| Gene Symbol | KCNH8 |
| Entrez Gene ID | 100229236 |
| Full Name | potassium voltage-gated channel subfamily H member 8 |
| Gene Type | protein-coding |
| Organism | Taeniopygia guttata(zebra finch) |
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KCNH8 cDNA ORF clone, Taeniopygia guttata(zebra finch)
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Gene
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Clones
gRNAs
The following KCNH8 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the KCNH8 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 OTd07228 Clone ID Related Accession (Same CDS sequence) XM_002194191.2 Accession Version XM_002194191.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3561bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector 
User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1432483200000 Organism Taeniopygia guttata(zebra finch) Product potassium voltage-gated channel subfamily H member 8 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198270.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Feb 12, 2013 this sequence version replaced XM_002194191.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Taeniopygia guttata Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 8% of CDS bases ##RefSeq-Attributes-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541ATGTTCATGA CTCCAAATAG GCATCATGGA AAACCAGAGA GGTTGCACTT GAATAAGCTT
TTATCAGGTT CCATCCAGGG ATTCAGACCA CCCAAAGAAA TAGTGATAGT TCTGGGAATT
GCAGTTGTGG TGGAGGCCAG AACAGACGAG GAAACACAGG CAAAACACCT GTATGAGAAG
TTCATATGTT ATCTGGAAAG GGTGCCCCTG AAAACTGAAA AATACTCTAA AGGGTCAGAG
CCGTTGAGAT GGGTTGAAGA TGAAGTTCTG AGGTACAAAG CCTTCAAAAG AATTTCAGAG
AGGGATGATA GTAACTTCAT CCTTGCAAAT GCTCAGGTGG CTAAGGGATT CCCCATCGTT
TACTGCTCTG ATGGCTTCTG TGAGCTTGCT GGATTTGCAC GGACTGAAGT CATGCAGAAG
AGCTGCAGCT GTAAATTCTT ACTTGGTGCT GAAACAAATG AGCAGATGAT TCTTCAAATT
GAGAAATCGT TGGAGGAAAA GATAGAATTT AAAGGAGAAA TCATGTTCTA TAAGAAGAAT
GGGTCTTCAT TCTGGTGCTT ACTGGATATT GTTCCTATAA AGAATGAAAA AGGAGATGTA
GTGCTCTTTC TGGCCTCTTT CAAAGATATA ACAGACACAA AAGTGAAGAT TGCCGCAGAA
GACAAAAAGG AAGAAAAATG GAAAGGAAGA GGAAGAGCAG GATCGCACTT TGAGTCAGCA
CGCAGACGGA GTAGAGCTGT CCTTTATCAT ATCTCTGGAC ATCTACAAAG AAGAGAGAAG
AACAAATTAA AAATTAATAA TAATGTTTTC GTAGATAAAC CAGCATTTCC AGAATACAAA
GTTTCAGATG CAAAAAAATC CAAATTCATA TTGCTGCATT TTAGCACTTT TAAAGCTGGC
TGGGACTGGC TTATTTTACT GGCAACGTTT TATGTTGCTG TGACTGTACC TTACAATGTT
TCCTTTATTG GCCATGATGA ACTGTCTACA ACTCGAAGCA CAACTGTCAG TGACATTGCA
GTGGAAATTC TCTTTATCAT AGATATTATT TTAAATTTCC GAACAACATA TGTCAGCAAG
TCTGGCCAAG TGATATTTGA AGCAAGATCT ATTTGTATCC ACTATGTGAC TACATGGTTT
ATCATTGACT TAATTGCTGC ACTTCCTTTT GATCTTCTTT ATGCTTTCAA CGTCACTGTG
GTTTCCCTTG TCCACCTGCT GAAAACCGTG CGGCTCCTGC GGCTCCTGCG TCTCCTGCAG
AAGCTGGATC GCTACTCCCA GCACAGCACA ATCGTTCTCA CACTTCTCAT GTCCATGTTT
GCCTTGCTTG CTCACTGGAT GGCCTGCATC TGGTATGTCA TAGGGAAAAG GGAGATGGAG
CAGAATAACC CCCTTACTTG GGACATAGGT TGGCTTCATG AGCTAGGAAA ACGAATTGAA
TCTCCTTATT ATGAGAATAA TACACTTGGA GGCCCATCAA TCAGAAGTGC CTATATAGCT
GCCCTGTATT TCACTCTTAG CAGCCTCACC AGTGTTGGCT TTGGAAATGT TTCAGCCAAT
ACCGATGCTG AAAAGATCTT CTCCATTTGC ACAATGTTGA TTGGGGCTCT GATGCATGCC
TTGGTGTTTG GCAATGTGAC TGCCATAATT CAGAGGATGT ACTCCAGATG GTCCCTTTAT
CACACAAGAA CCAAGGATCT GAAGGACTTT ATACGGGTCC ATCACCTGCC ACAGCAGCTA
AAGCAAAGAA TGCTTGAATA TTTCCAAACC ACGTGGTCTG TCAATAATGG AATTGATTCC
AATGAGCTTT TAAAAGACTT CCCAGATGAG CTGCGTTCAG ACATCACCAT GCACTTGAAC
AAAGAGATTT TGCAGCTTTC CCTTTTCGAG TGCGCCAGTC GTGGTTGCCT CAGGTCTCTG
TCTCTGCACA TCAAAACCTC CTTCTGTGCT CCTGGGGAAT ACCTCCTCCG TCAGGGAGAT
GCCCTGCAAG CAATCTACTT TGTGTGCTCA GGTTCCATGG AAGTCCTGAA GGACAGCACT
GTGCTGGCAA TCCTTGGTAA AGGAGATTTA ATTGGAGCAA ACCTATCTAT TAGGGATCAA
GTTATCAAAA CAAATGCAGA TGTTAAAGCT CTAACATACT GTGACCTACA ATGTATTATA
CTCAAAGGTC TCTTTGAAGT GCTCGACCTT TACCCAGAGT ATGCTCATAA GTTTGTTGAA
GACATCCAGC ATGATCTCAC TTACAATCTA AGGGAAGGCC ATGAAAGTGA TGTAATATCA
AAATTATCCA ACAAGCCTAC ACTATCCCAG ACAGAGCTCA AGGGAAATGG AAATATAAAG
AAGAAACTCC CTTCAATTGT AGAAGATGAA GATGAGGAAG AAGAGGGAGA AGAAGAAAGC
AGCACTCTTT CGCCAATTGA TACACGAAGC ACAAATAGCT CTCAGCAAAA GAAGACTGCA
AGCAGCAAAA GCCACCTAGG GAGAAACTTG AAGCAGCTGG CCTCAGGAAC TGTGCCCTTT
CATTCCCCCA TCCGTGCTTG CAGTTCAAAC CCCTCAAGAG CCAAACATGA AACAGAGCTC
CATTACTACT CCAAAAGGAA GGAGAAAAAC CTTAAACTGT ACCTGTCAGC ACTGACCACC
AGCGGCCCAC CAGATCTGAG CCCAAGAATT GTTGATGGGA TTGAGGATGG AAACCATAAT
GAAGAAAGCC AAACCTTTGA CTTCAGCTCT GATCAGCTCA GGCAGGAATC CAGGTTATCT
CCTACAACTG GAGAGGCTGA AATTGGTGCT GCTGTGCTCG TTATCAAAGC TGAAGAGACC
AAACAGCAGA TCAGCAGGCT TAATAATGAG ATGACATCTT TAAGTCAAGA AGTCTCACAA
TTACGTAAGG ATATGAAGAA TGTGATGCAC CTTCTGGAAA ACCTGCTCAC GTCCCAGAAG
CCTCCAGGAT TCTGTGCTGT GCACAGCATA TCTCGAAGTC CCACACTGGA TAGTCTGCAG
TCTCGAATGG CTTGGACTAC ACATCAGCCT TGCTCGCACA TGCAAGCTGG GAACTTCACT
TGCACCAAAG CACAACTTTG TCGTGGAAAC ACACTATGTG ACATTTGGAA TACAGGTCTG
TCTTCTGTAG GCAGCAGTCC CCAAAGGACT GAACCCAACG TGCAAAATTC TATGGATGGT
GAACTTTATT ATACAACAGG CCTTCAAAAT TCCCCTTCCC AGTATCATGT AATTCAGAAA
GACAATCTGC AATTTTTGAG ATGCACCTCT CCCCACTCAG ACACTACCCT GACTCCTCTT
CAGTCTATTT CAGCAACCCT TTCTCCTTCA GTTTGCTCTT CATCAGAGAC ATCACTACAC
CTAGTGCTGC CCAGCAGATC AGAGGAAGGG AGCTTTAGCC AAGGAGCAAT CAGCTCACTA
AGCCTTGAGA ACCTGCCAGG ATCGTGGGAC CTGGAAGGAA CAGCCAGCGT AACTTCTGCA
CTGACCCCAG ATTTCCCAAC AGACATTGTG ACAAGCACAA GGGATGTTAA AGATAAAGAC
TGCCAAGCCA TAGATGTATG AThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_002194227.2 CDS 1..3561 Translation 
Target ORF information:
RefSeq Version XM_002194191.2 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata potassium channel, voltage gated eag related subfamily H, member 8 (KCNH8), mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_002194191.2
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541ATGTTCATGA CTCCAAATAG GCATCATGGA AAACCAGAGA GGTTGCACTT GAATAAGCTT
TTATCAGGTT CCATCCAGGG ATTCAGACCA CCCAAAGAAA TAGTGATAGT TCTGGGAATT
GCAGTTGTGG TGGAGGCCAG AACAGACGAG GAAACACAGG CAAAACACCT GTATGAGAAG
TTCATATGTT ATCTGGAAAG GGTGCCCCTG AAAACTGAAA AATACTCTAA AGGGTCAGAG
CCGTTGAGAT GGGTTGAAGA TGAAGTTCTG AGGTACAAAG CCTTCAAAAG AATTTCAGAG
AGGGATGATA GTAACTTCAT CCTTGCAAAT GCTCAGGTGG CTAAGGGATT CCCCATCGTT
TACTGCTCTG ATGGCTTCTG TGAGCTTGCT GGATTTGCAC GGACTGAAGT CATGCAGAAG
AGCTGCAGCT GTAAATTCTT ACTTGGTGCT GAAACAAATG AGCAGATGAT TCTTCAAATT
GAGAAATCGT TGGAGGAAAA GATAGAATTT AAAGGAGAAA TCATGTTCTA TAAGAAGAAT
GGGTCTTCAT TCTGGTGCTT ACTGGATATT GTTCCTATAA AGAATGAAAA AGGAGATGTA
GTGCTCTTTC TGGCCTCTTT CAAAGATATA ACAGACACAA AAGTGAAGAT TGCCGCAGAA
GACAAAAAGG AAGAAAAATG GAAAGGAAGA GGAAGAGCAG GATCGCACTT TGAGTCAGCA
CGCAGACGGA GTAGAGCTGT CCTTTATCAT ATCTCTGGAC ATCTACAAAG AAGAGAGAAG
AACAAATTAA AAATTAATAA TAATGTTTTC GTAGATAAAC CAGCATTTCC AGAATACAAA
GTTTCAGATG CAAAAAAATC CAAATTCATA TTGCTGCATT TTAGCACTTT TAAAGCTGGC
TGGGACTGGC TTATTTTACT GGCAACGTTT TATGTTGCTG TGACTGTACC TTACAATGTT
TCCTTTATTG GCCATGATGA ACTGTCTACA ACTCGAAGCA CAACTGTCAG TGACATTGCA
GTGGAAATTC TCTTTATCAT AGATATTATT TTAAATTTCC GAACAACATA TGTCAGCAAG
TCTGGCCAAG TGATATTTGA AGCAAGATCT ATTTGTATCC ACTATGTGAC TACATGGTTT
ATCATTGACT TAATTGCTGC ACTTCCTTTT GATCTTCTTT ATGCTTTCAA CGTCACTGTG
GTTTCCCTTG TCCACCTGCT GAAAACCGTG CGGCTCCTGC GGCTCCTGCG TCTCCTGCAG
AAGCTGGATC GCTACTCCCA GCACAGCACA ATCGTTCTCA CACTTCTCAT GTCCATGTTT
GCCTTGCTTG CTCACTGGAT GGCCTGCATC TGGTATGTCA TAGGGAAAAG GGAGATGGAG
CAGAATAACC CCCTTACTTG GGACATAGGT TGGCTTCATG AGCTAGGAAA ACGAATTGAA
TCTCCTTATT ATGAGAATAA TACACTTGGA GGCCCATCAA TCAGAAGTGC CTATATAGCT
GCCCTGTATT TCACTCTTAG CAGCCTCACC AGTGTTGGCT TTGGAAATGT TTCAGCCAAT
ACCGATGCTG AAAAGATCTT CTCCATTTGC ACAATGTTGA TTGGGGCTCT GATGCATGCC
TTGGTGTTTG GCAATGTGAC TGCCATAATT CAGAGGATGT ACTCCAGATG GTCCCTTTAT
CACACAAGAA CCAAGGATCT GAAGGACTTT ATACGGGTCC ATCACCTGCC ACAGCAGCTA
AAGCAAAGAA TGCTTGAATA TTTCCAAACC ACGTGGTCTG TCAATAATGG AATTGATTCC
AATGAGCTTT TAAAAGACTT CCCAGATGAG CTGCGTTCAG ACATCACCAT GCACTTGAAC
AAAGAGATTT TGCAGCTTTC CCTTTTCGAG TGCGCCAGTC GTGGTTGCCT CAGGTCTCTG
TCTCTGCACA TCAAAACCTC CTTCTGTGCT CCTGGGGAAT ACCTCCTCCG TCAGGGAGAT
GCCCTGCAAG CAATCTACTT TGTGTGCTCA GGTTCCATGG AAGTCCTGAA GGACAGCACT
GTGCTGGCAA TCCTTGGTAA AGGAGATTTA ATTGGAGCAA ACCTATCTAT TAGGGATCAA
GTTATCAAAA CAAATGCAGA TGTTAAAGCT CTAACATACT GTGACCTACA ATGTATTATA
CTCAAAGGTC TCTTTGAAGT GCTCGACCTT TACCCAGAGT ATGCTCATAA GTTTGTTGAA
GACATCCAGC ATGATCTCAC TTACAATCTA AGGGAAGGCC ATGAAAGTGA TGTAATATCA
AAATTATCCA ACAAGCCTAC ACTATCCCAG ACAGAGCTCA AGGGAAATGG AAATATAAAG
AAGAAACTCC CTTCAATTGT AGAAGATGAA GATGAGGAAG AAGAGGGAGA AGAAGAAAGC
AGCACTCTTT CGCCAATTGA TACACGAAGC ACAAATAGCT CTCAGCAAAA GAAGACTGCA
AGCAGCAAAA GCCACCTAGG GAGAAACTTG AAGCAGCTGG CCTCAGGAAC TGTGCCCTTT
CATTCCCCCA TCCGTGCTTG CAGTTCAAAC CCCTCAAGAG CCAAACATGA AACAGAGCTC
CATTACTACT CCAAAAGGAA GGAGAAAAAC CTTAAACTGT ACCTGTCAGC ACTGACCACC
AGCGGCCCAC CAGATCTGAG CCCAAGAATT GTTGATGGGA TTGAGGATGG AAACCATAAT
GAAGAAAGCC AAACCTTTGA CTTCAGCTCT GATCAGCTCA GGCAGGAATC CAGGTTATCT
CCTACAACTG GAGAGGCTGA AATTGGTGCT GCTGTGCTCG TTATCAAAGC TGAAGAGACC
AAACAGCAGA TCAGCAGGCT TAATAATGAG ATGACATCTT TAAGTCAAGA AGTCTCACAA
TTACGTAAGG ATATGAAGAA TGTGATGCAC CTTCTGGAAA ACCTGCTCAC GTCCCAGAAG
CCTCCAGGAT TCTGTGCTGT GCACAGCATA TCTCGAAGTC CCACACTGGA TAGTCTGCAG
TCTCGAATGG CTTGGACTAC ACATCAGCCT TGCTCGCACA TGCAAGCTGG GAACTTCACT
TGCACCAAAG CACAACTTTG TCGTGGAAAC ACACTATGTG ACATTTGGAA TACAGGTCTG
TCTTCTGTAG GCAGCAGTCC CCAAAGGACT GAACCCAACG TGCAAAATTC TATGGATGGT
GAACTTTATT ATACAACAGG CCTTCAAAAT TCCCCTTCCC AGTATCATGT AATTCAGAAA
GACAATCTGC AATTTTTGAG ATGCACCTCT CCCCACTCAG ACACTACCCT GACTCCTCTT
CAGTCTATTT CAGCAACCCT TTCTCCTTCA GTTTGCTCTT CATCAGAGAC ATCACTACAC
CTAGTGCTGC CCAGCAGATC AGAGGAAGGG AGCTTTAGCC AAGGAGCAAT CAGCTCACTA
AGCCTTGAGA ACCTGCCAGG ATCGTGGGAC CTGGAAGGAA CAGCCAGCGT AACTTCTGCA
CTGACCCCAG ATTTCCCAAC AGACATTGTG ACAAGCACAA GGGATGTTAA AGATAAAGAC
TGCCAAGCCA TAGATGTATG AThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd34843 Clone ID Related Accession (Same CDS sequence) XM_030264957.1 Accession Version XM_030264957.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3330bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1565193600000 Organism Taeniopygia guttata(zebra finch) Product potassium voltage-gated channel subfamily H member 8 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044213.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301ATGCCGGTTA TGAAGGGATT ACTGGCACCC CAGAACACCT TCCTCGACAC CATCGCCACC
CGGTTTGACG GCACACATAG TAACTTCATC CTTGCAAATG CTCAGGTGGC TAAGGGATTC
CCCATCGTTT ACTGCTCTGA TGGCTTCTGT GAGCTTGCTG GATTTGCACG GACTGAAGTC
ATGCAGAAGA GCTGCAGCTG TAAATTCTTA CTTGGTGCTG AAACAAATGA GCAGATGATT
CTTCAAATTG AGAAATCATT GGAGGAAAAG ATAGAATTTA AAGGAGAAAT CATGTTCTAT
AAGAAGAATG GGTCTTCATT CTGGTGCTTA CTGGATATTG TTCCTATAAA GAATGAAAAA
GGAGATGTAG TGCTCTTTCT GGCCTCTTTC AAAGATATAA CAGACACAAA AGTGAAGATT
GCCGCAGAGG ACAAAAAGGA AGAAAAATGG AAAGGAAGAG GAAGAGCAGG ATCGCACTTT
GAGTCAGCAC GCAGACGGAG TAGAGCTGTC CTTTATCATA TCTCTGGACA TCTACAAAGA
AGAGAGAAGA ACAAATTAAA AATTAATAAT AATGTTTTCG TAGATAAACC AGCATTTCCA
GAATACAAAG TTTCAGATGC AAAAAAATCC AAATTCATAT TGCTGCATTT TAGCACTTTT
AAAGCTGGCT GGGACTGGCT TATTTTACTG GCAACGTTTT ATGTTGCTGT GACTGTACCT
TACAATGTTT CCTTTATTGG CCATGATGAA CTGTCTACAA CTCGAAGCAC AACTGTCAGT
GACATTGCAG TGGAAATTCT CTTTATCATA GATATTATTT TAAATTTCCG AACAACATAT
GTCAGCAAGT CTGGCCAAGT GATATTTGAA GCAAGATCTA TTTGTATCCA CTATGTGACT
ACATGGTTTA TCATTGACTT AATTGCTGCA CTTCCTTTTG ATCTTCTTTA TGCTTTCAAC
GTCACTGTGG TTTCCCTTGT CCACCTGCTG AAAACCGTGC GGCTCCTGCG GCTCCTGCGT
CTCCTGCAGA AGCTGGATCG CTACTCCCAG CACAGCACAA TCGTTCTCAC ACTTCTCATG
TCCATGTTTG CCTTGCTTGC TCACTGGATG GCCTGCATCT GGTATGTCAT AGGGAAAAGG
GAGATGGAGC AGAATAACCC CCTTTCTTGG GACATAGGTT GGCTTCATGA GCTAGGAAAA
CGAATTGAAT CTCCTTATTA TGAGAATAAT ACACTTGGAG GCCCATCAAT CAGAAGTGCC
TATATAGCTG CCCTGTATTT CACTCTTAGC AGCCTCACCA GTGTTGGCTT TGGAAATGTT
TCAGCCAATA CTGATGCTGA AAAGATCTTC TCCATTTGCA CAATGTTGAT TGGGGCTCTG
ATGCATGCCT TGGTGTTTGG CAATGTGACT GCCATAATTC AGAGGATGTA CTCCAGATGG
TCCCTTTATC ACACAAGAAC CAAGGATCTG AAGGACTTTA TACGGGTCCA TCACCTGCCA
CAGCAGCTAA AGCAAAGAAT GCTTGAATAT TTCCAAACCA CGTGGTCTGT CAATAATGGA
ATTGATTCCA ATGAGCTTTT AAAAGACTTC CCAGATGAGC TGCGTTCAGA CATCACCATG
CACTTGAACA AAGAGATTTT GCAGCTTTCC CTTTTCGAGT GCGCCAGTCG TGGTTGCCTC
AGGTCTCTGT CTCTGCACAT CAAAACCTCC TTCTGTGCTC CTGGGGAATA CCTCCTCCGT
CAGGGAGATG CCCTGCAAGC AATCTACTTT GTGTGCTCAG GTTCCATGGA AGTCCTGAAG
GACAGCACTG TGCTGGCAAT CCTTGGTAAA GGAGATTTAA TTGGAGCAAA CCTATCTATT
AGGGATCAAG TTATCAAAAC AAATGCAGAT GTTAAAGCTC TAACATACTG TGACCTACAA
TGTATTATAC TCAAAGGTCT CTTTGAAGTG CTCGACCTTT ACCCAGAGTA TGCTCATAAG
TTTGTTGAAG ACATCCAGCA TGATCTCACT TACAATCTAA GGGAAGGCCA TGAAAGTGAT
GTAATATCAA AATTATCCAA CAAGCCTACA CTATCCCAGA CAGAGCTCAA GGGAAATGGA
AATATAAAGA AGAAACTCCC TTCAATTGTA GAAGATGAAG ATGAGGAAGA AGAGGGAGAA
GAAGAAAGCA GCACTCTTTC GCCAATTGAT ACACGAAGCA CAAATAGCTC TCAGCAAAAG
AAGACTGCAA GCAGCAAAAG CCACCTAGGG AGAAACTTGA AGCAGCTGGC CTCAGGAACT
GTGCCCTTTC ATTCCCCCAT CCGTGCTTGC AGTTCAAACC CCTCAAGAGC CAAACATGAA
ACAGAGCTCC ATTACTACTC CAAAAGGAAG GAGAAAAACC TTAAACTGTA CCTGTCAGCA
CTGACCACCA GCGGCCCACC AGATCTGAGC CCAAGAATTG TTGATGGGAT TGAGGATGGA
AACCATAATG AAGAAAGCCA AACCTTTGAC TTCAGCTCTG ATCAGCTCAG GCAGGAATCC
AGGTTATCTC CTACAACTGG AGAGGCTGAA ATTGGTGCTG CTGTGCTCGT TATCAAAGCT
GAAGAGACCA AACAGCAGAT CAGCAGGCTT AATAATGAGA TGACATCTTT AAGTCAAGAA
GTCTCACAAT TACGTAAGGA TATGAAGAAT GTGATGCACC TTCTGGAAAA CCTGCTCACG
TCCCAGAAGC CTCCAGGATT CTGTGCTGTG CACAGCATAT CTCGAAGTCC CACACTGGAT
AGTCTGCAGT CTCGAATGGC TTGGACTACA CATCAGCCTT GCTCACACAT GCAAGCTGGG
AACTTCACTT GCACCAAAGC ACAACTTTGT CGTGGAAACA CACTATGTGA CATTTGGAAT
ACAGGTCTGT CTTCTGTAGG CAGCAGTCCC CAAAGGACTG AACCCAACGT GCAAAATTCT
ATGGATGGTG AACTTTATTA TACAACAGGC CTTCAAAATT CCCCTTCCCA GTATCACGTA
ATTCAGAAAG ACAATCTGCA ATTTTTGAGA TGCACCTCTC CCCACTCAGA CACTACCCTG
ACTCCTCTTC AGTCTATTTC AGCAACCCTT TCTCCTTCAG TTTGCTCTTC ATCGGAGACA
TCACTACACC TAGTGCTGCC CAGCAGATCA GAGGAAGGGA GCTTTAGCCA AGGAGCAATC
AGCTCACTAA GCCTTGAGAA CCTGCCAGGA TCGTGGGACC TGGAAGGAAC AGCCAGCGTA
ACTTCTGCAC TGACCCCAGA TTTCCCAACA GACATTGTGA CAAGCACAAG GGATGTTAAA
GATAAAGACT GCCAAGCCAT AGATGTATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030120817.1 CDS 313..3642 Translation
Target ORF information:
RefSeq Version XM_030264957.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata potassium voltage-gated channel subfamily H member 8 (KCNH8), mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030264957.1
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
3301ATGCCGGTTA TGAAGGGATT ACTGGCACCC CAGAACACCT TCCTCGACAC CATCGCCACC
CGGTTTGACG GCACACATAG TAACTTCATC CTTGCAAATG CTCAGGTGGC TAAGGGATTC
CCCATCGTTT ACTGCTCTGA TGGCTTCTGT GAGCTTGCTG GATTTGCACG GACTGAAGTC
ATGCAGAAGA GCTGCAGCTG TAAATTCTTA CTTGGTGCTG AAACAAATGA GCAGATGATT
CTTCAAATTG AGAAATCATT GGAGGAAAAG ATAGAATTTA AAGGAGAAAT CATGTTCTAT
AAGAAGAATG GGTCTTCATT CTGGTGCTTA CTGGATATTG TTCCTATAAA GAATGAAAAA
GGAGATGTAG TGCTCTTTCT GGCCTCTTTC AAAGATATAA CAGACACAAA AGTGAAGATT
GCCGCAGAGG ACAAAAAGGA AGAAAAATGG AAAGGAAGAG GAAGAGCAGG ATCGCACTTT
GAGTCAGCAC GCAGACGGAG TAGAGCTGTC CTTTATCATA TCTCTGGACA TCTACAAAGA
AGAGAGAAGA ACAAATTAAA AATTAATAAT AATGTTTTCG TAGATAAACC AGCATTTCCA
GAATACAAAG TTTCAGATGC AAAAAAATCC AAATTCATAT TGCTGCATTT TAGCACTTTT
AAAGCTGGCT GGGACTGGCT TATTTTACTG GCAACGTTTT ATGTTGCTGT GACTGTACCT
TACAATGTTT CCTTTATTGG CCATGATGAA CTGTCTACAA CTCGAAGCAC AACTGTCAGT
GACATTGCAG TGGAAATTCT CTTTATCATA GATATTATTT TAAATTTCCG AACAACATAT
GTCAGCAAGT CTGGCCAAGT GATATTTGAA GCAAGATCTA TTTGTATCCA CTATGTGACT
ACATGGTTTA TCATTGACTT AATTGCTGCA CTTCCTTTTG ATCTTCTTTA TGCTTTCAAC
GTCACTGTGG TTTCCCTTGT CCACCTGCTG AAAACCGTGC GGCTCCTGCG GCTCCTGCGT
CTCCTGCAGA AGCTGGATCG CTACTCCCAG CACAGCACAA TCGTTCTCAC ACTTCTCATG
TCCATGTTTG CCTTGCTTGC TCACTGGATG GCCTGCATCT GGTATGTCAT AGGGAAAAGG
GAGATGGAGC AGAATAACCC CCTTTCTTGG GACATAGGTT GGCTTCATGA GCTAGGAAAA
CGAATTGAAT CTCCTTATTA TGAGAATAAT ACACTTGGAG GCCCATCAAT CAGAAGTGCC
TATATAGCTG CCCTGTATTT CACTCTTAGC AGCCTCACCA GTGTTGGCTT TGGAAATGTT
TCAGCCAATA CTGATGCTGA AAAGATCTTC TCCATTTGCA CAATGTTGAT TGGGGCTCTG
ATGCATGCCT TGGTGTTTGG CAATGTGACT GCCATAATTC AGAGGATGTA CTCCAGATGG
TCCCTTTATC ACACAAGAAC CAAGGATCTG AAGGACTTTA TACGGGTCCA TCACCTGCCA
CAGCAGCTAA AGCAAAGAAT GCTTGAATAT TTCCAAACCA CGTGGTCTGT CAATAATGGA
ATTGATTCCA ATGAGCTTTT AAAAGACTTC CCAGATGAGC TGCGTTCAGA CATCACCATG
CACTTGAACA AAGAGATTTT GCAGCTTTCC CTTTTCGAGT GCGCCAGTCG TGGTTGCCTC
AGGTCTCTGT CTCTGCACAT CAAAACCTCC TTCTGTGCTC CTGGGGAATA CCTCCTCCGT
CAGGGAGATG CCCTGCAAGC AATCTACTTT GTGTGCTCAG GTTCCATGGA AGTCCTGAAG
GACAGCACTG TGCTGGCAAT CCTTGGTAAA GGAGATTTAA TTGGAGCAAA CCTATCTATT
AGGGATCAAG TTATCAAAAC AAATGCAGAT GTTAAAGCTC TAACATACTG TGACCTACAA
TGTATTATAC TCAAAGGTCT CTTTGAAGTG CTCGACCTTT ACCCAGAGTA TGCTCATAAG
TTTGTTGAAG ACATCCAGCA TGATCTCACT TACAATCTAA GGGAAGGCCA TGAAAGTGAT
GTAATATCAA AATTATCCAA CAAGCCTACA CTATCCCAGA CAGAGCTCAA GGGAAATGGA
AATATAAAGA AGAAACTCCC TTCAATTGTA GAAGATGAAG ATGAGGAAGA AGAGGGAGAA
GAAGAAAGCA GCACTCTTTC GCCAATTGAT ACACGAAGCA CAAATAGCTC TCAGCAAAAG
AAGACTGCAA GCAGCAAAAG CCACCTAGGG AGAAACTTGA AGCAGCTGGC CTCAGGAACT
GTGCCCTTTC ATTCCCCCAT CCGTGCTTGC AGTTCAAACC CCTCAAGAGC CAAACATGAA
ACAGAGCTCC ATTACTACTC CAAAAGGAAG GAGAAAAACC TTAAACTGTA CCTGTCAGCA
CTGACCACCA GCGGCCCACC AGATCTGAGC CCAAGAATTG TTGATGGGAT TGAGGATGGA
AACCATAATG AAGAAAGCCA AACCTTTGAC TTCAGCTCTG ATCAGCTCAG GCAGGAATCC
AGGTTATCTC CTACAACTGG AGAGGCTGAA ATTGGTGCTG CTGTGCTCGT TATCAAAGCT
GAAGAGACCA AACAGCAGAT CAGCAGGCTT AATAATGAGA TGACATCTTT AAGTCAAGAA
GTCTCACAAT TACGTAAGGA TATGAAGAAT GTGATGCACC TTCTGGAAAA CCTGCTCACG
TCCCAGAAGC CTCCAGGATT CTGTGCTGTG CACAGCATAT CTCGAAGTCC CACACTGGAT
AGTCTGCAGT CTCGAATGGC TTGGACTACA CATCAGCCTT GCTCACACAT GCAAGCTGGG
AACTTCACTT GCACCAAAGC ACAACTTTGT CGTGGAAACA CACTATGTGA CATTTGGAAT
ACAGGTCTGT CTTCTGTAGG CAGCAGTCCC CAAAGGACTG AACCCAACGT GCAAAATTCT
ATGGATGGTG AACTTTATTA TACAACAGGC CTTCAAAATT CCCCTTCCCA GTATCACGTA
ATTCAGAAAG ACAATCTGCA ATTTTTGAGA TGCACCTCTC CCCACTCAGA CACTACCCTG
ACTCCTCTTC AGTCTATTTC AGCAACCCTT TCTCCTTCAG TTTGCTCTTC ATCGGAGACA
TCACTACACC TAGTGCTGCC CAGCAGATCA GAGGAAGGGA GCTTTAGCCA AGGAGCAATC
AGCTCACTAA GCCTTGAGAA CCTGCCAGGA TCGTGGGACC TGGAAGGAAC AGCCAGCGTA
ACTTCTGCAC TGACCCCAGA TTTCCCAACA GACATTGTGA CAAGCACAAG GGATGTTAAA
GATAAAGACT GCCAAGCCAT AGATGTATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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