGGGGAGG TAATTAAACT AGATGTTGGT GAGCCCCAGA GAAAAGTTTG GGGCAAAAGC
CCTACTGATT CAGTTTTGAA GATACTGGGG GAAGCAGAGC TACAGCTTCA AACTGAATTA
TTGGAGGAAA TAATTATCAC AAATGATGTT CCTGAAGAAG GTTCTCAGCC CTTAACCGTG
AAAGAGAACA GTGAAGTAGA AATTGCTTGT ATTGGAGAGA AATCTTCATC TCCAGTTGTT
GGTGTCATAG AATCTGAAAG GACAATACCA GAGGAGTCAC AAACATTTGA TGCCACCCAA
GTGCTGTCCA GGCCTGTTGT GCTACATGAG CTGTATGATT TGGAAGCAGA AATGTTGGAA
GAAACTGAAA AAAATAAAAA GTGCAAAAGT GACCAACTTC TCATCACTGT TCATGATGTG
TGGGTTAAAG AAAGGGAAAC AATAACGGAG CATGAGCCAC TGGAAGATAC TGCCTGTCAG
AAAGATGGTG GTGGTGATGA AGCAGCTTTG GAGAAGGAAA TGCCGCAAAA TGTGCAACCG
CGTAATGAAG TTTCTGCTGG TCATGCTTAC ACTTGTCTCA GTGACTCTAT GCAACCTGAA
CCCTTTTTCC AGAAGGTGGC ACAGCCACAA GCCATACCAG CAGCCTCACC AGTTCTGTCA
GCTCAGTCTT CACTGGAAGA GCCTTTTCCA CCTCGTTCAC GTTCTGTATC ACCAGCAAAA
AGTAAAGGCA AAAGTTCATT ATTGATTGGG CTCTCTACTG GCCTGTTTGA TGCAAACAAT
CCAAAGATGT TAAGAACATG TTCACTCCCA GATCTTTCCA AGTTGTACAG AACACTAATT
GACGTTCCCA TTGTAGCAGA TGTACAACAT CAAGACAATC TTGAAATAGA GGATATGGAA
GATGAGCATG TCAAAGAAGG GCATTCTGAT TCTGAAGACA TTATGTTTGG TGAGGCAGAT
ACAGACTTGC GGGCTCTTCA GGCCTCGATG GAACAGTTAC TTAGGGAGCA GCCTAGTGAG
GAATTTAGTG AAGAGGAGTT GTCTACCTTA AAGGCAGATA CTGCAGCACG CATAACAAAT
GGTACAGAGT TGGATGATGA GGATGACAAC AACCCCAGCA GTGAAAGTGT ACTTAATGAA
GAATGGCAAT CAGACAACAG TGATGGGGAT ATTGCCAGTG AATGTGAAGC ATATGACAGT
GTCTTCAGCC ATTTGGAAGA ATTGAGATAC AATCTGGAGC GGGAAATAGG CTTTGATAAA
TTCATTGAAG TTTATGATAA AATAAAGGCA ATACATGAAG ATGAAGATGA GAATATTGAT
GTTTGTTCAA CAATAGTTCA GAATATTCTG GGAAATGAAT ATAAACATCT GTATGCCAAG
ATTCTTCATT TAGTGATGGC AGATGGAGCC TATCAGGAGG ATAATGATGA ATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_027685121.1 CDS 321..3794 Translation
Target ORF information:
RefSeq Version XM_027829320.1 Organism Chelonia mydas(Green sea turtle) Definition Chelonia mydas NIMA related kinase 1 (NEK1), transcript variant X12, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_027829320.1
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
3421ATGGATTGGT TTGTACAGAT TTGTTTAGCA CTAAAACATG TACATGACAG AAAAATTTTG
CATCGAGATA TAAAGTCACA GAATATATTT TTAACCAAAG ATGGAACAAT ACAACTGGGA
GACTTTGGAA TAGCTAGAGT TCTTAACAGT ACTGTAGAGC TGGCTCGCAC TTGCATAGGA
ACACCATACT ATTTGTCACC TGAAATCTGT CGGAACAAGC CTTACAACAA TAAAAGTGAC
ATATGGGCTC TTGGTTGTGT TCTCTATGAG ATGTGCACAC TTAAACATGC ATTTGAAGCT
GGTAACATGA AAAATCTGGT ACTGAAGATA ATCTCTGGAT CTTTTCCTCC TGTTTCTCTG
CATTATTCCT ACGATCTACG TAATCTGCTT TCACAGTTAT TTAAAAGGAA TCCTAGGGAT
AGACCATCAG TCAACTCCAT ATTGGAGAAA ATCTTTATAG CCAAACGGGT GGAAAAATTT
CTTACACCAC AGCTTATTGC AGACGAATTC AGTCACAAAG TGTTCCACAA GTTTGACGCC
CATGTTGCAC CAGTAAAACG ACTAGCTCAA GGACAAATCT GTGCTTCAGC TGTGCCAGCT
CAGAAAATTA CCAAACCTGC TGCAAAATAT GGAGTGCCTT TAATGATCAA GAAATCTGGT
GATGCATCTA AAAAATTTCA TGAGAAGAAG CCATTAGCTA AATTTAGACA GGCCCATCCA
ACTCCAATGA AGAAAATGAA TCCAGGAGAA GAAAGGAGGA AAATGTTTGA GGAAGCTGCA
AAAAAGAGAA GATTTGAATT ACTTGAGAAA GAAAAACGAC AAAGAGACCA GAAGGCTGAG
CAGATGAGAA GACTGGAAAA GGAAAGGATG GAACGGATAA ACAGAGCCAG GGAACAAGGC
TGGAGAAATG TGCTTAGTTC AGGTGGAAGT GGTGAAGTTA AGGCACCCTT TTTTGGCGGT
GGAGGAGGTG TTGGGCCTTC CCCTGTGCCT GCCAGAGGAC AGTATGAACA CTACCATGCT
ATCTTTGACC AGATGCAACA GCAAAAGGAA AATATTAAAG TAGGTGAGGA GAGAGAAACC
AGATGGAGAG CAGAAATACG AAGTCGGGAA GCTGTTGAAA GGCAAAGAGG ATGGGTAGCA
GCAGAAAGAG CAAAACAAGT TGAAGAATTC TGGCAACGAA AGAGGGAAGC TATGCAAAAC
AAAGCTCGTG CTGAAGGACA TATGGGTACA CTGCAAAACC TGGCAGCTAT CTATGGAGGC
AGGCCCATTT CTGCAAGAGG AAGGAAATCC AGAAACAAGG AGGAAGAGGA ATACCTGGCA
AGATTAAGAC AGATCCGACT TCAAAACTTC AATGAACGCC AGCAGATTAA AGCTAAACTT
CGTGGAGAAA AGAATGAAGC TGACGGTTCT GATGGACAAG AAGGAAGTGA AGAAGCAGAA
TTGAGACGCA AAAAAATTGA AGCACTAAAG GCCCAAGCAA ACGCGCGAGC TGCAGTTCTG
AAAGAGCAAC TAGAGCGAAA GAGGAAGGAG GCATATGAAA GAGAGAAGAA AGCTTGGGAA
GAACATTTGA CAGCAAAAGG GGTAAAGAAT CCTATGGTGC CTTTTAATGT GTCAGCAGCT
GGGGTTAATC CTGTCCCTGG GCAACAAGAA CCTGGAGGAC CTCCTGCCAA ACTACAACTT
CCATTGAAGC CCAGTACACC ACTTATATCT ATGACTTCAG CTTTGAAGGA AGTGGGTGTG
GATGAAAATA CAACTGCTAT CCAGGAAACC ACAGAGGAAA CGAAGAAGGC AGATCTTGCT
GTGCAAAATA AAAGAGAAAT ACTAAGAAGA TTGAATCAAA ATCTTAAAAC ACAGGACGAT
GTAAAAGGAA TAAAGGAGCC TAAAGACACC TGTGAGGCAG CTATGGCTGA AGAGAGTAAA
GAAGAAGAAT ATCCACTTCT AGTAGATCGC AAGAAATGGG AGGTGGCAGC AGCTGAGTTG
GTGGTTCCTC TTGCACAGCT AACTATGGAG GAATCATTGT CGGGGACAGA GAGACAGACC
GTGGGGGAGG TAATTAAACT AGATGTTGGT GAGCCCCAGA GAAAAGTTTG GGGCAAAAGC
CCTACTGATT CAGTTTTGAA GATACTGGGG GAAGCAGAGC TACAGCTTCA AACTGAATTA
TTGGAGGAAA TAATTATCAC AAATGATGTT CCTGAAGAAG GTTCTCAGCC CTTAACCGTG
AAAGAGAACA GTGAAGTAGA AATTGCTTGT ATTGGAGAGA AATCTTCATC TCCAGTTGTT
GGTGTCATAG AATCTGAAAG GACAATACCA GAGGAGTCAC AAACATTTGA TGCCACCCAA
GTGCTGTCCA GGCCTGTTGT GCTACATGAG CTGTATGATT TGGAAGCAGA AATGTTGGAA
GAAACTGAAA AAAATAAAAA GTGCAAAAGT GACCAACTTC TCATCACTGT TCATGATGTG
TGGGTTAAAG AAAGGGAAAC AATAACGGAG CATGAGCCAC TGGAAGATAC TGCCTGTCAG
AAAGATGGTG GTGGTGATGA AGCAGCTTTG GAGAAGGAAA TGCCGCAAAA TGTGCAACCG
CGTAATGAAG TTTCTGCTGG TCATGCTTAC ACTTGTCTCA GTGACTCTAT GCAACCTGAA
CCCTTTTTCC AGAAGGTGGC ACAGCCACAA GCCATACCAG CAGCCTCACC AGTTCTGTCA
GCTCAGTCTT CACTGGAAGA GCCTTTTCCA CCTCGTTCAC GTTCTGTATC ACCAGCAAAA
AGTAAAGGCA AAAGTTCATT ATTGATTGGG CTCTCTACTG GCCTGTTTGA TGCAAACAAT
CCAAAGATGT TAAGAACATG TTCACTCCCA GATCTTTCCA AGTTGTACAG AACACTAATT
GACGTTCCCA TTGTAGCAGA TGTACAACAT CAAGACAATC TTGAAATAGA GGATATGGAA
GATGAGCATG TCAAAGAAGG GCATTCTGAT TCTGAAGACA TTATGTTTGG TGAGGCAGAT
ACAGACTTGC GGGCTCTTCA GGCCTCGATG GAACAGTTAC TTAGGGAGCA GCCTAGTGAG
GAATTTAGTG AAGAGGAGTT GTCTACCTTA AAGGCAGATA CTGCAGCACG CATAACAAAT
GGTACAGAGT TGGATGATGA GGATGACAAC AACCCCAGCA GTGAAAGTGT ACTTAATGAA
GAATGGCAAT CAGACAACAG TGATGGGGAT ATTGCCAGTG AATGTGAAGC ATATGACAGT
GTCTTCAGCC ATTTGGAAGA ATTGAGATAC AATCTGGAGC GGGAAATAGG CTTTGATAAA
TTCATTGAAG TTTATGATAA AATAAAGGCA ATACATGAAG ATGAAGATGA GAATATTGAT
GTTTGTTCAA CAATAGTTCA GAATATTCTG GGAAATGAAT ATAAACATCT GTATGCCAAG
ATTCTTCATT TAGTGATGGC AGATGGAGCC TATCAGGAGG ATAATGATGA ATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OCh375632 Clone ID Related Accession (Same CDS sequence) XM_027829321.1 Accession Version XM_027829321.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3390bp)
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 1548086400000 Organism Chelonia mydas(Green sea turtle) Product serine/threonine-protein kinase Nek1 isoform X11 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006661173.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Chelonia mydas Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.1 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
3361ATGGATTGGT TTGTACAGAT TTGTTTAGCA CTAAAACATG TACATGACAG AAAAATTTTG
CATCGAGATA TAAAGTCACA GAATATATTT TTAACCAAAG ATGGAACAAT ACAACTGGGA
GACTTTGGAA TAGCTAGAGT TCTTAACAGT ACTGTAGAGC TGGCTCGCAC TTGCATAGGA
ACACCATACT ATTTGTCACC TGAAATCTGT CGGAACAAGC CTTACAACAA TAAAAGTGAC
ATATGGGCTC TTGGTTGTGT TCTCTATGAG ATGTGCACAC TTAAACATGC ATTTGAAGCT
GGTAACATGA AAAATCTGGT ACTGAAGATA ATCTCTGGAT CTTTTCCTCC TGTTTCTCTG
CATTATTCCT ACGATCTACG TAATCTGCTT TCACAGTTAT TTAAAAGGAA TCCTAGGGAT
AGACCATCAG TCAACTCCAT ATTGGAGAAA ATCTTTATAG CCAAACGGGT GGAAAAATTT
CTTACACCAC AGCTTATTGC AGACGAATTC AGTCACAAAG TGTTCCACAA GTTTGACGCC
CATGTTGCAC CAGTAAAACG ACTAGCTCAA GGACAAATCT GTGCTTCAGC TGTGCCAGCT
CAGAAAATTA CCAAACCTGC TGCAAAATAT GGAGTGCCTT TAATGATCAA GAAATCTGGT
GATGCATCTA AAAAATTTCA TGAGAAGAAG CCATTAGCTA AATTTAGACA GGCCCATCCA
ACTCCAATGA AGAAAATGAA TCCAGGAGAA GAAAGGAGGA AAATGTTTGA GGAAGCTGCA
AAAAAGAGAA GATTTGAATT ACTTGAGAAA GAAAAACGAC AAAGAGACCA GAAGGCTGAG
CAGATGAGAA GACTGGAAAA GGAAAGGATG GAACGGATAA ACAGAGCCAG GGAACAAGGC
TGGAGAAATG TGCTTAGTTC AGGTGGAAGT GGTGAAGTTA AGGCACCCTT TTTTGGCGGT
GGAGGAGGTG TTGGGCCTTC CCCTGTGCCT GCCAGAGGAC AGTATGAACA CTACCATGCT
ATCTTTGACC AGATGCAACA GCAAAAGGAA AATATTAAAG TAGGTGAGGA GAGAGAAACC
AGATGGAGAG CAGAAATACG AAGTCGGGAA GCTGTTGAAA GGCAAAGAGG ATGGGTAGCA
GCAGAAAGAG CAAAACAAGT TGAAGAATTC TGGCAACGAA AGAGGGAAGC TATGCAAAAC
AAAGCTCGTG CTGAAGGACA TATGGAATAC CTGGCAAGAT TAAGACAGAT CCGACTTCAA
AACTTCAATG AACGCCAGCA GATTAAAGCT AAACTTCGTG GAGAAAAGAA TGAAGCTGAC
GGTTCTGATG GACAAGAAGG AAGTGAAGAA GCAGAATTGA GACGCAAAAA AATTGAAGCA
CTAAAGGCCC AAGCAAACGC GCGAGCTGCA GTTCTGAAAG AGCAACTAGA GCGAAAGAGG
AAGGAGGCAT ATGAAAGAGA GAAGAAAGCT TGGGAAGAAC ATTTGACAGC AAAAGGGGTA
AAGAATCCTA TGGTGCCTTT TAATGTGTCA GCAGCTGGGG TTAATCCTGT CCCTGGGCAA
CAAGAACCTG GAGGACCTCC TGCCAAACTA CAACTTCCAT TGAAGCCCAG TACACCACTT
ATATCTATGA CTTCAGCTTT GAAGGAAGTG GGTGTGGATG AAAATACAAC TGCTATCCAG
GAAACCACAG AGGAAACGAA GAAGGCAGAT CTTGCTGTGC AAAATAAAAG AGAAATACTA
AGAAGATTGA ATCAAAATCT TAAAACACAG GACGATGTAA AAGGAATAAA GGAGCCTAAA
GACACCTGTG AGGCAGCTAT GGCTGAAGAG AGTAAAGAAG AAGAATATCC ACTTCTAGTA
GATCGCAAGA AATGGGAGGT GGCAGCAGCT GAGTTGGTGG TTCCTCTTGC ACAGCTAACT
ATGGAGGAAT CATTGTCGGG GACAGAGAGA CAGACCGTGG GGGAGGTAAT TAAACTAGAT
GTTGGTGAGC CCCAGAGAAA AGTTTGGGGC AAAAGCCCTA CTGATTCAGT TTTGAAGATA
CTGGGGGAAG CAGAGCTACA GCTTCAAACT GAATTATTGG AGGAAATAAT TATCACAAAT
GATGTTCCTG AAGAAGGTTC TCAGCCCTTA ACCGTGAAAG AGAACAGTGA AGTAGAAATT
GCTTGTATTG GAGAGAAATC TTCATCTCCA GTTGTTGGTG TCATAGAATC TGAAAGGACA
ATACCAGAGG AGTCACAAAC ATTTGATGCC ACCCAAGTGC TGTCCAGGCC TGTTGTGCTA
CATGAGCTGT ATGATTTGGA AGCAGAAATG TTGGAAGAAA CTGAAAAAAA TAAAAAGTGC
AAAAGTGACC AACTTCTCAT CACTGTTCAT GATGTGTGGG TTAAAGAAAG GGAAACAATA
ACGGAGCATG AGCCACTGGA AGATACTGCC TGTCAGAAAG ATGGTGGTGG TGATGAAGCA
GCTTTGGAGA AGGAAATGCC GCAAAATGTG CAACCGCGTA ATGAAGTTTC TGCTGGTCAT
GCTTACACTT GTCTCAGTGA CTCTATGCAA CCTGAACCCT TTTTCCAGAA GGTGGCACAG
CCACAAGCCA TACCAGCAGC CTCACCAGTT CTGTCAGCTC AGTCTTCACT GGAAGAGCCT
TTTCCACCTC GTTCACGTTC TGTATCACCA GCAAAAAGTA AAGGCAAAAG TTCATTATTG
ATTGGGCTCT CTACTGGCCT GTTTGATGCA AACAATCCAA AGATGTTAAG AACATGTTCA
CTCCCAGATC TTTCCAAGTT GTACAGAACA CTAATTGACG TTCCCATTGT AGCAGATGTA
CAACATCAAG ACAATCTTGA AATAGAGGAT ATGGAAGATG AGCATGTCAA AGAAGGGCAT
TCTGATTCTG AAGACATTAT GTTTGGTGAG GCAGATACAG ACTTGCGGGC TCTTCAGGCC
TCGATGGAAC AGTTACTTAG GGAGCAGCCT AGTGAGGAAT TTAGTGAAGA GGAGTTGTCT
ACCTTAAAGG CAGATACTGC AGCACGCATA ACAAATGGTA CAGAGTTGGA TGATGAGGAT
GACAACAACC CCAGCAGTGA AAGTGTACTT AATGAAGAAT GGCAATCAGA CAACAGTGAT
GGGGATATTG CCAGTGAATG TGAAGCATAT GACAGTGTCT TCAGCCATTT GGAAGAATTG
AGATACAATC TGGAGCGGGA AATAGGCTTT GATAAATTCA TTGAAGTTTA TGATAAAATA
AAGGCAATAC ATGAAGATGA AGATGAGAAT ATTGATGTTT GTTCAACAAT AGTTCAGAAT
ATTCTGGGAA ATGAATATAA ACATCTGTAT GCCAAGATTC TTCATTTAGT GATGGCAGAT
GGAGCCTATC AGGAGGATAA TGATGAATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_027685122.1 CDS 321..3710 Translation
Target ORF information:
RefSeq Version XM_027829321.1 Organism Chelonia mydas(Green sea turtle) Definition Chelonia mydas NIMA related kinase 1 (NEK1), transcript variant X13, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_027829321.1
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
3361ATGGATTGGT TTGTACAGAT TTGTTTAGCA CTAAAACATG TACATGACAG AAAAATTTTG
CATCGAGATA TAAAGTCACA GAATATATTT TTAACCAAAG ATGGAACAAT ACAACTGGGA
GACTTTGGAA TAGCTAGAGT TCTTAACAGT ACTGTAGAGC TGGCTCGCAC TTGCATAGGA
ACACCATACT ATTTGTCACC TGAAATCTGT CGGAACAAGC CTTACAACAA TAAAAGTGAC
ATATGGGCTC TTGGTTGTGT TCTCTATGAG ATGTGCACAC TTAAACATGC ATTTGAAGCT
GGTAACATGA AAAATCTGGT ACTGAAGATA ATCTCTGGAT CTTTTCCTCC TGTTTCTCTG
CATTATTCCT ACGATCTACG TAATCTGCTT TCACAGTTAT TTAAAAGGAA TCCTAGGGAT
AGACCATCAG TCAACTCCAT ATTGGAGAAA ATCTTTATAG CCAAACGGGT GGAAAAATTT
CTTACACCAC AGCTTATTGC AGACGAATTC AGTCACAAAG TGTTCCACAA GTTTGACGCC
CATGTTGCAC CAGTAAAACG ACTAGCTCAA GGACAAATCT GTGCTTCAGC TGTGCCAGCT
CAGAAAATTA CCAAACCTGC TGCAAAATAT GGAGTGCCTT TAATGATCAA GAAATCTGGT
GATGCATCTA AAAAATTTCA TGAGAAGAAG CCATTAGCTA AATTTAGACA GGCCCATCCA
ACTCCAATGA AGAAAATGAA TCCAGGAGAA GAAAGGAGGA AAATGTTTGA GGAAGCTGCA
AAAAAGAGAA GATTTGAATT ACTTGAGAAA GAAAAACGAC AAAGAGACCA GAAGGCTGAG
CAGATGAGAA GACTGGAAAA GGAAAGGATG GAACGGATAA ACAGAGCCAG GGAACAAGGC
TGGAGAAATG TGCTTAGTTC AGGTGGAAGT GGTGAAGTTA AGGCACCCTT TTTTGGCGGT
GGAGGAGGTG TTGGGCCTTC CCCTGTGCCT GCCAGAGGAC AGTATGAACA CTACCATGCT
ATCTTTGACC AGATGCAACA GCAAAAGGAA AATATTAAAG TAGGTGAGGA GAGAGAAACC
AGATGGAGAG CAGAAATACG AAGTCGGGAA GCTGTTGAAA GGCAAAGAGG ATGGGTAGCA
GCAGAAAGAG CAAAACAAGT TGAAGAATTC TGGCAACGAA AGAGGGAAGC TATGCAAAAC
AAAGCTCGTG CTGAAGGACA TATGGAATAC CTGGCAAGAT TAAGACAGAT CCGACTTCAA
AACTTCAATG AACGCCAGCA GATTAAAGCT AAACTTCGTG GAGAAAAGAA TGAAGCTGAC
GGTTCTGATG GACAAGAAGG AAGTGAAGAA GCAGAATTGA GACGCAAAAA AATTGAAGCA
CTAAAGGCCC AAGCAAACGC GCGAGCTGCA GTTCTGAAAG AGCAACTAGA GCGAAAGAGG
AAGGAGGCAT ATGAAAGAGA GAAGAAAGCT TGGGAAGAAC ATTTGACAGC AAAAGGGGTA
AAGAATCCTA TGGTGCCTTT TAATGTGTCA GCAGCTGGGG TTAATCCTGT CCCTGGGCAA
CAAGAACCTG GAGGACCTCC TGCCAAACTA CAACTTCCAT TGAAGCCCAG TACACCACTT
ATATCTATGA CTTCAGCTTT GAAGGAAGTG GGTGTGGATG AAAATACAAC TGCTATCCAG
GAAACCACAG AGGAAACGAA GAAGGCAGAT CTTGCTGTGC AAAATAAAAG AGAAATACTA
AGAAGATTGA ATCAAAATCT TAAAACACAG GACGATGTAA AAGGAATAAA GGAGCCTAAA
GACACCTGTG AGGCAGCTAT GGCTGAAGAG AGTAAAGAAG AAGAATATCC ACTTCTAGTA
GATCGCAAGA AATGGGAGGT GGCAGCAGCT GAGTTGGTGG TTCCTCTTGC ACAGCTAACT
ATGGAGGAAT CATTGTCGGG GACAGAGAGA CAGACCGTGG GGGAGGTAAT TAAACTAGAT
GTTGGTGAGC CCCAGAGAAA AGTTTGGGGC AAAAGCCCTA CTGATTCAGT TTTGAAGATA
CTGGGGGAAG CAGAGCTACA GCTTCAAACT GAATTATTGG AGGAAATAAT TATCACAAAT
GATGTTCCTG AAGAAGGTTC TCAGCCCTTA ACCGTGAAAG AGAACAGTGA AGTAGAAATT
GCTTGTATTG GAGAGAAATC TTCATCTCCA GTTGTTGGTG TCATAGAATC TGAAAGGACA
ATACCAGAGG AGTCACAAAC ATTTGATGCC ACCCAAGTGC TGTCCAGGCC TGTTGTGCTA
CATGAGCTGT ATGATTTGGA AGCAGAAATG TTGGAAGAAA CTGAAAAAAA TAAAAAGTGC
AAAAGTGACC AACTTCTCAT CACTGTTCAT GATGTGTGGG TTAAAGAAAG GGAAACAATA
ACGGAGCATG AGCCACTGGA AGATACTGCC TGTCAGAAAG ATGGTGGTGG TGATGAAGCA
GCTTTGGAGA AGGAAATGCC GCAAAATGTG CAACCGCGTA ATGAAGTTTC TGCTGGTCAT
GCTTACACTT GTCTCAGTGA CTCTATGCAA CCTGAACCCT TTTTCCAGAA GGTGGCACAG
CCACAAGCCA TACCAGCAGC CTCACCAGTT CTGTCAGCTC AGTCTTCACT GGAAGAGCCT
TTTCCACCTC GTTCACGTTC TGTATCACCA GCAAAAAGTA AAGGCAAAAG TTCATTATTG
ATTGGGCTCT CTACTGGCCT GTTTGATGCA AACAATCCAA AGATGTTAAG AACATGTTCA
CTCCCAGATC TTTCCAAGTT GTACAGAACA CTAATTGACG TTCCCATTGT AGCAGATGTA
CAACATCAAG ACAATCTTGA AATAGAGGAT ATGGAAGATG AGCATGTCAA AGAAGGGCAT
TCTGATTCTG AAGACATTAT GTTTGGTGAG GCAGATACAG ACTTGCGGGC TCTTCAGGCC
TCGATGGAAC AGTTACTTAG GGAGCAGCCT AGTGAGGAAT TTAGTGAAGA GGAGTTGTCT
ACCTTAAAGG CAGATACTGC AGCACGCATA ACAAATGGTA CAGAGTTGGA TGATGAGGAT
GACAACAACC CCAGCAGTGA AAGTGTACTT AATGAAGAAT GGCAATCAGA CAACAGTGAT
GGGGATATTG CCAGTGAATG TGAAGCATAT GACAGTGTCT TCAGCCATTT GGAAGAATTG
AGATACAATC TGGAGCGGGA AATAGGCTTT GATAAATTCA TTGAAGTTTA TGATAAAATA
AAGGCAATAC ATGAAGATGA AGATGAGAAT ATTGATGTTT GTTCAACAAT AGTTCAGAAT
ATTCTGGGAA ATGAATATAA ACATCTGTAT GCCAAGATTC TTCATTTAGT GATGGCAGAT
GGAGCCTATC AGGAGGATAA TGATGAATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OCh75990 Clone ID Related Accession (Same CDS sequence) XM_007067095.1 Accession Version XM_007067095.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3954bp)
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 1394035200000 Organism Chelonia mydas(Green sea turtle) Product serine/threonine-protein kinase Nek1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006661173.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Chelonia mydas Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 5.2 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
3901ATGAACAGTG GATGCCTTAG AAAAAGAACC ATGGAGAAAT ATATTAAAGT GCAGAAGATT
GGCGAAGGAT CCTTTGGAAA AGCAATTCTG GTCAAAGCTA AAGAAAATAG CAGACAGTAT
GTTGTTAAGG AGATAAACAT CTCTAAGATG TCCAATAAAG AGAGAGAAGA ATCAAGGAGA
GAAGTTGCTG TATTGGCAAA CATGAAACAT CCAAATATTG TCCTGTATCG GGAATCATTT
GAAGAAAATG GCTCTCTCTA TATAGTGATG GATTACTGTG AAGGAGGGGA CCTGTTTAGA
CGAATAAATG CTCAGAAAGG CATCTTGTTC TCAGAGGATC AGATAATGGA TTGGTTTGTA
CAGATTTGTT TAGCACTAAA ACATGTACAT GACAGAAAAA TTTTGCATCG AGATATAAAG
TCACAGAATA TATTTTTAAC CAAAGATGGA ACAATACAAC TGGGAGACTT TGGAATAGCT
AGAGTTCTTA ACAGTACTGT AGAGCTGGCT CGCACTTGCA TAGGAACACC ATACTATTTG
TCACCTGAAA TCTGTCGGAA CAAGCCTTAC AACAATAAAA GTGACATATG GGCTCTTGGT
TGTGTTCTCT ATGAGATGTG CACACTTAAA CATGCATTTG AAGCTGGTAA CATGAAAAAT
CTGGTACTGA AGATAATCTC TGGATCTTTT CCTCCTGTTT CTCTGCATTA TTCCTACGAT
CTACGTAATC TGCTTTCACA GTTATTTAAA AGGAATCCTA GGGATAGACC ATCAGTCAAC
TCCATATTGG AGAAAATCTT TATAGCCAAA CGGGTGGAAA AATTTCTTAC ACCACAGCTT
ATTGCAGACG AATTCAGTCA CAAAGTGTTC CACAAGTTTG ACGCCCATGT TGCACCAGTA
AAACGACTAG CTCAAGGACA AATCTGTGCT TCAGCTGTGC CAGCTCAGAA AATTACCAAA
CCTGCTGCAA AATATGGAGT GCCTTTAATG ATCAAGAAAT CTGGTGATGC ATCTAAAAAA
TTTCATGAGA AGAAGCCATT AGCTAAATTT AGACAGGCCC ATCCAACTCC AATGAAGAAA
ATGAATCCAG GAGAAGAAAG GAGGAAAATG TTTGAGGAAG CTGCAAAAAA GAGAAGATTT
GAATTACTTG AGAAAGAAAA ACGACAAAGA GACCAGGTAG ACTTTCAGAA GGCTGAGCAG
ATGAGAAGAC TGGAAAAGGA AAGGATGGAA CGGATAAACA GAGCCAGGGA ACAAGGCTGG
AGAAATGTGC TTAGTTCAGG TGGAAGTGGT GAAGTTAAGG CACCCTTTTT TGGCGGTGGA
GGAGGTGTTG GGCCTTCCCC TGTGCCTGCC AGAGGACAGT ATGAACACTA CCATGCTATC
TTTGACCAGA TGCAACAGCA AAAGGAAAAT ATTAAAGTAG GTGAGGAGAG AGAAACCAGA
TGGAGAGCAG AAATACGAAG TCGGGAAGCT GTTGAAAGAG GAGTTCCACC TGGAGTACGT
CCAGGATTTC CTAATGGGCC TGATGGTCAT CACCATTTAC CAGATGCTGA TGCAATTAGG
AAAAAAATCA AAAGATTGAA GGAGGTGTCT AAACAAGCCA ATGCAAACAG GCAAAGAGGA
TGGGTAGCAG CAGAAAGAGC AAAACAAGTT GAAGAATTCT GGCAACGAAA GAGGGAAGCT
ATGCAAAACA AAGCTCGTGC TGAAGGACAT ATGGGTACAC TGCAAAACCT GGCAGCTATC
TATGGAGGCA GGCCCATTTC TGCAAGAGGA AGGAAATCCA GAAACAAGGA GGAAGAGGAA
TACCTGGCAA GATTAAGACA GATCCGACTT CAAAACTTCA ATGAACGCCA GCAGATTAAA
GCTAAACTTC GTGGAGAAAA GAATGAAGCT GACGGTTCTG ATGGACAAGA AGGAAGTGAA
GAAGCAGAAT TGAGACGCAA AAAAATTGAA GCACTAAAGG CCCAAGCAAA CGCGCGAGCT
GCAGTTCTGA AAGAGCAACT AGAGCGAAAG AGGAAGGAGG CATATGAAAG AGAGAAGAAA
GCTTGGGAAG AACATTTGAC AGCAAAAGGG GTAAAGAATC CTATGGTGCC TTTTAATGTG
TCAGCAGCTG GGGTTAATCC TGTCCCTGGG CAACAAGAAC CTGGAGGACC TCCTGCCAAA
CTACAACTTC CATTGAAGCC CAGTACACCA CTTATATCTA TGACTTCAGC TTTGAAGGAA
GTGGGTGTGG ATGAAAATAC AACTGCTATC CAGGAAACCA CAGAGGAAAC GAAGAAGGCA
GATCTTGCTG TGCAAAATAA AAGAGAAATA CTAAGAAGAT TGAATCAAAA TCTTAAAACA
CAGGACGATG TAAAAGGAAT AAAGGAGCCT AAAGACACCT GTGAGGCAGC TATGGCTGAA
GAGAGTAAAG AAGAAGAATA TCCACTTCTA GTAGATCGCA AGAAATGGGA GGTGGCAGCA
GCTGAGTTGG TGGTTCCTCT TGCACAGCTA ACTATGGAGG AATCATTGTC GGGGACAGAG
AGACAGACCG TGGGGGAGGT AATTAAACTA GATGTTGGTG AGCCCCAGAG AAAAGTTTGG
GGCAAAAGCC CTACTGATTC AGTTTTGAAG ATACTGGGGG AAGCAGAGCT ACAGCTTCAA
ACTGAATTAT TGGAGGAAAT AATTATCACA AATGATGTTC CTGAAGAAGG TTCTCAGCCC
TTAACCGTGA AAGAGAACAG TGAAGTAGAA ATTGCTTGTA TTGGAGAGAA ATCTTCATCT
CCAGTTGTTG GTGTCATAGA ATCTGAAAGG ACAATACCAG AGGAGTCACA AACATTTGAT
GCCACCCAAG TGCTGTCCAG GCCTGTTGTG CTACATGAGC TGTATGATTT GGAAGCAGAA
ATGTTGGAAG AAACTGAAAA AAATAAAAAG TGCAAAAGTG ACCAACTTCT CATCACTGTT
CATGATGTGT GGGTTAAAGA AAGGGAAACA ATAACGGAGC ATGAGCCACT GGAAGATACT
GCCTGTCAGA AAGATGGTGG TGGTGATGAA GCAGCTTTGG AGAAGGAAAT GCCGCAAAAT
GTGCAACCGC GTAATGAAGT TTCTGCTGAC ACTTGTCTCA GTGACTCTAT GCAACCTGAA
CCCTTTTTCC AGAAGGTGGC ACAGCCACAA GCCATACCAG CAGCCTCACC AGTTCTGTCA
GCTCAGTCTT CACTGGAAGA GCCTTTTCCA CCTCGTTCAC GTTCTGTATC ACCAGCAAAA
AGTAAAGGCA AAAGTTCATT ATTGATTGGG CTCTCTACTG GCCTGTTTGA TGCAAACAAT
CCAAAGATGT TAAGAACATG TTCACTCCCA GATCTTTCCA AGTTGTACAG AACACTAATT
GACGTTCCCA TTGTAGCAGA TGTACAACAT CAAGACAATC TTGAAATAGA GGATATGGAA
GATGAGCATG TCAAAGAAGG GCATTCTGAT TCTGAAGACA TTATGTTTGG TGAGGCAGAT
ACAGACTTGC GGGCTCTTCA GGCCTCGATG GAACAGTTAC TTAGGGAGCA GCCTAGTGAG
GAATTTAGTG AAGAGGAGTT GTCTACCTTA AAGGCAGATA CTGCAGCACG CATAACAAAT
GGTACAGAGT TGGATGATGA GGATGACAAC AACCCCAGCA GTGAAAGTGT ACTTAATGAA
GAATGGCAAT CAGACAACAG TGATGGGGAT ATTGCCAGTG AATGTGAAGC ATATGACAGT
GTCTTCAGCC ATTTGGAAGA ATTGAGATAC AATCTGGAGC GGGAAATAGG CTTTGATAAA
TTCATTGAAG TTTATGATAA AATAAAGGCA ATACATGAAG ATGAAGATGA GAATATTGAT
GTTTGTTCAA CAATAGTTCA GAATATTCTG GGAAATGAAT ATAAACATCT GTATGCCAAG
ATTCTTCATT TAGTGATGGC AGATGGAGCC TATCAGGAGG ATAATGATGA ATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_007067157.1 CDS 51..4004 Translation
Target ORF information:
RefSeq Version XM_007067095.1 Organism Chelonia mydas(Green sea turtle) Definition Chelonia mydas NIMA-related kinase 1 (NEK1), mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_007067095.1
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
3901ATGAACAGTG GATGCCTTAG AAAAAGAACC ATGGAGAAAT ATATTAAAGT GCAGAAGATT
GGCGAAGGAT CCTTTGGAAA AGCAATTCTG GTCAAAGCTA AAGAAAATAG CAGACAGTAT
GTTGTTAAGG AGATAAACAT CTCTAAGATG TCCAATAAAG AGAGAGAAGA ATCAAGGAGA
GAAGTTGCTG TATTGGCAAA CATGAAACAT CCAAATATTG TCCTGTATCG GGAATCATTT
GAAGAAAATG GCTCTCTCTA TATAGTGATG GATTACTGTG AAGGAGGGGA CCTGTTTAGA
CGAATAAATG CTCAGAAAGG CATCTTGTTC TCAGAGGATC AGATAATGGA TTGGTTTGTA
CAGATTTGTT TAGCACTAAA ACATGTACAT GACAGAAAAA TTTTGCATCG AGATATAAAG
TCACAGAATA TATTTTTAAC CAAAGATGGA ACAATACAAC TGGGAGACTT TGGAATAGCT
AGAGTTCTTA ACAGTACTGT AGAGCTGGCT CGCACTTGCA TAGGAACACC ATACTATTTG
TCACCTGAAA TCTGTCGGAA CAAGCCTTAC AACAATAAAA GTGACATATG GGCTCTTGGT
TGTGTTCTCT ATGAGATGTG CACACTTAAA CATGCATTTG AAGCTGGTAA CATGAAAAAT
CTGGTACTGA AGATAATCTC TGGATCTTTT CCTCCTGTTT CTCTGCATTA TTCCTACGAT
CTACGTAATC TGCTTTCACA GTTATTTAAA AGGAATCCTA GGGATAGACC ATCAGTCAAC
TCCATATTGG AGAAAATCTT TATAGCCAAA CGGGTGGAAA AATTTCTTAC ACCACAGCTT
ATTGCAGACG AATTCAGTCA CAAAGTGTTC CACAAGTTTG ACGCCCATGT TGCACCAGTA
AAACGACTAG CTCAAGGACA AATCTGTGCT TCAGCTGTGC CAGCTCAGAA AATTACCAAA
CCTGCTGCAA AATATGGAGT GCCTTTAATG ATCAAGAAAT CTGGTGATGC ATCTAAAAAA
TTTCATGAGA AGAAGCCATT AGCTAAATTT AGACAGGCCC ATCCAACTCC AATGAAGAAA
ATGAATCCAG GAGAAGAAAG GAGGAAAATG TTTGAGGAAG CTGCAAAAAA GAGAAGATTT
GAATTACTTG AGAAAGAAAA ACGACAAAGA GACCAGGTAG ACTTTCAGAA GGCTGAGCAG
ATGAGAAGAC TGGAAAAGGA AAGGATGGAA CGGATAAACA GAGCCAGGGA ACAAGGCTGG
AGAAATGTGC TTAGTTCAGG TGGAAGTGGT GAAGTTAAGG CACCCTTTTT TGGCGGTGGA
GGAGGTGTTG GGCCTTCCCC TGTGCCTGCC AGAGGACAGT ATGAACACTA CCATGCTATC
TTTGACCAGA TGCAACAGCA AAAGGAAAAT ATTAAAGTAG GTGAGGAGAG AGAAACCAGA
TGGAGAGCAG AAATACGAAG TCGGGAAGCT GTTGAAAGAG GAGTTCCACC TGGAGTACGT
CCAGGATTTC CTAATGGGCC TGATGGTCAT CACCATTTAC CAGATGCTGA TGCAATTAGG
AAAAAAATCA AAAGATTGAA GGAGGTGTCT AAACAAGCCA ATGCAAACAG GCAAAGAGGA
TGGGTAGCAG CAGAAAGAGC AAAACAAGTT GAAGAATTCT GGCAACGAAA GAGGGAAGCT
ATGCAAAACA AAGCTCGTGC TGAAGGACAT ATGGGTACAC TGCAAAACCT GGCAGCTATC
TATGGAGGCA GGCCCATTTC TGCAAGAGGA AGGAAATCCA GAAACAAGGA GGAAGAGGAA
TACCTGGCAA GATTAAGACA GATCCGACTT CAAAACTTCA ATGAACGCCA GCAGATTAAA
GCTAAACTTC GTGGAGAAAA GAATGAAGCT GACGGTTCTG ATGGACAAGA AGGAAGTGAA
GAAGCAGAAT TGAGACGCAA AAAAATTGAA GCACTAAAGG CCCAAGCAAA CGCGCGAGCT
GCAGTTCTGA AAGAGCAACT AGAGCGAAAG AGGAAGGAGG CATATGAAAG AGAGAAGAAA
GCTTGGGAAG AACATTTGAC AGCAAAAGGG GTAAAGAATC CTATGGTGCC TTTTAATGTG
TCAGCAGCTG GGGTTAATCC TGTCCCTGGG CAACAAGAAC CTGGAGGACC TCCTGCCAAA
CTACAACTTC CATTGAAGCC CAGTACACCA CTTATATCTA TGACTTCAGC TTTGAAGGAA
GTGGGTGTGG ATGAAAATAC AACTGCTATC CAGGAAACCA CAGAGGAAAC GAAGAAGGCA
GATCTTGCTG TGCAAAATAA AAGAGAAATA CTAAGAAGAT TGAATCAAAA TCTTAAAACA
CAGGACGATG TAAAAGGAAT AAAGGAGCCT AAAGACACCT GTGAGGCAGC TATGGCTGAA
GAGAGTAAAG AAGAAGAATA TCCACTTCTA GTAGATCGCA AGAAATGGGA GGTGGCAGCA
GCTGAGTTGG TGGTTCCTCT TGCACAGCTA ACTATGGAGG AATCATTGTC GGGGACAGAG
AGACAGACCG TGGGGGAGGT AATTAAACTA GATGTTGGTG AGCCCCAGAG AAAAGTTTGG
GGCAAAAGCC CTACTGATTC AGTTTTGAAG ATACTGGGGG AAGCAGAGCT ACAGCTTCAA
ACTGAATTAT TGGAGGAAAT AATTATCACA AATGATGTTC CTGAAGAAGG TTCTCAGCCC
TTAACCGTGA AAGAGAACAG TGAAGTAGAA ATTGCTTGTA TTGGAGAGAA ATCTTCATCT
CCAGTTGTTG GTGTCATAGA ATCTGAAAGG ACAATACCAG AGGAGTCACA AACATTTGAT
GCCACCCAAG TGCTGTCCAG GCCTGTTGTG CTACATGAGC TGTATGATTT GGAAGCAGAA
ATGTTGGAAG AAACTGAAAA AAATAAAAAG TGCAAAAGTG ACCAACTTCT CATCACTGTT
CATGATGTGT GGGTTAAAGA AAGGGAAACA ATAACGGAGC ATGAGCCACT GGAAGATACT
GCCTGTCAGA AAGATGGTGG TGGTGATGAA GCAGCTTTGG AGAAGGAAAT GCCGCAAAAT
GTGCAACCGC GTAATGAAGT TTCTGCTGAC ACTTGTCTCA GTGACTCTAT GCAACCTGAA
CCCTTTTTCC AGAAGGTGGC ACAGCCACAA GCCATACCAG CAGCCTCACC AGTTCTGTCA
GCTCAGTCTT CACTGGAAGA GCCTTTTCCA CCTCGTTCAC GTTCTGTATC ACCAGCAAAA
AGTAAAGGCA AAAGTTCATT ATTGATTGGG CTCTCTACTG GCCTGTTTGA TGCAAACAAT
CCAAAGATGT TAAGAACATG TTCACTCCCA GATCTTTCCA AGTTGTACAG AACACTAATT
GACGTTCCCA TTGTAGCAGA TGTACAACAT CAAGACAATC TTGAAATAGA GGATATGGAA
GATGAGCATG TCAAAGAAGG GCATTCTGAT TCTGAAGACA TTATGTTTGG TGAGGCAGAT
ACAGACTTGC GGGCTCTTCA GGCCTCGATG GAACAGTTAC TTAGGGAGCA GCCTAGTGAG
GAATTTAGTG AAGAGGAGTT GTCTACCTTA AAGGCAGATA CTGCAGCACG CATAACAAAT
GGTACAGAGT TGGATGATGA GGATGACAAC AACCCCAGCA GTGAAAGTGT ACTTAATGAA
GAATGGCAAT CAGACAACAG TGATGGGGAT ATTGCCAGTG AATGTGAAGC ATATGACAGT
GTCTTCAGCC ATTTGGAAGA ATTGAGATAC AATCTGGAGC GGGAAATAGG CTTTGATAAA
TTCATTGAAG TTTATGATAA AATAAAGGCA ATACATGAAG ATGAAGATGA GAATATTGAT
GTTTGTTCAA CAATAGTTCA GAATATTCTG GGAAATGAAT ATAAACATCT GTATGCCAAG
ATTCTTCATT TAGTGATGGC AGATGGAGCC TATCAGGAGG ATAATGATGA ATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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