| Gene Symbol | LOC106589905 |
| Entrez Gene ID | 106589905 |
| Full Name | calcium-activated potassium channel subunit alpha-1 |
| Gene Type | protein-coding |
| Organism | Salmo salar(Atlantic salmon) |
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LOC106589905 cDNA ORF clone, Salmo salar(Atlantic salmon)
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Gene
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Clones
gRNAs
The following LOC106589905 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC106589905 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 OAt73597 Clone ID Related Accession (Same CDS sequence) XM_014180345.1 Accession Version XM_014180345.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2733bp)
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 1442678400000 Organism Salmo salar(Atlantic salmon) Product calcium-activated potassium channel subunit alpha-1 isoform X15 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012341616.1) 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 Version :: Salmo salar Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701ATGTTTGCTC GCTACGTGCC AGAAATTGCT GCTCTCATCC TTAATCGGAA GAAATACGGA
GGGAGTTATA ACTCGACCCG AGGCAGAAAG CACATCGTGG TCTGTGGTCA TATTACCCTT
GAAAGTGTGT CCAACTTCCT TAAAGACTTC CTACACAAGG ACAGGGATGA TGTCAATGTA
GAAATTGTTT TTCTCCATAA TATTTCCCCT AATCTTGAGC TGGAAGCCTT GTTTAAACGG
CACTTCACCC AGGTGGAGTT CTACCAGGGA TCTGTTCTCA ACCCACACGA CCTGGCCAGA
GTCAAGATAG AGTCAGCAGA TGCCTGTTTG ATCCTAGCTA ATAAATACTG TGCAGACCCT
GATGCTGAGG ATGCTTCCAA CATCATGAGG GTGATATCCA TCAAGAACTA CCATCCGAAG
ATCAGAATCA TTACCCAGAT GTTGCAGTAC CACAACAAGG CCCACCTTTT GAACATTCCC
AGTTGGAACT GGAAGGAGGG GGACGATGCC ATTTGCCTTG CTGAGCTGAA GCTTGGCTTC
ATAGCACAGA GTTGTCTGGC TCAGGGCCTC TCCACCATGC TGGCCAACCT CTTCTCCATG
AGGTCCTTTA TCAAGATTGA AGAGGACACG TGGCAGAAGT ATTACCTGGA AGGAGTAGCC
AATGAAATGT ACACTGAGTA CTTGTCTAGT GCCTTTGTGG GCTTATCCTT CCCCACCATT
TGTGAACTGT GCTATGTGAA GCTAAAGCTG CTACTGATCG CTATCGAGTA CAAGTCTGAT
ATACGGGAAA GCAGCACTCT CATCAACCCT GGGAACCATG TGAAGATGCA GGAAGGAACC
TTGGGGTTCT TTATCGCCAG CGATGCCAAA GAAGTTAAGA GGGCACTTTT CTACTGCAAA
GCTTGCCACG ATGACATCAC AGATCCCAAA AGGATAAAGA AATGTGGATG CAAACGATTG
ATCTATTCCA AGATGTCCGT CTACAAGAGA ATGACGCTGG CATGTTGTTT TGATTGCGGC
CGTTCAGAGC GTGACTGCTC TCGCATGTCA GCCAATGTGC ATCACCATAG TAAAGCGAAG
GACACCCTTC AGCAGCGTGG CTTCCCTCTC TCTCCTGTCT CTCTTAATGA TTGCTCGACC
ACTTTACGTG CCTCAAAAAA TAACTATAAC GGATATATCA AATCAATGGA AGAGGAGCAG
CAGTCAGCCG TTTCTCCTAA AAAGAAACAA GTCAATGGAA ACACGAGGAA CTCACCCAAC
GGTTCACCAA AAATGATGAG GCATGACCCT CTCCTCATGC CGGGGAAGGA ACAGATTGAG
AACATGGACG TGAACGTGAA GAAATACGAC TCCACAGGGA TGTTTCACTG GTGCCAGTCC
AAAGACATTG AGAAGGTCAT CTTGACCCGG AGCGAAGCTG CCATGACTGT TCTAAGCGGC
CACGTGGTCG TCTGTATATT TGGAGACGCA AAGTCGGCTT TGGTGGGCCT TAGGAACCTT
GTGATGCCTC TGAGAGCTAG CAATTTCCAC TACCACGAGC TGAAACCCAT TGTGTTTGTG
GGTTCTCTGG AGTACCTGAA GAGGGAATGG GAGACCCTTC ACAACTTTCC CAAAGTCTCC
ATCTTACCTG GCACACCATT AAGCCGGGCC GATCTGAGGG CCGTCAATAT CAACCTCTGT
GACATGTGTG TCATCCTGTC AGCCAATCAG AGCAATATTG ACGACGCTTC ACTGCAGGAC
AAGGAATGCA TCCTGGCGTC ACTCAACATC AAGTCTATGC AGTTTGATGA CAGCATCGGG
GTGTTGCAGG CTACCTCCCA AGGTTTCACC CTGCCAGGCA TGGACAGGTC CTCTCCTGAA
AACAGTCCAG TTCATGGGGG GTTGGTACGA CAGGCTTCCA TCACAACAGG AGCCAATGTC
CCCATCATCA CTGAACTAGC ACCGTTAGTA AAACCAGCAG GCAAAGTCCT ACCTGTGATT
TCATTCAGTC AGGATACAAG CAGTGGGATC AACATACACA TAATAACAGA ACTGGTGAAC
GACTCCAATG TTCAGTTCCT GGACCAGGAT GATGACGATG ACCCTGACAC AGAGTTGTAC
CTCACTCAAC CCTTCGCCTG TGGGACGGCT TTCGCAGTCA GTGTGCTGGA TTCCCTGATG
AGTGCTACAT ACTTCAATGA TAATATCCTC ACCCTGATCC GGACGCTGGT AACAGGGGGG
GCCACTCCGG AGCTGGAGGG TCTGTTGGCG GAGGAGAATG CATTACGAGG AGGCTACAGC
ACGCCGCAGA CCCTCGCTAA CCGGGACAGG TGTCGTGTTG CACAGCTAGC CTTGTACGAT
GGGCCATTTG CTGACTTGGG GGATGGTGGT TGCTATGGTG ACTTGTTTTG TAAAGCGTTA
AAAACATACA ACATGCTTTG CTTTGGAATT TACCGATTGA GGGACGCCCA TCTAAACACA
CAAAGTCATA CAAGTCAATG CACTAAACGA TATGTAATAA CCAACCCACC GTATGGTTTT
GAGCTGGTGC CATCAGACCT GATCTTCTGC CTGATGCAGT TTGACCACAA CGCGGGTCAG
TCCCAGGCCA GCCTCACCCA TAGCTCCCAC TCCTCCCATT CGTCCAGCAA AAAGAGCTCC
TCCGTCCATT CTATCCCCGC CACCAACCGC ACCAACCGCG CCAAGAGCAG GGACTCACGG
GATAAACAAA AAAAAGACAT GCTTTACAGA TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_014035820.1 CDS 22..2754 Translation 
Target ORF information:
RefSeq Version XM_014180345.1 Organism Salmo salar(Atlantic salmon) Definition Salmo salar calcium-activated potassium channel subunit alpha-1 (LOC106589905), transcript variant X16, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_014180345.1
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
2701ATGTTTGCTC GCTACGTGCC AGAAATTGCT GCTCTCATCC TTAATCGGAA GAAATACGGA
GGGAGTTATA ACTCGACCCG AGGCAGAAAG CACATCGTGG TCTGTGGTCA TATTACCCTT
GAAAGTGTGT CCAACTTCCT TAAAGACTTC CTACACAAGG ACAGGGATGA TGTCAATGTA
GAAATTGTTT TTCTCCATAA TATTTCCCCT AATCTTGAGC TGGAAGCCTT GTTTAAACGG
CACTTCACCC AGGTGGAGTT CTACCAGGGA TCTGTTCTCA ACCCACACGA CCTGGCCAGA
GTCAAGATAG AGTCAGCAGA TGCCTGTTTG ATCCTAGCTA ATAAATACTG TGCAGACCCT
GATGCTGAGG ATGCTTCCAA CATCATGAGG GTGATATCCA TCAAGAACTA CCATCCGAAG
ATCAGAATCA TTACCCAGAT GTTGCAGTAC CACAACAAGG CCCACCTTTT GAACATTCCC
AGTTGGAACT GGAAGGAGGG GGACGATGCC ATTTGCCTTG CTGAGCTGAA GCTTGGCTTC
ATAGCACAGA GTTGTCTGGC TCAGGGCCTC TCCACCATGC TGGCCAACCT CTTCTCCATG
AGGTCCTTTA TCAAGATTGA AGAGGACACG TGGCAGAAGT ATTACCTGGA AGGAGTAGCC
AATGAAATGT ACACTGAGTA CTTGTCTAGT GCCTTTGTGG GCTTATCCTT CCCCACCATT
TGTGAACTGT GCTATGTGAA GCTAAAGCTG CTACTGATCG CTATCGAGTA CAAGTCTGAT
ATACGGGAAA GCAGCACTCT CATCAACCCT GGGAACCATG TGAAGATGCA GGAAGGAACC
TTGGGGTTCT TTATCGCCAG CGATGCCAAA GAAGTTAAGA GGGCACTTTT CTACTGCAAA
GCTTGCCACG ATGACATCAC AGATCCCAAA AGGATAAAGA AATGTGGATG CAAACGATTG
ATCTATTCCA AGATGTCCGT CTACAAGAGA ATGACGCTGG CATGTTGTTT TGATTGCGGC
CGTTCAGAGC GTGACTGCTC TCGCATGTCA GCCAATGTGC ATCACCATAG TAAAGCGAAG
GACACCCTTC AGCAGCGTGG CTTCCCTCTC TCTCCTGTCT CTCTTAATGA TTGCTCGACC
ACTTTACGTG CCTCAAAAAA TAACTATAAC GGATATATCA AATCAATGGA AGAGGAGCAG
CAGTCAGCCG TTTCTCCTAA AAAGAAACAA GTCAATGGAA ACACGAGGAA CTCACCCAAC
GGTTCACCAA AAATGATGAG GCATGACCCT CTCCTCATGC CGGGGAAGGA ACAGATTGAG
AACATGGACG TGAACGTGAA GAAATACGAC TCCACAGGGA TGTTTCACTG GTGCCAGTCC
AAAGACATTG AGAAGGTCAT CTTGACCCGG AGCGAAGCTG CCATGACTGT TCTAAGCGGC
CACGTGGTCG TCTGTATATT TGGAGACGCA AAGTCGGCTT TGGTGGGCCT TAGGAACCTT
GTGATGCCTC TGAGAGCTAG CAATTTCCAC TACCACGAGC TGAAACCCAT TGTGTTTGTG
GGTTCTCTGG AGTACCTGAA GAGGGAATGG GAGACCCTTC ACAACTTTCC CAAAGTCTCC
ATCTTACCTG GCACACCATT AAGCCGGGCC GATCTGAGGG CCGTCAATAT CAACCTCTGT
GACATGTGTG TCATCCTGTC AGCCAATCAG AGCAATATTG ACGACGCTTC ACTGCAGGAC
AAGGAATGCA TCCTGGCGTC ACTCAACATC AAGTCTATGC AGTTTGATGA CAGCATCGGG
GTGTTGCAGG CTACCTCCCA AGGTTTCACC CTGCCAGGCA TGGACAGGTC CTCTCCTGAA
AACAGTCCAG TTCATGGGGG GTTGGTACGA CAGGCTTCCA TCACAACAGG AGCCAATGTC
CCCATCATCA CTGAACTAGC ACCGTTAGTA AAACCAGCAG GCAAAGTCCT ACCTGTGATT
TCATTCAGTC AGGATACAAG CAGTGGGATC AACATACACA TAATAACAGA ACTGGTGAAC
GACTCCAATG TTCAGTTCCT GGACCAGGAT GATGACGATG ACCCTGACAC AGAGTTGTAC
CTCACTCAAC CCTTCGCCTG TGGGACGGCT TTCGCAGTCA GTGTGCTGGA TTCCCTGATG
AGTGCTACAT ACTTCAATGA TAATATCCTC ACCCTGATCC GGACGCTGGT AACAGGGGGG
GCCACTCCGG AGCTGGAGGG TCTGTTGGCG GAGGAGAATG CATTACGAGG AGGCTACAGC
ACGCCGCAGA CCCTCGCTAA CCGGGACAGG TGTCGTGTTG CACAGCTAGC CTTGTACGAT
GGGCCATTTG CTGACTTGGG GGATGGTGGT TGCTATGGTG ACTTGTTTTG TAAAGCGTTA
AAAACATACA ACATGCTTTG CTTTGGAATT TACCGATTGA GGGACGCCCA TCTAAACACA
CAAAGTCATA CAAGTCAATG CACTAAACGA TATGTAATAA CCAACCCACC GTATGGTTTT
GAGCTGGTGC CATCAGACCT GATCTTCTGC CTGATGCAGT TTGACCACAA CGCGGGTCAG
TCCCAGGCCA GCCTCACCCA TAGCTCCCAC TCCTCCCATT CGTCCAGCAA AAAGAGCTCC
TCCGTCCATT CTATCCCCGC CACCAACCGC ACCAACCGCG CCAAGAGCAG GGACTCACGG
GATAAACAAA AAAAAGACAT GCTTTACAGA TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAt73583 Clone ID Related Accession (Same CDS sequence) XM_014180329.1 Accession Version XM_014180329.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3333bp)
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 1442678400000 Organism Salmo salar(Atlantic salmon) Product calcium-activated potassium channel subunit alpha-1 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012341616.1) 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 Version :: Salmo salar Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301ATGAATGTGG TGCTTGTCTT TGCCCTCAGC ATCGGAGCCC TTGTAATATA CTTCATAGAT
TCCTCTGACC CCATCGAGTC CTGTCAGAAC TTCTACAAAG ACTTCACGCT ACAGATCGAC
ATGGCTTTCA ACGTCTTCTT CCTCTTGTAC TTTGGTCTAC GGTTCATAGC GGCCAACGAC
AAGCTGTGGT TCTGGCTGGA GGTGAACTCA GTGGTGGACT TCTTCACTGT TCCCCCGGTG
TTCGTGTCCG TCTATCTCAA CAGGAGCTGG CTTGGCTTAC GTTTTTTAAG GGCCTTAAGA
TTGATACAGT TCTCAGAAAT CTTACAGTTT TTGAATATAT TAAAAACAAG CAATTCCATA
AAACTGGTGA ACTTGTGTTC AATCTTCATA AGCACATGGC TAACAGCTGC AGGCTTCATA
CATTTGGTGG AAAACTCAGG GGATCCTTGG GAAAACTTCC AAAATTCCCA GTCACTTTCC
TACTGGGAAT GTGTCTACTT ACTGATGGTT ACTATGTCCA CTGTGGGCTA TGGAGACGTG
TATGCCAAAA CTACCCTGGG ACGACTTTTC ATGGTCTTCT TCATCCTTGG TGGTTTGGCC
ATGTTTGCGA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATATGGT
GGTTCCTATA GTGCTGTTAA TGGGAGAAAG CACATCGTGG TCTGTGGTCA TATTACCCTT
GAAAGTGTGT CCAACTTCCT TAAAGACTTC CTACACAAGG ACAGGGATGA TGTCAATGTA
GAAATTGTTT TTCTCCATAA TATTTCCCCT AATCTTGAGC TGGAAGCCTT GTTTAAACGG
CACTTCACCC AGGTGGAGTT CTACCAGGGA TCTGTTCTCA ACCCACACGA CCTGGCCAGA
GTCAAGATAG AGTCAGCAGA TGCCTGTTTG ATCCTAGCTA ATAAATACTG TGCAGACCCT
GATGCTGAGG ATGCTTCCAA CATCATGAGG GTGATATCCA TCAAGAACTA CCATCCGAAG
ATCAGAATCA TTACCCAGAT GTTGCAGTAC CACAACAAGG CCCACCTTTT GAACATTCCC
AGTTGGAACT GGAAGGAGGG GGACGATGCC ATTTGCCTTG CTGAGCTGAA GCTTGGCTTC
ATAGCACAGA GTTGTCTGGC TCAGGGCCTC TCCACCATGC TGGCCAACCT CTTCTCCATG
AGGTCCTTTA TCAAGATTGA AGAGGACACG TGGCAGAAGT ATTACCTGGA AGGAGTAGCC
AATGAAATGT ACACTGAGTA CTTGTCTAGT GCCTTTGTGG GCTTATCCTT CCCCACCATT
TGTGAACTGT GCTATGTGAA GCTAAAGCTG CTACTGATCG CTATCGAGTA CAAGTCTGAT
ATACGGGAAA GCAGCACTCT CATCAACCCT GGGAACCATG TGAAGATGCA GGAAGGAACC
TTGGGGTTCT TTATCGCCAG CGATGCCAAA GAAGTTAAGA GGGCACTTTT CTACTGCAAA
GCTTGCCACG ATGACATCAC AGATCCCAAA AGGATAAAGA AATGTGGATG CAAACGATTG
ATCTATTCCA AGATGTCCGT CTACAAGAGA ATGACGCTGG CATGTTGTTT TGATTGCGGC
CGTTCAGAGC GTGACTGCTC TCGCATGTCA GCCAATGTGC ATCACCATAG TAAAGCGAAG
GACACCCTTC AGCAGCGTGG CTTCCCTCTC TCTCCTGTCT CTCTTAATGA TTGCTCGACC
ACTTTACGTG CCTCAAAAAA TAACTATAAC GGATATATCA AATCAATGGA AGAGGAGCAG
CAGTCAGCCG TTTCTCCTAA AAAGAAACAA GTCAATGGAA ACACGAGGAA CTCACCCAAC
GGTTCACCAA AAATGATGAG GCATGACCCT CTCCTCATGC CGGGGAAGGA ACAGATTGAG
AACATGGACG TGAACGTGAA GAAATACGAC TCCACAGGGA TGTTTCACTG GTGCCAGTCC
AAAGACATTG AGAAGGTCAT CTTGACCCGG AGCGAAGCTG CCATGACTGT TCTAAGCGGC
CACGTGGTCG TCTGTATATT TGGAGACGCA AAGTCGGCTT TGGTGGGCCT TAGGAACCTT
GTGATGCCTC TGAGAGCTAG CAATTTCCAC TACCACGAGC TGAAACCCAT TGTGTTTGTG
GGTTCTCTGG AGTACCTGAA GAGGGAATGG GAGACCCTTC ACAACTTTCC CAAAGTCTCC
ATCTTACCTG GCACACCATT AAGCCGGGCC GATCTGAGGG CCGTCAATAT CAACCTCTGT
GACATGTGTG TCATCCTGTC AGCCAATCAG AGCAATATTG ACGACGCTTC ACTGCAGGAC
AAGGAATGCA TCCTGGCGTC ACTCAACATC AAGTCTATGC AGTTTGATGA CAGCATCGGG
GTGTTGCAGG CTACCTCCCA AGGTTTCACC CTGCCAGGCA TGGACAGGTC CTCTCCTGAA
AACAGTCCAG TTCATGGGGG GTTGGTACGA CAGGCTTCCA TCACAACAGG AGCCAATGTC
CCCATCATCA CTGAACTAGC ACCGTTAGTA AAACCAGCAG GCAAAGTCCT ACCTGTGATT
TCATTCAGTC AGGATACAAG CAGTGGGATC AACATACACA TAATAACAGA ACTGGTGAAC
GACTCCAATG TTCAGTTCCT GGACCAGGAT GATGACGATG ACCCTGACAC AGAGTTGTAC
CTCACTCAAC CCTTCGCCTG TGGGACGGCT TTCGCAGTCA GTGTGCTGGA TTCCCTGATG
AGTGCTACAT ACTTCAATGA TAATATCCTC ACCCTGATCC GGACGCTGGT AACAGGGGGG
GCCACTCCGG AGCTGGAGGG TCTGTTGGCG GAGGAGAATG CATTACGAGG AGGCTACAGC
ACGCCGCAGA CCCTCGCTAA CCGGGACAGG TGTCGTGTTG CACAGCTAGC CTTGTACGAT
GGGCCATTTG CTGACTTGGG GGATGGTGGT TGCTATGGTG ACTTGTTTTG TAAAGCGTTA
AAAACATACA ACATGCTTTG CTTTGGAATT TACCGATTGA GGGACGCCCA TCTAAACACA
CAAAGTCATA CAAGTCAATG CACTAAACGA TATGTAATAA CCAACCCACC GTATGGTTTT
GAGCTGGTGC CATCAGACCT GATCTTCTGC CTGATGCAGT TTGACCACAA CGCGGGTCAG
TCCCAGGCCA GCCTCACCCA TAGCTCCCAC TCCTCCCATT CGTCCAGCAA AAAGAGCTCC
TCCGTCCATT CTATCCCCGC CACCAACCGC ACCAACCGCG CCAAGAGCAG GGACTCACGG
GATAAACAAA AAAAAGACAT GCTTTACAGA TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_014035804.1 CDS 60..3392 Translation
Target ORF information:
RefSeq Version XM_014180329.1 Organism Salmo salar(Atlantic salmon) Definition Salmo salar calcium-activated potassium channel subunit alpha-1 (LOC106589905), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_014180329.1
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
3301ATGAATGTGG TGCTTGTCTT TGCCCTCAGC ATCGGAGCCC TTGTAATATA CTTCATAGAT
TCCTCTGACC CCATCGAGTC CTGTCAGAAC TTCTACAAAG ACTTCACGCT ACAGATCGAC
ATGGCTTTCA ACGTCTTCTT CCTCTTGTAC TTTGGTCTAC GGTTCATAGC GGCCAACGAC
AAGCTGTGGT TCTGGCTGGA GGTGAACTCA GTGGTGGACT TCTTCACTGT TCCCCCGGTG
TTCGTGTCCG TCTATCTCAA CAGGAGCTGG CTTGGCTTAC GTTTTTTAAG GGCCTTAAGA
TTGATACAGT TCTCAGAAAT CTTACAGTTT TTGAATATAT TAAAAACAAG CAATTCCATA
AAACTGGTGA ACTTGTGTTC AATCTTCATA AGCACATGGC TAACAGCTGC AGGCTTCATA
CATTTGGTGG AAAACTCAGG GGATCCTTGG GAAAACTTCC AAAATTCCCA GTCACTTTCC
TACTGGGAAT GTGTCTACTT ACTGATGGTT ACTATGTCCA CTGTGGGCTA TGGAGACGTG
TATGCCAAAA CTACCCTGGG ACGACTTTTC ATGGTCTTCT TCATCCTTGG TGGTTTGGCC
ATGTTTGCGA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATATGGT
GGTTCCTATA GTGCTGTTAA TGGGAGAAAG CACATCGTGG TCTGTGGTCA TATTACCCTT
GAAAGTGTGT CCAACTTCCT TAAAGACTTC CTACACAAGG ACAGGGATGA TGTCAATGTA
GAAATTGTTT TTCTCCATAA TATTTCCCCT AATCTTGAGC TGGAAGCCTT GTTTAAACGG
CACTTCACCC AGGTGGAGTT CTACCAGGGA TCTGTTCTCA ACCCACACGA CCTGGCCAGA
GTCAAGATAG AGTCAGCAGA TGCCTGTTTG ATCCTAGCTA ATAAATACTG TGCAGACCCT
GATGCTGAGG ATGCTTCCAA CATCATGAGG GTGATATCCA TCAAGAACTA CCATCCGAAG
ATCAGAATCA TTACCCAGAT GTTGCAGTAC CACAACAAGG CCCACCTTTT GAACATTCCC
AGTTGGAACT GGAAGGAGGG GGACGATGCC ATTTGCCTTG CTGAGCTGAA GCTTGGCTTC
ATAGCACAGA GTTGTCTGGC TCAGGGCCTC TCCACCATGC TGGCCAACCT CTTCTCCATG
AGGTCCTTTA TCAAGATTGA AGAGGACACG TGGCAGAAGT ATTACCTGGA AGGAGTAGCC
AATGAAATGT ACACTGAGTA CTTGTCTAGT GCCTTTGTGG GCTTATCCTT CCCCACCATT
TGTGAACTGT GCTATGTGAA GCTAAAGCTG CTACTGATCG CTATCGAGTA CAAGTCTGAT
ATACGGGAAA GCAGCACTCT CATCAACCCT GGGAACCATG TGAAGATGCA GGAAGGAACC
TTGGGGTTCT TTATCGCCAG CGATGCCAAA GAAGTTAAGA GGGCACTTTT CTACTGCAAA
GCTTGCCACG ATGACATCAC AGATCCCAAA AGGATAAAGA AATGTGGATG CAAACGATTG
ATCTATTCCA AGATGTCCGT CTACAAGAGA ATGACGCTGG CATGTTGTTT TGATTGCGGC
CGTTCAGAGC GTGACTGCTC TCGCATGTCA GCCAATGTGC ATCACCATAG TAAAGCGAAG
GACACCCTTC AGCAGCGTGG CTTCCCTCTC TCTCCTGTCT CTCTTAATGA TTGCTCGACC
ACTTTACGTG CCTCAAAAAA TAACTATAAC GGATATATCA AATCAATGGA AGAGGAGCAG
CAGTCAGCCG TTTCTCCTAA AAAGAAACAA GTCAATGGAA ACACGAGGAA CTCACCCAAC
GGTTCACCAA AAATGATGAG GCATGACCCT CTCCTCATGC CGGGGAAGGA ACAGATTGAG
AACATGGACG TGAACGTGAA GAAATACGAC TCCACAGGGA TGTTTCACTG GTGCCAGTCC
AAAGACATTG AGAAGGTCAT CTTGACCCGG AGCGAAGCTG CCATGACTGT TCTAAGCGGC
CACGTGGTCG TCTGTATATT TGGAGACGCA AAGTCGGCTT TGGTGGGCCT TAGGAACCTT
GTGATGCCTC TGAGAGCTAG CAATTTCCAC TACCACGAGC TGAAACCCAT TGTGTTTGTG
GGTTCTCTGG AGTACCTGAA GAGGGAATGG GAGACCCTTC ACAACTTTCC CAAAGTCTCC
ATCTTACCTG GCACACCATT AAGCCGGGCC GATCTGAGGG CCGTCAATAT CAACCTCTGT
GACATGTGTG TCATCCTGTC AGCCAATCAG AGCAATATTG ACGACGCTTC ACTGCAGGAC
AAGGAATGCA TCCTGGCGTC ACTCAACATC AAGTCTATGC AGTTTGATGA CAGCATCGGG
GTGTTGCAGG CTACCTCCCA AGGTTTCACC CTGCCAGGCA TGGACAGGTC CTCTCCTGAA
AACAGTCCAG TTCATGGGGG GTTGGTACGA CAGGCTTCCA TCACAACAGG AGCCAATGTC
CCCATCATCA CTGAACTAGC ACCGTTAGTA AAACCAGCAG GCAAAGTCCT ACCTGTGATT
TCATTCAGTC AGGATACAAG CAGTGGGATC AACATACACA TAATAACAGA ACTGGTGAAC
GACTCCAATG TTCAGTTCCT GGACCAGGAT GATGACGATG ACCCTGACAC AGAGTTGTAC
CTCACTCAAC CCTTCGCCTG TGGGACGGCT TTCGCAGTCA GTGTGCTGGA TTCCCTGATG
AGTGCTACAT ACTTCAATGA TAATATCCTC ACCCTGATCC GGACGCTGGT AACAGGGGGG
GCCACTCCGG AGCTGGAGGG TCTGTTGGCG GAGGAGAATG CATTACGAGG AGGCTACAGC
ACGCCGCAGA CCCTCGCTAA CCGGGACAGG TGTCGTGTTG CACAGCTAGC CTTGTACGAT
GGGCCATTTG CTGACTTGGG GGATGGTGGT TGCTATGGTG ACTTGTTTTG TAAAGCGTTA
AAAACATACA ACATGCTTTG CTTTGGAATT TACCGATTGA GGGACGCCCA TCTAAACACA
CAAAGTCATA CAAGTCAATG CACTAAACGA TATGTAATAA CCAACCCACC GTATGGTTTT
GAGCTGGTGC CATCAGACCT GATCTTCTGC CTGATGCAGT TTGACCACAA CGCGGGTCAG
TCCCAGGCCA GCCTCACCCA TAGCTCCCAC TCCTCCCATT CGTCCAGCAA AAAGAGCTCC
TCCGTCCATT CTATCCCCGC CACCAACCGC ACCAACCGCG CCAAGAGCAG GGACTCACGG
GATAAACAAA AAAAAGACAT GCTTTACAGA TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAt73584 Clone ID Related Accession (Same CDS sequence) XM_014180330.1 Accession Version XM_014180330.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3333bp)
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 1442678400000 Organism Salmo salar(Atlantic salmon) Product calcium-activated potassium channel subunit alpha-1 isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012341616.1) 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 Version :: Salmo salar Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301ATGAATGTGG TGCTTGTCTT TGCCCTCAGC ATCGGAGCCC TTGTAATATA CTTCATAGAT
TCCTCTGACC CCATCGAGTC CTGTCAGAAC TTCTACAAAG ACTTCACGCT ACAGATCGAC
ATGGCTTTCA ACGTCTTCTT CCTCTTGTAC TTTGGTCTAC GGTTCATAGC GGCCAACGAC
AAGCTGTGGT TCTGGCTGGA GGTGAACTCA GTGGTGGACT TCTTCACTGT TCCCCCGGTG
TTCGTGTCCG TCTATCTCAA CAGGAGCTGG CTTGGCTTAC GTTTTTTAAG GGCCTTAAGA
TTGATACAGT TCTCAGAAAT CTTACAGTTT TTGAATATAT TAAAAACAAG CAATTCCATA
AAACTGGTGA ACTTGTGTTC AATCTTCATA AGCACATGGC TAACAGCTGC AGGCTTCATA
CATTTGGTGG AAAACTCAGG GGATCCTTGG GAAAACTTCC AAAATTCCCA GTCACTTTCC
TACTGGGAAT GTGTCTACTT ACTGATGGTT ACTATGTCCA CTGTGGGCTA TGGAGACGTG
TATGCCAAAA CTACCCTGGG ACGACTTTTC ATGGTCTTCT TCATCCTTGG TGGTTTGGCC
ATGTTTGCTC GCTACGTGCC AGAAATTGCT GCTCTCATCC TTAATCGGAA GAAATACGGA
GGGAGTTATA ACTCGACCCG AGGCAGAAAG CACATCGTGG TCTGTGGTCA TATTACCCTT
GAAAGTGTGT CCAACTTCCT TAAAGACTTC CTACACAAGG ACAGGGATGA TGTCAATGTA
GAAATTGTTT TTCTCCATAA TATTTCCCCT AATCTTGAGC TGGAAGCCTT GTTTAAACGG
CACTTCACCC AGGTGGAGTT CTACCAGGGA TCTGTTCTCA ACCCACACGA CCTGGCCAGA
GTCAAGATAG AGTCAGCAGA TGCCTGTTTG ATCCTAGCTA ATAAATACTG TGCAGACCCT
GATGCTGAGG ATGCTTCCAA CATCATGAGG GTGATATCCA TCAAGAACTA CCATCCGAAG
ATCAGAATCA TTACCCAGAT GTTGCAGTAC CACAACAAGG CCCACCTTTT GAACATTCCC
AGTTGGAACT GGAAGGAGGG GGACGATGCC ATTTGCCTTG CTGAGCTGAA GCTTGGCTTC
ATAGCACAGA GTTGTCTGGC TCAGGGCCTC TCCACCATGC TGGCCAACCT CTTCTCCATG
AGGTCCTTTA TCAAGATTGA AGAGGACACG TGGCAGAAGT ATTACCTGGA AGGAGTAGCC
AATGAAATGT ACACTGAGTA CTTGTCTAGT GCCTTTGTGG GCTTATCCTT CCCCACCATT
TGTGAACTGT GCTATGTGAA GCTAAAGCTG CTACTGATCG CTATCGAGTA CAAGTCTGAT
ATACGGGAAA GCAGCACTCT CATCAACCCT GGGAACCATG TGAAGATGCA GGAAGGAACC
TTGGGGTTCT TTATCGCCAG CGATGCCAAA GAAGTTAAGA GGGCACTTTT CTACTGCAAA
GCTTGCCACG ATGACATCAC AGATCCCAAA AGGATAAAGA AATGTGGATG CAAACGATTG
ATCTATTCCA AGATGTCCGT CTACAAGAGA ATGACGCTGG CATGTTGTTT TGATTGCGGC
CGTTCAGAGC GTGACTGCTC TCGCATGTCA GCCAATGTGC ATCACCATAG TAAAGCGAAG
GACACCCTTC AGCAGCGTGG CTTCCCTCTC TCTCCTGTCT CTCTTAATGA TTGCTCGACC
ACTTTACGTG CCTCAAAAAA TAACTATAAC GGATATATCA AATCAATGGA AGAGGAGCAG
CAGTCAGCCG TTTCTCCTAA AAAGAAACAA GTCAATGGAA ACACGAGGAA CTCACCCAAC
GGTTCACCAA AAATGATGAG GCATGACCCT CTCCTCATGC CGGGGAAGGA ACAGATTGAG
AACATGGACG TGAACGTGAA GAAATACGAC TCCACAGGGA TGTTTCACTG GTGCCAGTCC
AAAGACATTG AGAAGGTCAT CTTGACCCGG AGCGAAGCTG CCATGACTGT TCTAAGCGGC
CACGTGGTCG TCTGTATATT TGGAGACGCA AAGTCGGCTT TGGTGGGCCT TAGGAACCTT
GTGATGCCTC TGAGAGCTAG CAATTTCCAC TACCACGAGC TGAAACCCAT TGTGTTTGTG
GGTTCTCTGG AGTACCTGAA GAGGGAATGG GAGACCCTTC ACAACTTTCC CAAAGTCTCC
ATCTTACCTG GCACACCATT AAGCCGGGCC GATCTGAGGG CCGTCAATAT CAACCTCTGT
GACATGTGTG TCATCCTGTC AGCCAATCAG AGCAATATTG ACGACGCTTC ACTGCAGGAC
AAGGAATGCA TCCTGGCGTC ACTCAACATC AAGTCTATGC AGTTTGATGA CAGCATCGGG
GTGTTGCAGG CTACCTCCCA AGGTTTCACC CTGCCAGGCA TGGACAGGTC CTCTCCTGAA
AACAGTCCAG TTCATGGGGG GTTGGTACGA CAGGCTTCCA TCACAACAGG AGCCAATGTC
CCCATCATCA CTGAACTAGC ACCGTTAGTA AAACCAGCAG GCAAAGTCCT ACCTGTGATT
TCATTCAGTC AGGATACAAG CAGTGGGATC AACATACACA TAATAACAGA ACTGGTGAAC
GACTCCAATG TTCAGTTCCT GGACCAGGAT GATGACGATG ACCCTGACAC AGAGTTGTAC
CTCACTCAAC CCTTCGCCTG TGGGACGGCT TTCGCAGTCA GTGTGCTGGA TTCCCTGATG
AGTGCTACAT ACTTCAATGA TAATATCCTC ACCCTGATCC GGACGCTGGT AACAGGGGGG
GCCACTCCGG AGCTGGAGGG TCTGTTGGCG GAGGAGAATG CATTACGAGG AGGCTACAGC
ACGCCGCAGA CCCTCGCTAA CCGGGACAGG TGTCGTGTTG CACAGCTAGC CTTGTACGAT
GGGCCATTTG CTGACTTGGG GGATGGTGGT TGCTATGGTG ACTTGTTTTG TAAAGCGTTA
AAAACATACA ACATGCTTTG CTTTGGAATT TACCGATTGA GGGACGCCCA TCTAAACACA
CAAAGTCATA CAAGTCAATG CACTAAACGA TATGTAATAA CCAACCCACC GTATGGTTTT
GAGCTGGTGC CATCAGACCT GATCTTCTGC CTGATGCAGT TTGACCACAA CGCGGGTCAG
TCCCAGGCCA GCCTCACCCA TAGCTCCCAC TCCTCCCATT CGTCCAGCAA AAAGAGCTCC
TCCGTCCATT CTATCCCCGC CACCAACCGC ACCAACCGCG CCAAGAGCAG GGACTCACGG
GATAAACAAA AAAAAGACAT GCTTTACAGA TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_014035805.1 CDS 60..3392 Translation
Target ORF information:
RefSeq Version XM_014180330.1 Organism Salmo salar(Atlantic salmon) Definition Salmo salar calcium-activated potassium channel subunit alpha-1 (LOC106589905), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_014180330.1
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
3301ATGAATGTGG TGCTTGTCTT TGCCCTCAGC ATCGGAGCCC TTGTAATATA CTTCATAGAT
TCCTCTGACC CCATCGAGTC CTGTCAGAAC TTCTACAAAG ACTTCACGCT ACAGATCGAC
ATGGCTTTCA ACGTCTTCTT CCTCTTGTAC TTTGGTCTAC GGTTCATAGC GGCCAACGAC
AAGCTGTGGT TCTGGCTGGA GGTGAACTCA GTGGTGGACT TCTTCACTGT TCCCCCGGTG
TTCGTGTCCG TCTATCTCAA CAGGAGCTGG CTTGGCTTAC GTTTTTTAAG GGCCTTAAGA
TTGATACAGT TCTCAGAAAT CTTACAGTTT TTGAATATAT TAAAAACAAG CAATTCCATA
AAACTGGTGA ACTTGTGTTC AATCTTCATA AGCACATGGC TAACAGCTGC AGGCTTCATA
CATTTGGTGG AAAACTCAGG GGATCCTTGG GAAAACTTCC AAAATTCCCA GTCACTTTCC
TACTGGGAAT GTGTCTACTT ACTGATGGTT ACTATGTCCA CTGTGGGCTA TGGAGACGTG
TATGCCAAAA CTACCCTGGG ACGACTTTTC ATGGTCTTCT TCATCCTTGG TGGTTTGGCC
ATGTTTGCTC GCTACGTGCC AGAAATTGCT GCTCTCATCC TTAATCGGAA GAAATACGGA
GGGAGTTATA ACTCGACCCG AGGCAGAAAG CACATCGTGG TCTGTGGTCA TATTACCCTT
GAAAGTGTGT CCAACTTCCT TAAAGACTTC CTACACAAGG ACAGGGATGA TGTCAATGTA
GAAATTGTTT TTCTCCATAA TATTTCCCCT AATCTTGAGC TGGAAGCCTT GTTTAAACGG
CACTTCACCC AGGTGGAGTT CTACCAGGGA TCTGTTCTCA ACCCACACGA CCTGGCCAGA
GTCAAGATAG AGTCAGCAGA TGCCTGTTTG ATCCTAGCTA ATAAATACTG TGCAGACCCT
GATGCTGAGG ATGCTTCCAA CATCATGAGG GTGATATCCA TCAAGAACTA CCATCCGAAG
ATCAGAATCA TTACCCAGAT GTTGCAGTAC CACAACAAGG CCCACCTTTT GAACATTCCC
AGTTGGAACT GGAAGGAGGG GGACGATGCC ATTTGCCTTG CTGAGCTGAA GCTTGGCTTC
ATAGCACAGA GTTGTCTGGC TCAGGGCCTC TCCACCATGC TGGCCAACCT CTTCTCCATG
AGGTCCTTTA TCAAGATTGA AGAGGACACG TGGCAGAAGT ATTACCTGGA AGGAGTAGCC
AATGAAATGT ACACTGAGTA CTTGTCTAGT GCCTTTGTGG GCTTATCCTT CCCCACCATT
TGTGAACTGT GCTATGTGAA GCTAAAGCTG CTACTGATCG CTATCGAGTA CAAGTCTGAT
ATACGGGAAA GCAGCACTCT CATCAACCCT GGGAACCATG TGAAGATGCA GGAAGGAACC
TTGGGGTTCT TTATCGCCAG CGATGCCAAA GAAGTTAAGA GGGCACTTTT CTACTGCAAA
GCTTGCCACG ATGACATCAC AGATCCCAAA AGGATAAAGA AATGTGGATG CAAACGATTG
ATCTATTCCA AGATGTCCGT CTACAAGAGA ATGACGCTGG CATGTTGTTT TGATTGCGGC
CGTTCAGAGC GTGACTGCTC TCGCATGTCA GCCAATGTGC ATCACCATAG TAAAGCGAAG
GACACCCTTC AGCAGCGTGG CTTCCCTCTC TCTCCTGTCT CTCTTAATGA TTGCTCGACC
ACTTTACGTG CCTCAAAAAA TAACTATAAC GGATATATCA AATCAATGGA AGAGGAGCAG
CAGTCAGCCG TTTCTCCTAA AAAGAAACAA GTCAATGGAA ACACGAGGAA CTCACCCAAC
GGTTCACCAA AAATGATGAG GCATGACCCT CTCCTCATGC CGGGGAAGGA ACAGATTGAG
AACATGGACG TGAACGTGAA GAAATACGAC TCCACAGGGA TGTTTCACTG GTGCCAGTCC
AAAGACATTG AGAAGGTCAT CTTGACCCGG AGCGAAGCTG CCATGACTGT TCTAAGCGGC
CACGTGGTCG TCTGTATATT TGGAGACGCA AAGTCGGCTT TGGTGGGCCT TAGGAACCTT
GTGATGCCTC TGAGAGCTAG CAATTTCCAC TACCACGAGC TGAAACCCAT TGTGTTTGTG
GGTTCTCTGG AGTACCTGAA GAGGGAATGG GAGACCCTTC ACAACTTTCC CAAAGTCTCC
ATCTTACCTG GCACACCATT AAGCCGGGCC GATCTGAGGG CCGTCAATAT CAACCTCTGT
GACATGTGTG TCATCCTGTC AGCCAATCAG AGCAATATTG ACGACGCTTC ACTGCAGGAC
AAGGAATGCA TCCTGGCGTC ACTCAACATC AAGTCTATGC AGTTTGATGA CAGCATCGGG
GTGTTGCAGG CTACCTCCCA AGGTTTCACC CTGCCAGGCA TGGACAGGTC CTCTCCTGAA
AACAGTCCAG TTCATGGGGG GTTGGTACGA CAGGCTTCCA TCACAACAGG AGCCAATGTC
CCCATCATCA CTGAACTAGC ACCGTTAGTA AAACCAGCAG GCAAAGTCCT ACCTGTGATT
TCATTCAGTC AGGATACAAG CAGTGGGATC AACATACACA TAATAACAGA ACTGGTGAAC
GACTCCAATG TTCAGTTCCT GGACCAGGAT GATGACGATG ACCCTGACAC AGAGTTGTAC
CTCACTCAAC CCTTCGCCTG TGGGACGGCT TTCGCAGTCA GTGTGCTGGA TTCCCTGATG
AGTGCTACAT ACTTCAATGA TAATATCCTC ACCCTGATCC GGACGCTGGT AACAGGGGGG
GCCACTCCGG AGCTGGAGGG TCTGTTGGCG GAGGAGAATG CATTACGAGG AGGCTACAGC
ACGCCGCAGA CCCTCGCTAA CCGGGACAGG TGTCGTGTTG CACAGCTAGC CTTGTACGAT
GGGCCATTTG CTGACTTGGG GGATGGTGGT TGCTATGGTG ACTTGTTTTG TAAAGCGTTA
AAAACATACA ACATGCTTTG CTTTGGAATT TACCGATTGA GGGACGCCCA TCTAAACACA
CAAAGTCATA CAAGTCAATG CACTAAACGA TATGTAATAA CCAACCCACC GTATGGTTTT
GAGCTGGTGC CATCAGACCT GATCTTCTGC CTGATGCAGT TTGACCACAA CGCGGGTCAG
TCCCAGGCCA GCCTCACCCA TAGCTCCCAC TCCTCCCATT CGTCCAGCAA AAAGAGCTCC
TCCGTCCATT CTATCCCCGC CACCAACCGC ACCAACCGCG CCAAGAGCAG GGACTCACGG
GATAAACAAA AAAAAGACAT GCTTTACAGA TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAt73585 Clone ID Related Accession (Same CDS sequence) XM_014180331.1 Accession Version XM_014180331.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3300bp)
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 1442678400000 Organism Salmo salar(Atlantic salmon) Product calcium-activated potassium channel subunit alpha-1 isoform X3 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012341616.1) 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 Version :: Salmo salar Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241ATGAATGTGG TGCTTGTCTT TGCCCTCAGC ATCGGAGCCC TTGTAATATA CTTCATAGAT
TCCTCTGACC CCATCGAGTC CTGTCAGAAC TTCTACAAAG ACTTCACGCT ACAGATCGAC
ATGGCTTTCA ACGTCTTCTT CCTCTTGTAC TTTGGTCTAC GGTTCATAGC GGCCAACGAC
AAGCTGTGGT TCTGGCTGGA GGTGAACTCA GTGGTGGACT TCTTCACTGT TCCCCCGGTG
TTCGTGTCCG TCTATCTCAA CAGGAGCTGG CTTGGCTTAC GTTTTTTAAG GGCCTTAAGA
TTGATACAGT TCTCAGAAAT CTTACAGTTT TTGAATATAT TAAAAACAAG CAATTCCATA
AAACTGGTGA ACTTGTGTTC AATCTTCATA AGCACATGGC TAACAGCTGC AGGCTTCATA
CATTTGGTGG AAAACTCAGG GGATCCTTGG GAAAACTTCC AAAATTCCCA GTCACTTTCC
TACTGGGAAT GTGTCTACTT ACTGATGGTT ACTATGTCCA CTGTGGGCTA TGGAGACGTG
TATGCCAAAA CTACCCTGGG ACGACTTTTC ATGGTCTTCT TCATCCTTGG TGGTTTGGCC
ATGTTTGCGA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATATGGT
GGTTCCTATA GTGCTGTTAA TGGGAGAAAG CACATCGTGG TCTGTGGTCA TATTACCCTT
GAAAGTGTGT CCAACTTCCT TAAAGACTTC CTACACAAGG ACAGGGATGA TGTCAATGTA
GAAATTGTTT TTCTCCATAA TATTTCCCCT AATCTTGAGC TGGAAGCCTT GTTTAAACGG
CACTTCACCC AGGTGGAGTT CTACCAGGGA TCTGTTCTCA ACCCACACGA CCTGGCCAGA
GTCAAGATAG AGTCAGCAGA TGCCTGTTTG ATCCTAGCTA ATAAATACTG TGCAGACCCT
GATGCTGAGG ATGCTTCCAA CATCATGAGG GTGATATCCA TCAAGAACTA CCATCCGAAG
ATCAGAATCA TTACCCAGAT GTTGCAGTAC CACAACAAGG CCCACCTTTT GAACATTCCC
AGTTGGAACT GGAAGGAGGG GGACGATGCC ATTTGCCTTG CTGAGCTGAA GCTTGGCTTC
ATAGCACAGA GTTGTCTGGC TCAGGGCCTC TCCACCATGC TGGCCAACCT CTTCTCCATG
AGGTCCTTTA TCAAGATTGA AGAGGACACG TGGCAGAAGT ATTACCTGGA AGGAGTAGCC
AATGAAATGT ACACTGAGTA CTTGTCTAGT GCCTTTGTGG GCTTATCCTT CCCCACCATT
TGTGAACTGT GCTATGTGAA GCTAAAGCTG CTACTGATCG CTATCGAGTA CAAGTCTGAT
ATACGGGAAA GCAGCACTCT CATCAACCCT GGGAACCATG TGAAGATGCA GGAAGGAACC
TTGGGGTTCT TTATCGCCAG CGATGCCAAA GAAGTTAAGA GGGCACTTTT CTACTGCAAA
GCTTGCCACG ATGACATCAC AGATCCCAAA AGGATAAAGA AATGTGGATG CAAACGATTG
ATCTATTCCA AGATGTCCGT CTACAAGAGA ATGACGCTGG CATGTTGTTT TGATTGCGGC
CGTTCAGAGC GTGACTGCTC TCGCATGTCA GCCAATGTGC ATCACCATAG TAAAGCGAAG
GACACCCTTC AGCAGCGTGG CTTCCCTCTC TCTCCTGTCT CTCTTAATGA TTGCTCGACC
ACTTTACGTG CCTTGGAAGA GGAGCAGCAG TCAGCCGTTT CTCCTAAAAA GAAACAAGTC
AATGGAAACA CGAGGAACTC ACCCAACGGT TCACCAAAAA TGATGAGGCA TGACCCTCTC
CTCATGCCGG GGAAGGAACA GATTGAGAAC ATGGACGTGA ACGTGAAGAA ATACGACTCC
ACAGGGATGT TTCACTGGTG CCAGTCCAAA GACATTGAGA AGGTCATCTT GACCCGGAGC
GAAGCTGCCA TGACTGTTCT AAGCGGCCAC GTGGTCGTCT GTATATTTGG AGACGCAAAG
TCGGCTTTGG TGGGCCTTAG GAACCTTGTG ATGCCTCTGA GAGCTAGCAA TTTCCACTAC
CACGAGCTGA AACCCATTGT GTTTGTGGGT TCTCTGGAGT ACCTGAAGAG GGAATGGGAG
ACCCTTCACA ACTTTCCCAA AGTCTCCATC TTACCTGGCA CACCATTAAG CCGGGCCGAT
CTGAGGGCCG TCAATATCAA CCTCTGTGAC ATGTGTGTCA TCCTGTCAGC CAATCAGAGC
AATATTGACG ACGCTTCACT GCAGGACAAG GAATGCATCC TGGCGTCACT CAACATCAAG
TCTATGCAGT TTGATGACAG CATCGGGGTG TTGCAGGCTA CCTCCCAAGG TTTCACCCTG
CCAGGCATGG ACAGGTCCTC TCCTGAAAAC AGTCCAGTTC ATGGGGGGTT GGTACGACAG
GCTTCCATCA CAACAGGAGC CAATGTCCCC ATCATCACTG AACTAGCACC GTTAGTAAAA
CCAGCAGGCA AAGTCCTACC TGTGATTTCA TTCAGTCAGG ATACAAGCAG TGGGATCAAC
ATACACATAA TAACAGAACT GGTGAACGAC TCCAATGTTC AGTTCCTGGA CCAGGATGAT
GACGATGACC CTGACACAGA GTTGTACCTC ACTCAACCCT TCGCCTGTGG GACGGCTTTC
GCAGTCAGTG TGCTGGATTC CCTGATGAGT GCTACATACT TCAATGATAA TATCCTCACC
CTGATCCGGA CGCTGGTAAC AGGGGGGGCC ACTCCGGAGC TGGAGGGTCT GTTGGCGGAG
GAGAATGCAT TACGAGGAGG CTACAGCACG CCGCAGACCC TCGCTAACCG GGACAGGTGT
CGTGTTGCAC AGCTAGCCTT GTACGATGGG CCATTTGCTG ACTTGGGGGA TGGTGGTTGC
TATGGTGACT TGTTTTGTAA AGCGTTAAAA ACATACAACA TGCTTTGCTT TGGAATTTAC
CGATTGAGGG ACGCCCATCT AAACACACAA AGTCATACAA GTCAATGCAC TAAACGATAT
GTAATAACCA ACCCACCGTA TGGTTTTGAG CTGGTGCCAT CAGACCTGAT CTTCTGCCTG
ATGCAGTTTG ACCACAACGC GGGTCAGTCC CAGGCCAGCC TCACCCATAG CTCCCACTCC
TCCCATTCGT CCAGCAAAAA GAGCTCCTCC GTCCATTCTA TCCCCGCCAC CAACCGCACC
AACCGCGCCA AGAGCAGGGA CTCACGGGAT AAACAAAAAA AAGACATGCT TTACAGATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_014035806.1 CDS 60..3359 Translation
Target ORF information:
RefSeq Version XM_014180331.1 Organism Salmo salar(Atlantic salmon) Definition Salmo salar calcium-activated potassium channel subunit alpha-1 (LOC106589905), transcript variant X4, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_014180331.1
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
3241ATGAATGTGG TGCTTGTCTT TGCCCTCAGC ATCGGAGCCC TTGTAATATA CTTCATAGAT
TCCTCTGACC CCATCGAGTC CTGTCAGAAC TTCTACAAAG ACTTCACGCT ACAGATCGAC
ATGGCTTTCA ACGTCTTCTT CCTCTTGTAC TTTGGTCTAC GGTTCATAGC GGCCAACGAC
AAGCTGTGGT TCTGGCTGGA GGTGAACTCA GTGGTGGACT TCTTCACTGT TCCCCCGGTG
TTCGTGTCCG TCTATCTCAA CAGGAGCTGG CTTGGCTTAC GTTTTTTAAG GGCCTTAAGA
TTGATACAGT TCTCAGAAAT CTTACAGTTT TTGAATATAT TAAAAACAAG CAATTCCATA
AAACTGGTGA ACTTGTGTTC AATCTTCATA AGCACATGGC TAACAGCTGC AGGCTTCATA
CATTTGGTGG AAAACTCAGG GGATCCTTGG GAAAACTTCC AAAATTCCCA GTCACTTTCC
TACTGGGAAT GTGTCTACTT ACTGATGGTT ACTATGTCCA CTGTGGGCTA TGGAGACGTG
TATGCCAAAA CTACCCTGGG ACGACTTTTC ATGGTCTTCT TCATCCTTGG TGGTTTGGCC
ATGTTTGCGA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATATGGT
GGTTCCTATA GTGCTGTTAA TGGGAGAAAG CACATCGTGG TCTGTGGTCA TATTACCCTT
GAAAGTGTGT CCAACTTCCT TAAAGACTTC CTACACAAGG ACAGGGATGA TGTCAATGTA
GAAATTGTTT TTCTCCATAA TATTTCCCCT AATCTTGAGC TGGAAGCCTT GTTTAAACGG
CACTTCACCC AGGTGGAGTT CTACCAGGGA TCTGTTCTCA ACCCACACGA CCTGGCCAGA
GTCAAGATAG AGTCAGCAGA TGCCTGTTTG ATCCTAGCTA ATAAATACTG TGCAGACCCT
GATGCTGAGG ATGCTTCCAA CATCATGAGG GTGATATCCA TCAAGAACTA CCATCCGAAG
ATCAGAATCA TTACCCAGAT GTTGCAGTAC CACAACAAGG CCCACCTTTT GAACATTCCC
AGTTGGAACT GGAAGGAGGG GGACGATGCC ATTTGCCTTG CTGAGCTGAA GCTTGGCTTC
ATAGCACAGA GTTGTCTGGC TCAGGGCCTC TCCACCATGC TGGCCAACCT CTTCTCCATG
AGGTCCTTTA TCAAGATTGA AGAGGACACG TGGCAGAAGT ATTACCTGGA AGGAGTAGCC
AATGAAATGT ACACTGAGTA CTTGTCTAGT GCCTTTGTGG GCTTATCCTT CCCCACCATT
TGTGAACTGT GCTATGTGAA GCTAAAGCTG CTACTGATCG CTATCGAGTA CAAGTCTGAT
ATACGGGAAA GCAGCACTCT CATCAACCCT GGGAACCATG TGAAGATGCA GGAAGGAACC
TTGGGGTTCT TTATCGCCAG CGATGCCAAA GAAGTTAAGA GGGCACTTTT CTACTGCAAA
GCTTGCCACG ATGACATCAC AGATCCCAAA AGGATAAAGA AATGTGGATG CAAACGATTG
ATCTATTCCA AGATGTCCGT CTACAAGAGA ATGACGCTGG CATGTTGTTT TGATTGCGGC
CGTTCAGAGC GTGACTGCTC TCGCATGTCA GCCAATGTGC ATCACCATAG TAAAGCGAAG
GACACCCTTC AGCAGCGTGG CTTCCCTCTC TCTCCTGTCT CTCTTAATGA TTGCTCGACC
ACTTTACGTG CCTTGGAAGA GGAGCAGCAG TCAGCCGTTT CTCCTAAAAA GAAACAAGTC
AATGGAAACA CGAGGAACTC ACCCAACGGT TCACCAAAAA TGATGAGGCA TGACCCTCTC
CTCATGCCGG GGAAGGAACA GATTGAGAAC ATGGACGTGA ACGTGAAGAA ATACGACTCC
ACAGGGATGT TTCACTGGTG CCAGTCCAAA GACATTGAGA AGGTCATCTT GACCCGGAGC
GAAGCTGCCA TGACTGTTCT AAGCGGCCAC GTGGTCGTCT GTATATTTGG AGACGCAAAG
TCGGCTTTGG TGGGCCTTAG GAACCTTGTG ATGCCTCTGA GAGCTAGCAA TTTCCACTAC
CACGAGCTGA AACCCATTGT GTTTGTGGGT TCTCTGGAGT ACCTGAAGAG GGAATGGGAG
ACCCTTCACA ACTTTCCCAA AGTCTCCATC TTACCTGGCA CACCATTAAG CCGGGCCGAT
CTGAGGGCCG TCAATATCAA CCTCTGTGAC ATGTGTGTCA TCCTGTCAGC CAATCAGAGC
AATATTGACG ACGCTTCACT GCAGGACAAG GAATGCATCC TGGCGTCACT CAACATCAAG
TCTATGCAGT TTGATGACAG CATCGGGGTG TTGCAGGCTA CCTCCCAAGG TTTCACCCTG
CCAGGCATGG ACAGGTCCTC TCCTGAAAAC AGTCCAGTTC ATGGGGGGTT GGTACGACAG
GCTTCCATCA CAACAGGAGC CAATGTCCCC ATCATCACTG AACTAGCACC GTTAGTAAAA
CCAGCAGGCA AAGTCCTACC TGTGATTTCA TTCAGTCAGG ATACAAGCAG TGGGATCAAC
ATACACATAA TAACAGAACT GGTGAACGAC TCCAATGTTC AGTTCCTGGA CCAGGATGAT
GACGATGACC CTGACACAGA GTTGTACCTC ACTCAACCCT TCGCCTGTGG GACGGCTTTC
GCAGTCAGTG TGCTGGATTC CCTGATGAGT GCTACATACT TCAATGATAA TATCCTCACC
CTGATCCGGA CGCTGGTAAC AGGGGGGGCC ACTCCGGAGC TGGAGGGTCT GTTGGCGGAG
GAGAATGCAT TACGAGGAGG CTACAGCACG CCGCAGACCC TCGCTAACCG GGACAGGTGT
CGTGTTGCAC AGCTAGCCTT GTACGATGGG CCATTTGCTG ACTTGGGGGA TGGTGGTTGC
TATGGTGACT TGTTTTGTAA AGCGTTAAAA ACATACAACA TGCTTTGCTT TGGAATTTAC
CGATTGAGGG ACGCCCATCT AAACACACAA AGTCATACAA GTCAATGCAC TAAACGATAT
GTAATAACCA ACCCACCGTA TGGTTTTGAG CTGGTGCCAT CAGACCTGAT CTTCTGCCTG
ATGCAGTTTG ACCACAACGC GGGTCAGTCC CAGGCCAGCC TCACCCATAG CTCCCACTCC
TCCCATTCGT CCAGCAAAAA GAGCTCCTCC GTCCATTCTA TCCCCGCCAC CAACCGCACC
AACCGCGCCA AGAGCAGGGA CTCACGGGAT AAACAAAAAA AAGACATGCT TTACAGATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAt73586 Clone ID Related Accession (Same CDS sequence) XM_014180332.1 Accession Version XM_014180332.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3237bp)
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 1442678400000 Organism Salmo salar(Atlantic salmon) Product calcium-activated potassium channel subunit alpha-1 isoform X4 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012341616.1) 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 Version :: Salmo salar Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181ATGAATGTGG TGCTTGTCTT TGCCCTCAGC ATCGGAGCCC TTGTAATATA CTTCATAGAT
TCCTCTGACC CCATCGAGTC CTGTCAGAAC TTCTACAAAG ACTTCACGCT ACAGATCGAC
ATGGCTTTCA ACGTCTTCTT CCTCTTGTAC TTTGGTCTAC GGTTCATAGC GGCCAACGAC
AAGCTGTGGT TCTGGCTGGA GGTGAACTCA GTGGTGGACT TCTTCACTGT TCCCCCGGTG
TTCGTGTCCG TCTATCTCAA CAGGAGCTGG CTTGGCTTAC GTTTTTTAAG GGCCTTAAGA
TTGATACAGT TCTCAGAAAT CTTACAGTTT TTGAATATAT TAAAAACAAG CAATTCCATA
AAACTGGTGA ACTTGTGTTC AATCTTCATA AGCACATGGC TAACAGCTGC AGGCTTCATA
CATTTGGTGG AAAACTCAGG GGATCCTTGG GAAAACTTCC AAAATTCCCA GTCACTTTCC
TACTGGGAAT GTGTCTACTT ACTGATGGTT ACTATGTCCA CTGTGGGCTA TGGAGACGTG
TATGCCAAAA CTACCCTGGG ACGACTTTTC ATGGTCTTCT TCATCCTTGG TGGTTTGGCC
ATGTTTGCGA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATATGGT
GGTTCCTATA GTGCTGTTAA TGGGAGAAAG CACATCGTGG TCTGTGGTCA TATTACCCTT
GAAAGTGTGT CCAACTTCCT TAAAGACTTC CTACACAAGG ACAGGGATGA TGTCAATGTA
GAAATTGTTT TTCTCCATAA TATTTCCCCT AATCTTGAGC TGGAAGCCTT GTTTAAACGG
CACTTCACCC AGGTGGAGTT CTACCAGGGA TCTGTTCTCA ACCCACACGA CCTGGCCAGA
GTCAAGATAG AGTCAGCAGA TGCCTGTTTG ATCCTAGCTA ATAAATACTG TGCAGACCCT
GATGCTGAGG ATGCTTCCAA CATCATGAGG GTGATATCCA TCAAGAACTA CCATCCGAAG
ATCAGAATCA TTACCCAGAT GTTGCAGTAC CACAACAAGG CCCACCTTTT GAACATTCCC
AGTTGGAACT GGAAGGAGGG GGACGATGCC ATTTGCCTTG CTGAGCTGAA GCTTGGCTTC
ATAGCACAGA GTTGTCTGGC TCAGGGCCTC TCCACCATGC TGGCCAACCT CTTCTCCATG
AGGTCCTTTA TCAAGATTGA AGAGGACACG TGGCAGAAGT ATTACCTGGA AGGAGTAGCC
AATGAAATGT ACACTGAGTA CTTGTCTAGT GCCTTTGTGG GCTTATCCTT CCCCACCATT
TGTGAACTGT GCTATGTGAA GCTAAAGCTG CTACTGATCG CTATCGAGTA CAAGTCTGAT
ATACGGGAAA GCAGCACTCT CATCAACCCT GGGAACCATG TGAAGATGCA GGAAGGAACC
TTGGGGTTCT TTATCGCCAG CGATGCCAAA GAAGTTAAGA GGGCACTTTT CTACTGCAAA
GCTTGCCACG ATGACATCAC AGATCCCAAA AGGATAAAGA AATGTGGATG CAAACGATTG
ATCTATTCCA AGATGTCCGT CTACAAGAGA ATGACGCTGG CATGTTGTTT TGATTGCGGC
CGTTCAGAGC GTGACTGCTC TCGCATGTCA GCCAATGTGC ATCACCATAG TAAAGCGAAG
GACACCCTTC AGCAGCGTGG CTTCCCTCTC TCTCCTGTCT CTCTTAATGA TTGCTCGACC
ACTTTACGTG CCTCAAAAAA TAACTATAAC GGATATATCA AATCAATGGA AGAGGAGCAG
CAGTCAGCCG TTTCTCCTAA AAAGAAACAA GTCAATGGAA ACACGAGGAA CTCACCCAAC
GGTTCACCAA AAATGATGAG GCATGACCCT CTCCTCATGC CGGGGAAGGA ACAGATTGAG
AACATGGACG TGAACGTGAA GAAATACGAC TCCACAGGGA TGTTTCACTG GTGCCAGTCC
AAAGACATTG AGAAGGTCAT CTTGACCCGG AGCGAAGCTG CCATGACTGT TCTAAGCGGC
CACGTGGTCG TCTGTATATT TGGAGACGCA AAGTCGGCTT TGGTGGGCCT TAGGAACCTT
GTGATGCCTC TGAGAGCTAG CAATTTCCAC TACCACGAGC TGAAACCCAT TGTGTTTGTG
GGTTCTCTGG AGTACCTGAA GAGGGAATGG GAGACCCTTC ACAACTTTCC CAAAGTCTCC
ATCTTACCTG GCACACCATT AAGCCGGGCC GATCTGAGGG CCGTCAATAT CAACCTCTGT
GACATGTGTG TCATCCTGTC AGCCAATCAG AGCAATATTG ACGACGCTTC ACTGCAGGAC
AAGGAATGCA TCCTGGCGTC ACTCAACATC AAGTCTATGC AGTTTGATGA CAGCATCGGG
GTGTTGCAGG CTACCTCCCA AGGTTTCACC CTGCCAGGCA TGGACAGGTC CTCTCCTGAA
AACAGTCCAG TTCATGGGGG GTTGGTACGA CAGGCTTCCA TCACAACAGG AGCCAATGTC
CCCATCATCA CTGAACTAGT GAACGACTCC AATGTTCAGT TCCTGGACCA GGATGATGAC
GATGACCCTG ACACAGAGTT GTACCTCACT CAACCCTTCG CCTGTGGGAC GGCTTTCGCA
GTCAGTGTGC TGGATTCCCT GATGAGTGCT ACATACTTCA ATGATAATAT CCTCACCCTG
ATCCGGACGC TGGTAACAGG GGGGGCCACT CCGGAGCTGG AGGGTCTGTT GGCGGAGGAG
AATGCATTAC GAGGAGGCTA CAGCACGCCG CAGACCCTCG CTAACCGGGA CAGGTGTCGT
GTTGCACAGC TAGCCTTGTA CGATGGGCCA TTTGCTGACT TGGGGGATGG TGGTTGCTAT
GGTGACTTGT TTTGTAAAGC GTTAAAAACA TACAACATGC TTTGCTTTGG AATTTACCGA
TTGAGGGACG CCCATCTAAA CACACAAAGT CATACAAGTC AATGCACTAA ACGATATGTA
ATAACCAACC CACCGTATGG TTTTGAGCTG GTGCCATCAG ACCTGATCTT CTGCCTGATG
CAGTTTGACC ACAACGCGGG TCAGTCCCAG GCCAGCCTCA CCCATAGCTC CCACTCCTCC
CATTCGTCCA GCAAAAAGAG CTCCTCCGTC CATTCTATCC CCGCCACCAA CCGCACCAAC
CGCGCCAAGA GCAGGGACTC ACGGGATAAA CAAAAAAAAG ACATGCTTTA CAGATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_014035807.1 CDS 60..3296 Translation
Target ORF information:
RefSeq Version XM_014180332.1 Organism Salmo salar(Atlantic salmon) Definition Salmo salar calcium-activated potassium channel subunit alpha-1 (LOC106589905), transcript variant X5, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_014180332.1
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
3181ATGAATGTGG TGCTTGTCTT TGCCCTCAGC ATCGGAGCCC TTGTAATATA CTTCATAGAT
TCCTCTGACC CCATCGAGTC CTGTCAGAAC TTCTACAAAG ACTTCACGCT ACAGATCGAC
ATGGCTTTCA ACGTCTTCTT CCTCTTGTAC TTTGGTCTAC GGTTCATAGC GGCCAACGAC
AAGCTGTGGT TCTGGCTGGA GGTGAACTCA GTGGTGGACT TCTTCACTGT TCCCCCGGTG
TTCGTGTCCG TCTATCTCAA CAGGAGCTGG CTTGGCTTAC GTTTTTTAAG GGCCTTAAGA
TTGATACAGT TCTCAGAAAT CTTACAGTTT TTGAATATAT TAAAAACAAG CAATTCCATA
AAACTGGTGA ACTTGTGTTC AATCTTCATA AGCACATGGC TAACAGCTGC AGGCTTCATA
CATTTGGTGG AAAACTCAGG GGATCCTTGG GAAAACTTCC AAAATTCCCA GTCACTTTCC
TACTGGGAAT GTGTCTACTT ACTGATGGTT ACTATGTCCA CTGTGGGCTA TGGAGACGTG
TATGCCAAAA CTACCCTGGG ACGACTTTTC ATGGTCTTCT TCATCCTTGG TGGTTTGGCC
ATGTTTGCGA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATATGGT
GGTTCCTATA GTGCTGTTAA TGGGAGAAAG CACATCGTGG TCTGTGGTCA TATTACCCTT
GAAAGTGTGT CCAACTTCCT TAAAGACTTC CTACACAAGG ACAGGGATGA TGTCAATGTA
GAAATTGTTT TTCTCCATAA TATTTCCCCT AATCTTGAGC TGGAAGCCTT GTTTAAACGG
CACTTCACCC AGGTGGAGTT CTACCAGGGA TCTGTTCTCA ACCCACACGA CCTGGCCAGA
GTCAAGATAG AGTCAGCAGA TGCCTGTTTG ATCCTAGCTA ATAAATACTG TGCAGACCCT
GATGCTGAGG ATGCTTCCAA CATCATGAGG GTGATATCCA TCAAGAACTA CCATCCGAAG
ATCAGAATCA TTACCCAGAT GTTGCAGTAC CACAACAAGG CCCACCTTTT GAACATTCCC
AGTTGGAACT GGAAGGAGGG GGACGATGCC ATTTGCCTTG CTGAGCTGAA GCTTGGCTTC
ATAGCACAGA GTTGTCTGGC TCAGGGCCTC TCCACCATGC TGGCCAACCT CTTCTCCATG
AGGTCCTTTA TCAAGATTGA AGAGGACACG TGGCAGAAGT ATTACCTGGA AGGAGTAGCC
AATGAAATGT ACACTGAGTA CTTGTCTAGT GCCTTTGTGG GCTTATCCTT CCCCACCATT
TGTGAACTGT GCTATGTGAA GCTAAAGCTG CTACTGATCG CTATCGAGTA CAAGTCTGAT
ATACGGGAAA GCAGCACTCT CATCAACCCT GGGAACCATG TGAAGATGCA GGAAGGAACC
TTGGGGTTCT TTATCGCCAG CGATGCCAAA GAAGTTAAGA GGGCACTTTT CTACTGCAAA
GCTTGCCACG ATGACATCAC AGATCCCAAA AGGATAAAGA AATGTGGATG CAAACGATTG
ATCTATTCCA AGATGTCCGT CTACAAGAGA ATGACGCTGG CATGTTGTTT TGATTGCGGC
CGTTCAGAGC GTGACTGCTC TCGCATGTCA GCCAATGTGC ATCACCATAG TAAAGCGAAG
GACACCCTTC AGCAGCGTGG CTTCCCTCTC TCTCCTGTCT CTCTTAATGA TTGCTCGACC
ACTTTACGTG CCTCAAAAAA TAACTATAAC GGATATATCA AATCAATGGA AGAGGAGCAG
CAGTCAGCCG TTTCTCCTAA AAAGAAACAA GTCAATGGAA ACACGAGGAA CTCACCCAAC
GGTTCACCAA AAATGATGAG GCATGACCCT CTCCTCATGC CGGGGAAGGA ACAGATTGAG
AACATGGACG TGAACGTGAA GAAATACGAC TCCACAGGGA TGTTTCACTG GTGCCAGTCC
AAAGACATTG AGAAGGTCAT CTTGACCCGG AGCGAAGCTG CCATGACTGT TCTAAGCGGC
CACGTGGTCG TCTGTATATT TGGAGACGCA AAGTCGGCTT TGGTGGGCCT TAGGAACCTT
GTGATGCCTC TGAGAGCTAG CAATTTCCAC TACCACGAGC TGAAACCCAT TGTGTTTGTG
GGTTCTCTGG AGTACCTGAA GAGGGAATGG GAGACCCTTC ACAACTTTCC CAAAGTCTCC
ATCTTACCTG GCACACCATT AAGCCGGGCC GATCTGAGGG CCGTCAATAT CAACCTCTGT
GACATGTGTG TCATCCTGTC AGCCAATCAG AGCAATATTG ACGACGCTTC ACTGCAGGAC
AAGGAATGCA TCCTGGCGTC ACTCAACATC AAGTCTATGC AGTTTGATGA CAGCATCGGG
GTGTTGCAGG CTACCTCCCA AGGTTTCACC CTGCCAGGCA TGGACAGGTC CTCTCCTGAA
AACAGTCCAG TTCATGGGGG GTTGGTACGA CAGGCTTCCA TCACAACAGG AGCCAATGTC
CCCATCATCA CTGAACTAGT GAACGACTCC AATGTTCAGT TCCTGGACCA GGATGATGAC
GATGACCCTG ACACAGAGTT GTACCTCACT CAACCCTTCG CCTGTGGGAC GGCTTTCGCA
GTCAGTGTGC TGGATTCCCT GATGAGTGCT ACATACTTCA ATGATAATAT CCTCACCCTG
ATCCGGACGC TGGTAACAGG GGGGGCCACT CCGGAGCTGG AGGGTCTGTT GGCGGAGGAG
AATGCATTAC GAGGAGGCTA CAGCACGCCG CAGACCCTCG CTAACCGGGA CAGGTGTCGT
GTTGCACAGC TAGCCTTGTA CGATGGGCCA TTTGCTGACT TGGGGGATGG TGGTTGCTAT
GGTGACTTGT TTTGTAAAGC GTTAAAAACA TACAACATGC TTTGCTTTGG AATTTACCGA
TTGAGGGACG CCCATCTAAA CACACAAAGT CATACAAGTC AATGCACTAA ACGATATGTA
ATAACCAACC CACCGTATGG TTTTGAGCTG GTGCCATCAG ACCTGATCTT CTGCCTGATG
CAGTTTGACC ACAACGCGGG TCAGTCCCAG GCCAGCCTCA CCCATAGCTC CCACTCCTCC
CATTCGTCCA GCAAAAAGAG CTCCTCCGTC CATTCTATCC CCGCCACCAA CCGCACCAAC
CGCGCCAAGA GCAGGGACTC ACGGGATAAA CAAAAAAAAG ACATGCTTTA CAGATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAt73587 Clone ID Related Accession (Same CDS sequence) XM_014180333.1 Accession Version XM_014180333.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3204bp)
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 1442678400000 Organism Salmo salar(Atlantic salmon) Product calcium-activated potassium channel subunit alpha-1 isoform X5 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012341616.1) 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 Version :: Salmo salar Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181ATGAATGTGG TGCTTGTCTT TGCCCTCAGC ATCGGAGCCC TTGTAATATA CTTCATAGAT
TCCTCTGACC CCATCGAGTC CTGTCAGAAC TTCTACAAAG ACTTCACGCT ACAGATCGAC
ATGGCTTTCA ACGTCTTCTT CCTCTTGTAC TTTGGTCTAC GGTTCATAGC GGCCAACGAC
AAGCTGTGGT TCTGGCTGGA GGTGAACTCA GTGGTGGACT TCTTCACTGT TCCCCCGGTG
TTCGTGTCCG TCTATCTCAA CAGGAGCTGG CTTGGCTTAC GTTTTTTAAG GGCCTTAAGA
TTGATACAGT TCTCAGAAAT CTTACAGTTT TTGAATATAT TAAAAACAAG CAATTCCATA
AAACTGGTGA ACTTGTGTTC AATCTTCATA AGCACATGGC TAACAGCTGC AGGCTTCATA
CATTTGGTGG AAAACTCAGG GGATCCTTGG GAAAACTTCC AAAATTCCCA GTCACTTTCC
TACTGGGAAT GTGTCTACTT ACTGATGGTT ACTATGTCCA CTGTGGGCTA TGGAGACGTG
TATGCCAAAA CTACCCTGGG ACGACTTTTC ATGGTCTTCT TCATCCTTGG TGGTTTGGCC
ATGTTTGCGA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATATGGT
GGTTCCTATA GTGCTGTTAA TGGGAGAAAG CACATCGTGG TCTGTGGTCA TATTACCCTT
GAAAGTGTGT CCAACTTCCT TAAAGACTTC CTACACAAGG ACAGGGATGA TGTCAATGTA
GAAATTGTTT TTCTCCATAA TATTTCCCCT AATCTTGAGC TGGAAGCCTT GTTTAAACGG
CACTTCACCC AGGTGGAGTT CTACCAGGGA TCTGTTCTCA ACCCACACGA CCTGGCCAGA
GTCAAGATAG AGTCAGCAGA TGCCTGTTTG ATCCTAGCTA ATAAATACTG TGCAGACCCT
GATGCTGAGG ATGCTTCCAA CATCATGAGG GTGATATCCA TCAAGAACTA CCATCCGAAG
ATCAGAATCA TTACCCAGAT GTTGCAGTAC CACAACAAGG CCCACCTTTT GAACATTCCC
AGTTGGAACT GGAAGGAGGG GGACGATGCC ATTTGCCTTG CTGAGCTGAA GCTTGGCTTC
ATAGCACAGA GTTGTCTGGC TCAGGGCCTC TCCACCATGC TGGCCAACCT CTTCTCCATG
AGGTCCTTTA TCAAGATTGA AGAGGACACG TGGCAGAAGT ATTACCTGGA AGGAGTAGCC
AATGAAATGT ACACTGAGTA CTTGTCTAGT GCCTTTGTGG GCTTATCCTT CCCCACCATT
TGTGAACTGT GCTATGTGAA GCTAAAGCTG CTACTGATCG CTATCGAGTA CAAGTCTGAT
ATACGGGAAA GCAGCACTCT CATCAACCCT GGGAACCATG TGAAGATGCA GGAAGGAACC
TTGGGGTTCT TTATCGCCAG CGATGCCAAA GAAGTTAAGA GGGCACTTTT CTACTGCAAA
GCTTGCCACG ATGACATCAC AGATCCCAAA AGGATAAAGA AATGTGGATG CAAACGATTG
ATCTATTCCA AGATGTCCGT CTACAAGAGA ATGACGCTGG CATGTTGTTT TGATTGCGGC
CGTTCAGAGC GTGACTGCTC TCGCATGTCA GCCAATGTGC ATCACCATAG TAAAGCGAAG
GACACCCTTC AGCAGCGTGG CTTCCCTCTC TCTCCTGTCT CTCTTAATGA TTGCTCGACC
ACTTTACGTG CCTTGGAAGA GGAGCAGCAG TCAGCCGTTT CTCCTAAAAA GAAACAAGTC
AATGGAAACA CGAGGAACTC ACCCAACGGT TCACCAAAAA TGATGAGGCA TGACCCTCTC
CTCATGCCGG GGAAGGAACA GATTGAGAAC ATGGACGTGA ACGTGAAGAA ATACGACTCC
ACAGGGATGT TTCACTGGTG CCAGTCCAAA GACATTGAGA AGGTCATCTT GACCCGGAGC
GAAGCTGCCA TGACTGTTCT AAGCGGCCAC GTGGTCGTCT GTATATTTGG AGACGCAAAG
TCGGCTTTGG TGGGCCTTAG GAACCTTGTG ATGCCTCTGA GAGCTAGCAA TTTCCACTAC
CACGAGCTGA AACCCATTGT GTTTGTGGGT TCTCTGGAGT ACCTGAAGAG GGAATGGGAG
ACCCTTCACA ACTTTCCCAA AGTCTCCATC TTACCTGGCA CACCATTAAG CCGGGCCGAT
CTGAGGGCCG TCAATATCAA CCTCTGTGAC ATGTGTGTCA TCCTGTCAGC CAATCAGAGC
AATATTGACG ACGCTTCACT GCAGGACAAG GAATGCATCC TGGCGTCACT CAACATCAAG
TCTATGCAGT TTGATGACAG CATCGGGGTG TTGCAGGCTA CCTCCCAAGG TTTCACCCTG
CCAGGCATGG ACAGGTCCTC TCCTGAAAAC AGTCCAGTTC ATGGGGGGTT GGTACGACAG
GCTTCCATCA CAACAGGAGC CAATGTCCCC ATCATCACTG AACTAGTGAA CGACTCCAAT
GTTCAGTTCC TGGACCAGGA TGATGACGAT GACCCTGACA CAGAGTTGTA CCTCACTCAA
CCCTTCGCCT GTGGGACGGC TTTCGCAGTC AGTGTGCTGG ATTCCCTGAT GAGTGCTACA
TACTTCAATG ATAATATCCT CACCCTGATC CGGACGCTGG TAACAGGGGG GGCCACTCCG
GAGCTGGAGG GTCTGTTGGC GGAGGAGAAT GCATTACGAG GAGGCTACAG CACGCCGCAG
ACCCTCGCTA ACCGGGACAG GTGTCGTGTT GCACAGCTAG CCTTGTACGA TGGGCCATTT
GCTGACTTGG GGGATGGTGG TTGCTATGGT GACTTGTTTT GTAAAGCGTT AAAAACATAC
AACATGCTTT GCTTTGGAAT TTACCGATTG AGGGACGCCC ATCTAAACAC ACAAAGTCAT
ACAAGTCAAT GCACTAAACG ATATGTAATA ACCAACCCAC CGTATGGTTT TGAGCTGGTG
CCATCAGACC TGATCTTCTG CCTGATGCAG TTTGACCACA ACGCGGGTCA GTCCCAGGCC
AGCCTCACCC ATAGCTCCCA CTCCTCCCAT TCGTCCAGCA AAAAGAGCTC CTCCGTCCAT
TCTATCCCCG CCACCAACCG CACCAACCGC GCCAAGAGCA GGGACTCACG GGATAAACAA
AAAAAAGACA TGCTTTACAG ATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_014035808.1 CDS 60..3263 Translation
Target ORF information:
RefSeq Version XM_014180333.1 Organism Salmo salar(Atlantic salmon) Definition Salmo salar calcium-activated potassium channel subunit alpha-1 (LOC106589905), transcript variant X6, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_014180333.1
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
3181ATGAATGTGG TGCTTGTCTT TGCCCTCAGC ATCGGAGCCC TTGTAATATA CTTCATAGAT
TCCTCTGACC CCATCGAGTC CTGTCAGAAC TTCTACAAAG ACTTCACGCT ACAGATCGAC
ATGGCTTTCA ACGTCTTCTT CCTCTTGTAC TTTGGTCTAC GGTTCATAGC GGCCAACGAC
AAGCTGTGGT TCTGGCTGGA GGTGAACTCA GTGGTGGACT TCTTCACTGT TCCCCCGGTG
TTCGTGTCCG TCTATCTCAA CAGGAGCTGG CTTGGCTTAC GTTTTTTAAG GGCCTTAAGA
TTGATACAGT TCTCAGAAAT CTTACAGTTT TTGAATATAT TAAAAACAAG CAATTCCATA
AAACTGGTGA ACTTGTGTTC AATCTTCATA AGCACATGGC TAACAGCTGC AGGCTTCATA
CATTTGGTGG AAAACTCAGG GGATCCTTGG GAAAACTTCC AAAATTCCCA GTCACTTTCC
TACTGGGAAT GTGTCTACTT ACTGATGGTT ACTATGTCCA CTGTGGGCTA TGGAGACGTG
TATGCCAAAA CTACCCTGGG ACGACTTTTC ATGGTCTTCT TCATCCTTGG TGGTTTGGCC
ATGTTTGCGA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATATGGT
GGTTCCTATA GTGCTGTTAA TGGGAGAAAG CACATCGTGG TCTGTGGTCA TATTACCCTT
GAAAGTGTGT CCAACTTCCT TAAAGACTTC CTACACAAGG ACAGGGATGA TGTCAATGTA
GAAATTGTTT TTCTCCATAA TATTTCCCCT AATCTTGAGC TGGAAGCCTT GTTTAAACGG
CACTTCACCC AGGTGGAGTT CTACCAGGGA TCTGTTCTCA ACCCACACGA CCTGGCCAGA
GTCAAGATAG AGTCAGCAGA TGCCTGTTTG ATCCTAGCTA ATAAATACTG TGCAGACCCT
GATGCTGAGG ATGCTTCCAA CATCATGAGG GTGATATCCA TCAAGAACTA CCATCCGAAG
ATCAGAATCA TTACCCAGAT GTTGCAGTAC CACAACAAGG CCCACCTTTT GAACATTCCC
AGTTGGAACT GGAAGGAGGG GGACGATGCC ATTTGCCTTG CTGAGCTGAA GCTTGGCTTC
ATAGCACAGA GTTGTCTGGC TCAGGGCCTC TCCACCATGC TGGCCAACCT CTTCTCCATG
AGGTCCTTTA TCAAGATTGA AGAGGACACG TGGCAGAAGT ATTACCTGGA AGGAGTAGCC
AATGAAATGT ACACTGAGTA CTTGTCTAGT GCCTTTGTGG GCTTATCCTT CCCCACCATT
TGTGAACTGT GCTATGTGAA GCTAAAGCTG CTACTGATCG CTATCGAGTA CAAGTCTGAT
ATACGGGAAA GCAGCACTCT CATCAACCCT GGGAACCATG TGAAGATGCA GGAAGGAACC
TTGGGGTTCT TTATCGCCAG CGATGCCAAA GAAGTTAAGA GGGCACTTTT CTACTGCAAA
GCTTGCCACG ATGACATCAC AGATCCCAAA AGGATAAAGA AATGTGGATG CAAACGATTG
ATCTATTCCA AGATGTCCGT CTACAAGAGA ATGACGCTGG CATGTTGTTT TGATTGCGGC
CGTTCAGAGC GTGACTGCTC TCGCATGTCA GCCAATGTGC ATCACCATAG TAAAGCGAAG
GACACCCTTC AGCAGCGTGG CTTCCCTCTC TCTCCTGTCT CTCTTAATGA TTGCTCGACC
ACTTTACGTG CCTTGGAAGA GGAGCAGCAG TCAGCCGTTT CTCCTAAAAA GAAACAAGTC
AATGGAAACA CGAGGAACTC ACCCAACGGT TCACCAAAAA TGATGAGGCA TGACCCTCTC
CTCATGCCGG GGAAGGAACA GATTGAGAAC ATGGACGTGA ACGTGAAGAA ATACGACTCC
ACAGGGATGT TTCACTGGTG CCAGTCCAAA GACATTGAGA AGGTCATCTT GACCCGGAGC
GAAGCTGCCA TGACTGTTCT AAGCGGCCAC GTGGTCGTCT GTATATTTGG AGACGCAAAG
TCGGCTTTGG TGGGCCTTAG GAACCTTGTG ATGCCTCTGA GAGCTAGCAA TTTCCACTAC
CACGAGCTGA AACCCATTGT GTTTGTGGGT TCTCTGGAGT ACCTGAAGAG GGAATGGGAG
ACCCTTCACA ACTTTCCCAA AGTCTCCATC TTACCTGGCA CACCATTAAG CCGGGCCGAT
CTGAGGGCCG TCAATATCAA CCTCTGTGAC ATGTGTGTCA TCCTGTCAGC CAATCAGAGC
AATATTGACG ACGCTTCACT GCAGGACAAG GAATGCATCC TGGCGTCACT CAACATCAAG
TCTATGCAGT TTGATGACAG CATCGGGGTG TTGCAGGCTA CCTCCCAAGG TTTCACCCTG
CCAGGCATGG ACAGGTCCTC TCCTGAAAAC AGTCCAGTTC ATGGGGGGTT GGTACGACAG
GCTTCCATCA CAACAGGAGC CAATGTCCCC ATCATCACTG AACTAGTGAA CGACTCCAAT
GTTCAGTTCC TGGACCAGGA TGATGACGAT GACCCTGACA CAGAGTTGTA CCTCACTCAA
CCCTTCGCCT GTGGGACGGC TTTCGCAGTC AGTGTGCTGG ATTCCCTGAT GAGTGCTACA
TACTTCAATG ATAATATCCT CACCCTGATC CGGACGCTGG TAACAGGGGG GGCCACTCCG
GAGCTGGAGG GTCTGTTGGC GGAGGAGAAT GCATTACGAG GAGGCTACAG CACGCCGCAG
ACCCTCGCTA ACCGGGACAG GTGTCGTGTT GCACAGCTAG CCTTGTACGA TGGGCCATTT
GCTGACTTGG GGGATGGTGG TTGCTATGGT GACTTGTTTT GTAAAGCGTT AAAAACATAC
AACATGCTTT GCTTTGGAAT TTACCGATTG AGGGACGCCC ATCTAAACAC ACAAAGTCAT
ACAAGTCAAT GCACTAAACG ATATGTAATA ACCAACCCAC CGTATGGTTT TGAGCTGGTG
CCATCAGACC TGATCTTCTG CCTGATGCAG TTTGACCACA ACGCGGGTCA GTCCCAGGCC
AGCCTCACCC ATAGCTCCCA CTCCTCCCAT TCGTCCAGCA AAAAGAGCTC CTCCGTCCAT
TCTATCCCCG CCACCAACCG CACCAACCGC GCCAAGAGCA GGGACTCACG GGATAAACAA
AAAAAAGACA TGCTTTACAG ATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAt73588 Clone ID Related Accession (Same CDS sequence) XM_014180336.1 Accession Version XM_014180336.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3147bp)
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 1442678400000 Organism Salmo salar(Atlantic salmon) Product calcium-activated potassium channel subunit alpha-1 isoform X6 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012341616.1) 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 Version :: Salmo salar Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121ATGAATGTGG TGCTTGTCTT TGCCCTCAGC ATCGGAGCCC TTGTAATATA CTTCATAGAT
TCCTCTGACC CCATCGAGTC CTGTCAGAAC TTCTACAAAG ACTTCACGCT ACAGATCGAC
ATGGCTTTCA ACGTCTTCTT CCTCTTGTAC TTTGGTCTAC GGTTCATAGC GGCCAACGAC
AAGCTGTGGT TCTGGCTGGA GGTGAACTCA GTGGTGGACT TCTTCACTGT TCCCCCGGTG
TTCGTGTCCG TCTATCTCAA CAGGAGCTGG CTTGGCTTAC GTTTTTTAAG GGCCTTAAGA
TTGATACAGT TCTCAGAAAT CTTACAGTTT TTGAATATAT TAAAAACAAG CAATTCCATA
AAACTGGTGA ACTTGTGTTC AATCTTCATA AGCACATGGC TAACAGCTGC AGGCTTCATA
CATTTGGTGG AAAACTCAGG GGATCCTTGG GAAAACTTCC AAAATTCCCA GTCACTTTCC
TACTGGGAAT GTGTCTACTT ACTGATGGTT ACTATGTCCA CTGTGGGCTA TGGAGACGTG
TATGCCAAAA CTACCCTGGG ACGACTTTTC ATGGTCTTCT TCATCCTTGG TGGTTTGGCC
ATGTTTGCGA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATATGGT
GGTTCCTATA GTGCTGTTAA TGGGAGAAAG CACATCGTGG TCTGTGGTCA TATTACCCTT
GAAAGTGTGT CCAACTTCCT TAAAGACTTC CTACACAAGG ACAGGGATGA TGTCAATGTA
GAAATTGTTT TTCTCCATAA TATTTCCCCT AATCTTGAGC TGGAAGCCTT GTTTAAACGG
CACTTCACCC AGGTGGAGTT CTACCAGGGA TCTGTTCTCA ACCCACACGA CCTGGCCAGA
GTCAAGATAG AGTCAGCAGA TGCCTGTTTG ATCCTAGCTA ATAAATACTG TGCAGACCCT
GATGCTGAGG ATGCTTCCAA CATCATGAGG GTGATATCCA TCAAGAACTA CCATCCGAAG
ATCAGAATCA TTACCCAGAT GTTGCAGTAC CACAACAAGG CCCACCTTTT GAACATTCCC
AGTTGGAACT GGAAGGAGGG GGACGATGCC ATTTGCCTTG CTGAGCTGAA GCTTGGCTTC
ATAGCACAGA GTTGTCTGGC TCAGGGCCTC TCCACCATGC TGGCCAACCT CTTCTCCATG
AGGTCCTTTA TCAAGATTGA AGAGGACACG TGGCAGAAGT ATTACCTGGA AGGAGTAGCC
AATGAAATGT ACACTGAGTA CTTGTCTAGT GCCTTTGTGG GCTTATCCTT CCCCACCATT
TGTGAACTGT GCTATGTGAA GCTAAAGCTG CTACTGATCG CTATCGAGTA CAAGTCTGAT
ATACGGGAAA GCAGCACTCT CATCAACCCT GGGAACCATG TGAAGATGCA GGAAGGAACC
TTGGGGTTCT TTATCGCCAG CGATGCCAAA GAAGTTAAGA GGGCACTTTT CTACTGCAAA
GCTTGCCACG ATGACATCAC AGATCCCAAA AGGATAAAGA AATGTGGATG CAAACGATTG
ATCTATTCAA AAAATAACTA TAACGGATAT ATCAAATCAA TGGAAGAGGA GCAGCAGTCA
GCCGTTTCTC CTAAAAAGAA ACAAGTCAAT GGAAACACGA GGAACTCACC CAACGGTTCA
CCAAAAATGA TGAGGCATGA CCCTCTCCTC ATGCCGGGGA AGGAACAGAT TGAGAACATG
GACGTGAACG TGAAGAAATA CGACTCCACA GGGATGTTTC ACTGGTGCCA GTCCAAAGAC
ATTGAGAAGG TCATCTTGAC CCGGAGCGAA GCTGCCATGA CTGTTCTAAG CGGCCACGTG
GTCGTCTGTA TATTTGGAGA CGCAAAGTCG GCTTTGGTGG GCCTTAGGAA CCTTGTGATG
CCTCTGAGAG CTAGCAATTT CCACTACCAC GAGCTGAAAC CCATTGTGTT TGTGGGTTCT
CTGGAGTACC TGAAGAGGGA ATGGGAGACC CTTCACAACT TTCCCAAAGT CTCCATCTTA
CCTGGCACAC CATTAAGCCG GGCCGATCTG AGGGCCGTCA ATATCAACCT CTGTGACATG
TGTGTCATCC TGTCAGCCAA TCAGAGCAAT ATTGACGACG CTTCACTGCA GGACAAGGAA
TGCATCCTGG CGTCACTCAA CATCAAGTCT ATGCAGTTTG ATGACAGCAT CGGGGTGTTG
CAGGCTACCT CCCAAGGTTT CACCCTGCCA GGCATGGACA GGTCCTCTCC TGAAAACAGT
CCAGTTCATG GGGGGTTGGT ACGACAGGCT TCCATCACAA CAGGAGCCAA TGTCCCCATC
ATCACTGAAC TAGCACCGTT AGTAAAACCA GCAGGCAAAG TCCTACCTGT GATTTCATTC
AGTCAGGATA CAAGCAGTGG GATCAACATA CACATAATAA CAGAACTGGT GAACGACTCC
AATGTTCAGT TCCTGGACCA GGATGATGAC GATGACCCTG ACACAGAGTT GTACCTCACT
CAACCCTTCG CCTGTGGGAC GGCTTTCGCA GTCAGTGTGC TGGATTCCCT GATGAGTGCT
ACATACTTCA ATGATAATAT CCTCACCCTG ATCCGGACGC TGGTAACAGG GGGGGCCACT
CCGGAGCTGG AGGGTCTGTT GGCGGAGGAG AATGCATTAC GAGGAGGCTA CAGCACGCCG
CAGACCCTCG CTAACCGGGA CAGGTGTCGT GTTGCACAGC TAGCCTTGTA CGATGGGCCA
TTTGCTGACT TGGGGGATGG TGGTTGCTAT GGTGACTTGT TTTGTAAAGC GTTAAAAACA
TACAACATGC TTTGCTTTGG AATTTACCGA TTGAGGGACG CCCATCTAAA CACACAAAGT
CATACAAGTC AATGCACTAA ACGATATGTA ATAACCAACC CACCGTATGG TTTTGAGCTG
GTGCCATCAG ACCTGATCTT CTGCCTGATG CAGTTTGACC ACAACGCGGG TCAGTCCCAG
GCCAGCCTCA CCCATAGCTC CCACTCCTCC CATTCGTCCA GCAAAAAGAG CTCCTCCGTC
CATTCTATCC CCGCCACCAA CCGCACCAAC CGCGCCAAGA GCAGGGACTC ACGGGATAAA
CAAAAAAAAG ACATGCTTTA CAGATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_014035811.1 CDS 59..3205 Translation
Target ORF information:
RefSeq Version XM_014180336.1 Organism Salmo salar(Atlantic salmon) Definition Salmo salar calcium-activated potassium channel subunit alpha-1 (LOC106589905), transcript variant X7, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_014180336.1
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
3121ATGAATGTGG TGCTTGTCTT TGCCCTCAGC ATCGGAGCCC TTGTAATATA CTTCATAGAT
TCCTCTGACC CCATCGAGTC CTGTCAGAAC TTCTACAAAG ACTTCACGCT ACAGATCGAC
ATGGCTTTCA ACGTCTTCTT CCTCTTGTAC TTTGGTCTAC GGTTCATAGC GGCCAACGAC
AAGCTGTGGT TCTGGCTGGA GGTGAACTCA GTGGTGGACT TCTTCACTGT TCCCCCGGTG
TTCGTGTCCG TCTATCTCAA CAGGAGCTGG CTTGGCTTAC GTTTTTTAAG GGCCTTAAGA
TTGATACAGT TCTCAGAAAT CTTACAGTTT TTGAATATAT TAAAAACAAG CAATTCCATA
AAACTGGTGA ACTTGTGTTC AATCTTCATA AGCACATGGC TAACAGCTGC AGGCTTCATA
CATTTGGTGG AAAACTCAGG GGATCCTTGG GAAAACTTCC AAAATTCCCA GTCACTTTCC
TACTGGGAAT GTGTCTACTT ACTGATGGTT ACTATGTCCA CTGTGGGCTA TGGAGACGTG
TATGCCAAAA CTACCCTGGG ACGACTTTTC ATGGTCTTCT TCATCCTTGG TGGTTTGGCC
ATGTTTGCGA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATATGGT
GGTTCCTATA GTGCTGTTAA TGGGAGAAAG CACATCGTGG TCTGTGGTCA TATTACCCTT
GAAAGTGTGT CCAACTTCCT TAAAGACTTC CTACACAAGG ACAGGGATGA TGTCAATGTA
GAAATTGTTT TTCTCCATAA TATTTCCCCT AATCTTGAGC TGGAAGCCTT GTTTAAACGG
CACTTCACCC AGGTGGAGTT CTACCAGGGA TCTGTTCTCA ACCCACACGA CCTGGCCAGA
GTCAAGATAG AGTCAGCAGA TGCCTGTTTG ATCCTAGCTA ATAAATACTG TGCAGACCCT
GATGCTGAGG ATGCTTCCAA CATCATGAGG GTGATATCCA TCAAGAACTA CCATCCGAAG
ATCAGAATCA TTACCCAGAT GTTGCAGTAC CACAACAAGG CCCACCTTTT GAACATTCCC
AGTTGGAACT GGAAGGAGGG GGACGATGCC ATTTGCCTTG CTGAGCTGAA GCTTGGCTTC
ATAGCACAGA GTTGTCTGGC TCAGGGCCTC TCCACCATGC TGGCCAACCT CTTCTCCATG
AGGTCCTTTA TCAAGATTGA AGAGGACACG TGGCAGAAGT ATTACCTGGA AGGAGTAGCC
AATGAAATGT ACACTGAGTA CTTGTCTAGT GCCTTTGTGG GCTTATCCTT CCCCACCATT
TGTGAACTGT GCTATGTGAA GCTAAAGCTG CTACTGATCG CTATCGAGTA CAAGTCTGAT
ATACGGGAAA GCAGCACTCT CATCAACCCT GGGAACCATG TGAAGATGCA GGAAGGAACC
TTGGGGTTCT TTATCGCCAG CGATGCCAAA GAAGTTAAGA GGGCACTTTT CTACTGCAAA
GCTTGCCACG ATGACATCAC AGATCCCAAA AGGATAAAGA AATGTGGATG CAAACGATTG
ATCTATTCAA AAAATAACTA TAACGGATAT ATCAAATCAA TGGAAGAGGA GCAGCAGTCA
GCCGTTTCTC CTAAAAAGAA ACAAGTCAAT GGAAACACGA GGAACTCACC CAACGGTTCA
CCAAAAATGA TGAGGCATGA CCCTCTCCTC ATGCCGGGGA AGGAACAGAT TGAGAACATG
GACGTGAACG TGAAGAAATA CGACTCCACA GGGATGTTTC ACTGGTGCCA GTCCAAAGAC
ATTGAGAAGG TCATCTTGAC CCGGAGCGAA GCTGCCATGA CTGTTCTAAG CGGCCACGTG
GTCGTCTGTA TATTTGGAGA CGCAAAGTCG GCTTTGGTGG GCCTTAGGAA CCTTGTGATG
CCTCTGAGAG CTAGCAATTT CCACTACCAC GAGCTGAAAC CCATTGTGTT TGTGGGTTCT
CTGGAGTACC TGAAGAGGGA ATGGGAGACC CTTCACAACT TTCCCAAAGT CTCCATCTTA
CCTGGCACAC CATTAAGCCG GGCCGATCTG AGGGCCGTCA ATATCAACCT CTGTGACATG
TGTGTCATCC TGTCAGCCAA TCAGAGCAAT ATTGACGACG CTTCACTGCA GGACAAGGAA
TGCATCCTGG CGTCACTCAA CATCAAGTCT ATGCAGTTTG ATGACAGCAT CGGGGTGTTG
CAGGCTACCT CCCAAGGTTT CACCCTGCCA GGCATGGACA GGTCCTCTCC TGAAAACAGT
CCAGTTCATG GGGGGTTGGT ACGACAGGCT TCCATCACAA CAGGAGCCAA TGTCCCCATC
ATCACTGAAC TAGCACCGTT AGTAAAACCA GCAGGCAAAG TCCTACCTGT GATTTCATTC
AGTCAGGATA CAAGCAGTGG GATCAACATA CACATAATAA CAGAACTGGT GAACGACTCC
AATGTTCAGT TCCTGGACCA GGATGATGAC GATGACCCTG ACACAGAGTT GTACCTCACT
CAACCCTTCG CCTGTGGGAC GGCTTTCGCA GTCAGTGTGC TGGATTCCCT GATGAGTGCT
ACATACTTCA ATGATAATAT CCTCACCCTG ATCCGGACGC TGGTAACAGG GGGGGCCACT
CCGGAGCTGG AGGGTCTGTT GGCGGAGGAG AATGCATTAC GAGGAGGCTA CAGCACGCCG
CAGACCCTCG CTAACCGGGA CAGGTGTCGT GTTGCACAGC TAGCCTTGTA CGATGGGCCA
TTTGCTGACT TGGGGGATGG TGGTTGCTAT GGTGACTTGT TTTGTAAAGC GTTAAAAACA
TACAACATGC TTTGCTTTGG AATTTACCGA TTGAGGGACG CCCATCTAAA CACACAAAGT
CATACAAGTC AATGCACTAA ACGATATGTA ATAACCAACC CACCGTATGG TTTTGAGCTG
GTGCCATCAG ACCTGATCTT CTGCCTGATG CAGTTTGACC ACAACGCGGG TCAGTCCCAG
GCCAGCCTCA CCCATAGCTC CCACTCCTCC CATTCGTCCA GCAAAAAGAG CTCCTCCGTC
CATTCTATCC CCGCCACCAA CCGCACCAAC CGCGCCAAGA GCAGGGACTC ACGGGATAAA
CAAAAAAAAG ACATGCTTTA CAGATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAt73589 Clone ID Related Accession (Same CDS sequence) XM_014180337.1 Accession Version XM_014180337.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3138bp)
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 1442678400000 Organism Salmo salar(Atlantic salmon) Product calcium-activated potassium channel subunit alpha-1 isoform X7 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012341616.1) 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 Version :: Salmo salar Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121ATGAATGTGG TGCTTGTCTT TGCCCTCAGC ATCGGAGCCC TTGTAATATA CTTCATAGAT
TCCTCTGACC CCATCGAGTC CTGTCAGAAC TTCTACAAAG ACTTCACGCT ACAGATCGAC
ATGGCTTTCA ACGTCTTCTT CCTCTTGTAC TTTGGTCTAC GGTTCATAGC GGCCAACGAC
AAGCTGTGGT TCTGGCTGGA GGTGAACTCA GTGGTGGACT TCTTCACTGT TCCCCCGGTG
TTCGTGTCCG TCTATCTCAA CAGGAGCTGG CTTGGCTTAC GTTTTTTAAG GGCCTTAAGA
TTGATACAGT TCTCAGAAAT CTTACAGTTT TTGAATATAT TAAAAACAAG CAATTCCATA
AAACTGGTGA ACTTGTGTTC AATCTTCATA AGCACATGGC TAACAGCTGC AGGCTTCATA
CATTTGGTGG AAAACTCAGG GGATCCTTGG GAAAACTTCC AAAATTCCCA GTCACTTTCC
TACTGGGAAT GTGTCTACTT ACTGATGGTT ACTATGTCCA CTGTGGGCTA TGGAGACGTG
TATGCCAAAA CTACCCTGGG ACGACTTTTC ATGGTCTTCT TCATCCTTGG TGGTTTGGCC
ATGTTTGCGA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATATGGT
GGTTCCTATA GTGCTGTTAA TGGGAGAAAG CACATCGTGG TCTGTGGTCA TATTACCCTT
GAAAGTGTGT CCAACTTCCT TAAAGACTTC CTACACAAGG ACAGGGATGA TGTCAATGTA
GAAATTGTTT TTCTCCATAA TATTTCCCCT AATCTTGAGC TGGAAGCCTT GTTTAAACGG
CACTTCACCC AGGTGGAGTT CTACCAGGGA TCTGTTCTCA ACCCACACGA CCTGGCCAGA
GTCAAGATAG AGTCAGCAGA TGCCTGTTTG ATCCTAGCTA ATAAATACTG TGCAGACCCT
GATGCTGAGG ATGCTTCCAA CATCATGAGG GTGATATCCA TCAAGAACTA CCATCCGAAG
ATCAGAATCA TTACCCAGAT GTTGCAGTAC CACAACAAGG CCCACCTTTT GAACATTCCC
AGTTGGAACT GGAAGGAGGG GGACGATGCC ATTTGCCTTG CTGAGCTGAA GCTTGGCTTC
ATAGCACAGA GTTGTCTGGC TCAGGGCCTC TCCACCATGC TGGCCAACCT CTTCTCCATG
AGGTCCTTTA TCAAGATTGA AGAGGACACG TGGCAGAAGT ATTACCTGGA AGGAGTAGCC
AATGAAATGT ACACTGAGTA CTTGTCTAGT GCCTTTGTGG GCTTATCCTT CCCCACCATT
TGTGAACTGT GCTATGTGAA GCTAAAGCTG CTACTGATCG CTATCGAGTA CAAGTCTGAT
ATACGGGAAA GCAGCACTCT CATCAACCCT GGGAACCATG TGAAGATGCA GGAAGGAACC
TTGGGGTTCT TTATCGCCAG CGATGCCAAA GAAGTTAAGA GGGCACTTTT CTACTGCAAA
GCTTGCCACG ATGACATCAC AGATCCCAAA AGGATAAAGA AATGTGGATG CAAACGATCA
AAAAATAACT ATAACGGATA TATCAAATCA ATGGAAGAGG AGCAGCAGTC AGCCGTTTCT
CCTAAAAAGA AACAAGTCAA TGGAAACACG AGGAACTCAC CCAACGGTTC ACCAAAAATG
ATGAGGCATG ACCCTCTCCT CATGCCGGGG AAGGAACAGA TTGAGAACAT GGACGTGAAC
GTGAAGAAAT ACGACTCCAC AGGGATGTTT CACTGGTGCC AGTCCAAAGA CATTGAGAAG
GTCATCTTGA CCCGGAGCGA AGCTGCCATG ACTGTTCTAA GCGGCCACGT GGTCGTCTGT
ATATTTGGAG ACGCAAAGTC GGCTTTGGTG GGCCTTAGGA ACCTTGTGAT GCCTCTGAGA
GCTAGCAATT TCCACTACCA CGAGCTGAAA CCCATTGTGT TTGTGGGTTC TCTGGAGTAC
CTGAAGAGGG AATGGGAGAC CCTTCACAAC TTTCCCAAAG TCTCCATCTT ACCTGGCACA
CCATTAAGCC GGGCCGATCT GAGGGCCGTC AATATCAACC TCTGTGACAT GTGTGTCATC
CTGTCAGCCA ATCAGAGCAA TATTGACGAC GCTTCACTGC AGGACAAGGA ATGCATCCTG
GCGTCACTCA ACATCAAGTC TATGCAGTTT GATGACAGCA TCGGGGTGTT GCAGGCTACC
TCCCAAGGTT TCACCCTGCC AGGCATGGAC AGGTCCTCTC CTGAAAACAG TCCAGTTCAT
GGGGGGTTGG TACGACAGGC TTCCATCACA ACAGGAGCCA ATGTCCCCAT CATCACTGAA
CTAGCACCGT TAGTAAAACC AGCAGGCAAA GTCCTACCTG TGATTTCATT CAGTCAGGAT
ACAAGCAGTG GGATCAACAT ACACATAATA ACAGAACTGG TGAACGACTC CAATGTTCAG
TTCCTGGACC AGGATGATGA CGATGACCCT GACACAGAGT TGTACCTCAC TCAACCCTTC
GCCTGTGGGA CGGCTTTCGC AGTCAGTGTG CTGGATTCCC TGATGAGTGC TACATACTTC
AATGATAATA TCCTCACCCT GATCCGGACG CTGGTAACAG GGGGGGCCAC TCCGGAGCTG
GAGGGTCTGT TGGCGGAGGA GAATGCATTA CGAGGAGGCT ACAGCACGCC GCAGACCCTC
GCTAACCGGG ACAGGTGTCG TGTTGCACAG CTAGCCTTGT ACGATGGGCC ATTTGCTGAC
TTGGGGGATG GTGGTTGCTA TGGTGACTTG TTTTGTAAAG CGTTAAAAAC ATACAACATG
CTTTGCTTTG GAATTTACCG ATTGAGGGAC GCCCATCTAA ACACACAAAG TCATACAAGT
CAATGCACTA AACGATATGT AATAACCAAC CCACCGTATG GTTTTGAGCT GGTGCCATCA
GACCTGATCT TCTGCCTGAT GCAGTTTGAC CACAACGCGG GTCAGTCCCA GGCCAGCCTC
ACCCATAGCT CCCACTCCTC CCATTCGTCC AGCAAAAAGA GCTCCTCCGT CCATTCTATC
CCCGCCACCA ACCGCACCAA CCGCGCCAAG AGCAGGGACT CACGGGATAA ACAAAAAAAA
GACATGCTTT ACAGATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_014035812.1 CDS 59..3196 Translation
Target ORF information:
RefSeq Version XM_014180337.1 Organism Salmo salar(Atlantic salmon) Definition Salmo salar calcium-activated potassium channel subunit alpha-1 (LOC106589905), transcript variant X8, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_014180337.1
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
3121ATGAATGTGG TGCTTGTCTT TGCCCTCAGC ATCGGAGCCC TTGTAATATA CTTCATAGAT
TCCTCTGACC CCATCGAGTC CTGTCAGAAC TTCTACAAAG ACTTCACGCT ACAGATCGAC
ATGGCTTTCA ACGTCTTCTT CCTCTTGTAC TTTGGTCTAC GGTTCATAGC GGCCAACGAC
AAGCTGTGGT TCTGGCTGGA GGTGAACTCA GTGGTGGACT TCTTCACTGT TCCCCCGGTG
TTCGTGTCCG TCTATCTCAA CAGGAGCTGG CTTGGCTTAC GTTTTTTAAG GGCCTTAAGA
TTGATACAGT TCTCAGAAAT CTTACAGTTT TTGAATATAT TAAAAACAAG CAATTCCATA
AAACTGGTGA ACTTGTGTTC AATCTTCATA AGCACATGGC TAACAGCTGC AGGCTTCATA
CATTTGGTGG AAAACTCAGG GGATCCTTGG GAAAACTTCC AAAATTCCCA GTCACTTTCC
TACTGGGAAT GTGTCTACTT ACTGATGGTT ACTATGTCCA CTGTGGGCTA TGGAGACGTG
TATGCCAAAA CTACCCTGGG ACGACTTTTC ATGGTCTTCT TCATCCTTGG TGGTTTGGCC
ATGTTTGCGA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATATGGT
GGTTCCTATA GTGCTGTTAA TGGGAGAAAG CACATCGTGG TCTGTGGTCA TATTACCCTT
GAAAGTGTGT CCAACTTCCT TAAAGACTTC CTACACAAGG ACAGGGATGA TGTCAATGTA
GAAATTGTTT TTCTCCATAA TATTTCCCCT AATCTTGAGC TGGAAGCCTT GTTTAAACGG
CACTTCACCC AGGTGGAGTT CTACCAGGGA TCTGTTCTCA ACCCACACGA CCTGGCCAGA
GTCAAGATAG AGTCAGCAGA TGCCTGTTTG ATCCTAGCTA ATAAATACTG TGCAGACCCT
GATGCTGAGG ATGCTTCCAA CATCATGAGG GTGATATCCA TCAAGAACTA CCATCCGAAG
ATCAGAATCA TTACCCAGAT GTTGCAGTAC CACAACAAGG CCCACCTTTT GAACATTCCC
AGTTGGAACT GGAAGGAGGG GGACGATGCC ATTTGCCTTG CTGAGCTGAA GCTTGGCTTC
ATAGCACAGA GTTGTCTGGC TCAGGGCCTC TCCACCATGC TGGCCAACCT CTTCTCCATG
AGGTCCTTTA TCAAGATTGA AGAGGACACG TGGCAGAAGT ATTACCTGGA AGGAGTAGCC
AATGAAATGT ACACTGAGTA CTTGTCTAGT GCCTTTGTGG GCTTATCCTT CCCCACCATT
TGTGAACTGT GCTATGTGAA GCTAAAGCTG CTACTGATCG CTATCGAGTA CAAGTCTGAT
ATACGGGAAA GCAGCACTCT CATCAACCCT GGGAACCATG TGAAGATGCA GGAAGGAACC
TTGGGGTTCT TTATCGCCAG CGATGCCAAA GAAGTTAAGA GGGCACTTTT CTACTGCAAA
GCTTGCCACG ATGACATCAC AGATCCCAAA AGGATAAAGA AATGTGGATG CAAACGATCA
AAAAATAACT ATAACGGATA TATCAAATCA ATGGAAGAGG AGCAGCAGTC AGCCGTTTCT
CCTAAAAAGA AACAAGTCAA TGGAAACACG AGGAACTCAC CCAACGGTTC ACCAAAAATG
ATGAGGCATG ACCCTCTCCT CATGCCGGGG AAGGAACAGA TTGAGAACAT GGACGTGAAC
GTGAAGAAAT ACGACTCCAC AGGGATGTTT CACTGGTGCC AGTCCAAAGA CATTGAGAAG
GTCATCTTGA CCCGGAGCGA AGCTGCCATG ACTGTTCTAA GCGGCCACGT GGTCGTCTGT
ATATTTGGAG ACGCAAAGTC GGCTTTGGTG GGCCTTAGGA ACCTTGTGAT GCCTCTGAGA
GCTAGCAATT TCCACTACCA CGAGCTGAAA CCCATTGTGT TTGTGGGTTC TCTGGAGTAC
CTGAAGAGGG AATGGGAGAC CCTTCACAAC TTTCCCAAAG TCTCCATCTT ACCTGGCACA
CCATTAAGCC GGGCCGATCT GAGGGCCGTC AATATCAACC TCTGTGACAT GTGTGTCATC
CTGTCAGCCA ATCAGAGCAA TATTGACGAC GCTTCACTGC AGGACAAGGA ATGCATCCTG
GCGTCACTCA ACATCAAGTC TATGCAGTTT GATGACAGCA TCGGGGTGTT GCAGGCTACC
TCCCAAGGTT TCACCCTGCC AGGCATGGAC AGGTCCTCTC CTGAAAACAG TCCAGTTCAT
GGGGGGTTGG TACGACAGGC TTCCATCACA ACAGGAGCCA ATGTCCCCAT CATCACTGAA
CTAGCACCGT TAGTAAAACC AGCAGGCAAA GTCCTACCTG TGATTTCATT CAGTCAGGAT
ACAAGCAGTG GGATCAACAT ACACATAATA ACAGAACTGG TGAACGACTC CAATGTTCAG
TTCCTGGACC AGGATGATGA CGATGACCCT GACACAGAGT TGTACCTCAC TCAACCCTTC
GCCTGTGGGA CGGCTTTCGC AGTCAGTGTG CTGGATTCCC TGATGAGTGC TACATACTTC
AATGATAATA TCCTCACCCT GATCCGGACG CTGGTAACAG GGGGGGCCAC TCCGGAGCTG
GAGGGTCTGT TGGCGGAGGA GAATGCATTA CGAGGAGGCT ACAGCACGCC GCAGACCCTC
GCTAACCGGG ACAGGTGTCG TGTTGCACAG CTAGCCTTGT ACGATGGGCC ATTTGCTGAC
TTGGGGGATG GTGGTTGCTA TGGTGACTTG TTTTGTAAAG CGTTAAAAAC ATACAACATG
CTTTGCTTTG GAATTTACCG ATTGAGGGAC GCCCATCTAA ACACACAAAG TCATACAAGT
CAATGCACTA AACGATATGT AATAACCAAC CCACCGTATG GTTTTGAGCT GGTGCCATCA
GACCTGATCT TCTGCCTGAT GCAGTTTGAC CACAACGCGG GTCAGTCCCA GGCCAGCCTC
ACCCATAGCT CCCACTCCTC CCATTCGTCC AGCAAAAAGA GCTCCTCCGT CCATTCTATC
CCCGCCACCA ACCGCACCAA CCGCGCCAAG AGCAGGGACT CACGGGATAA ACAAAAAAAA
GACATGCTTT ACAGATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAt73590 Clone ID Related Accession (Same CDS sequence) XM_014180338.1 Accession Version XM_014180338.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3114bp)
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 1442678400000 Organism Salmo salar(Atlantic salmon) Product calcium-activated potassium channel subunit alpha-1 isoform X8 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012341616.1) 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 Version :: Salmo salar Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061ATGAATGTGG TGCTTGTCTT TGCCCTCAGC ATCGGAGCCC TTGTAATATA CTTCATAGAT
TCCTCTGACC CCATCGAGTC CTGTCAGAAC TTCTACAAAG ACTTCACGCT ACAGATCGAC
ATGGCTTTCA ACGTCTTCTT CCTCTTGTAC TTTGGTCTAC GGTTCATAGC GGCCAACGAC
AAGCTGTGGT TCTGGCTGGA GGTGAACTCA GTGGTGGACT TCTTCACTGT TCCCCCGGTG
TTCGTGTCCG TCTATCTCAA CAGGAGCTGG CTTGGCTTAC GTTTTTTAAG GGCCTTAAGA
TTGATACAGT TCTCAGAAAT CTTACAGTTT TTGAATATAT TAAAAACAAG CAATTCCATA
AAACTGGTGA ACTTGTGTTC AATCTTCATA AGCACATGGC TAACAGCTGC AGGCTTCATA
CATTTGGTGG AAAACTCAGG GGATCCTTGG GAAAACTTCC AAAATTCCCA GTCACTTTCC
TACTGGGAAT GTGTCTACTT ACTGATGGTT ACTATGTCCA CTGTGGGCTA TGGAGACGTG
TATGCCAAAA CTACCCTGGG ACGACTTTTC ATGGTCTTCT TCATCCTTGG TGGTTTGGCC
ATGTTTGCGA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATATGGT
GGTTCCTATA GTGCTGTTAA TGGGAGAAAG CACATCGTGG TCTGTGGTCA TATTACCCTT
GAAAGTGTGT CCAACTTCCT TAAAGACTTC CTACACAAGG ACAGGGATGA TGTCAATGTA
GAAATTGTTT TTCTCCATAA TATTTCCCCT AATCTTGAGC TGGAAGCCTT GTTTAAACGG
CACTTCACCC AGGTGGAGTT CTACCAGGGA TCTGTTCTCA ACCCACACGA CCTGGCCAGA
GTCAAGATAG AGTCAGCAGA TGCCTGTTTG ATCCTAGCTA ATAAATACTG TGCAGACCCT
GATGCTGAGG ATGCTTCCAA CATCATGAGG GTGATATCCA TCAAGAACTA CCATCCGAAG
ATCAGAATCA TTACCCAGAT GTTGCAGTAC CACAACAAGG CCCACCTTTT GAACATTCCC
AGTTGGAACT GGAAGGAGGG GGACGATGCC ATTTGCCTTG CTGAGCTGAA GCTTGGCTTC
ATAGCACAGA GTTGTCTGGC TCAGGGCCTC TCCACCATGC TGGCCAACCT CTTCTCCATG
AGGTCCTTTA TCAAGATTGA AGAGGACACG TGGCAGAAGT ATTACCTGGA AGGAGTAGCC
AATGAAATGT ACACTGAGTA CTTGTCTAGT GCCTTTGTGG GCTTATCCTT CCCCACCATT
TGTGAACTGT GCTATGTGAA GCTAAAGCTG CTACTGATCG CTATCGAGTA CAAGTCTGAT
ATACGGGAAA GCAGCACTCT CATCAACCCT GGGAACCATG TGAAGATGCA GGAAGGAACC
TTGGGGTTCT TTATCGCCAG CGATGCCAAA GAAGTTAAGA GGGCACTTTT CTACTGCAAA
GCTTGCCACG ATGACATCAC AGATCCCAAA AGGATAAAGA AATGTGGATG CAAACGATTG
ATCTATTTGG AAGAGGAGCA GCAGTCAGCC GTTTCTCCTA AAAAGAAACA AGTCAATGGA
AACACGAGGA ACTCACCCAA CGGTTCACCA AAAATGATGA GGCATGACCC TCTCCTCATG
CCGGGGAAGG AACAGATTGA GAACATGGAC GTGAACGTGA AGAAATACGA CTCCACAGGG
ATGTTTCACT GGTGCCAGTC CAAAGACATT GAGAAGGTCA TCTTGACCCG GAGCGAAGCT
GCCATGACTG TTCTAAGCGG CCACGTGGTC GTCTGTATAT TTGGAGACGC AAAGTCGGCT
TTGGTGGGCC TTAGGAACCT TGTGATGCCT CTGAGAGCTA GCAATTTCCA CTACCACGAG
CTGAAACCCA TTGTGTTTGT GGGTTCTCTG GAGTACCTGA AGAGGGAATG GGAGACCCTT
CACAACTTTC CCAAAGTCTC CATCTTACCT GGCACACCAT TAAGCCGGGC CGATCTGAGG
GCCGTCAATA TCAACCTCTG TGACATGTGT GTCATCCTGT CAGCCAATCA GAGCAATATT
GACGACGCTT CACTGCAGGA CAAGGAATGC ATCCTGGCGT CACTCAACAT CAAGTCTATG
CAGTTTGATG ACAGCATCGG GGTGTTGCAG GCTACCTCCC AAGGTTTCAC CCTGCCAGGC
ATGGACAGGT CCTCTCCTGA AAACAGTCCA GTTCATGGGG GGTTGGTACG ACAGGCTTCC
ATCACAACAG GAGCCAATGT CCCCATCATC ACTGAACTAG CACCGTTAGT AAAACCAGCA
GGCAAAGTCC TACCTGTGAT TTCATTCAGT CAGGATACAA GCAGTGGGAT CAACATACAC
ATAATAACAG AACTGGTGAA CGACTCCAAT GTTCAGTTCC TGGACCAGGA TGATGACGAT
GACCCTGACA CAGAGTTGTA CCTCACTCAA CCCTTCGCCT GTGGGACGGC TTTCGCAGTC
AGTGTGCTGG ATTCCCTGAT GAGTGCTACA TACTTCAATG ATAATATCCT CACCCTGATC
CGGACGCTGG TAACAGGGGG GGCCACTCCG GAGCTGGAGG GTCTGTTGGC GGAGGAGAAT
GCATTACGAG GAGGCTACAG CACGCCGCAG ACCCTCGCTA ACCGGGACAG GTGTCGTGTT
GCACAGCTAG CCTTGTACGA TGGGCCATTT GCTGACTTGG GGGATGGTGG TTGCTATGGT
GACTTGTTTT GTAAAGCGTT AAAAACATAC AACATGCTTT GCTTTGGAAT TTACCGATTG
AGGGACGCCC ATCTAAACAC ACAAAGTCAT ACAAGTCAAT GCACTAAACG ATATGTAATA
ACCAACCCAC CGTATGGTTT TGAGCTGGTG CCATCAGACC TGATCTTCTG CCTGATGCAG
TTTGACCACA ACGCGGGTCA GTCCCAGGCC AGCCTCACCC ATAGCTCCCA CTCCTCCCAT
TCGTCCAGCA AAAAGAGCTC CTCCGTCCAT TCTATCCCCG CCACCAACCG CACCAACCGC
GCCAAGAGCA GGGACTCACG GGATAAACAA AAAAAAGACA TGCTTTACAG ATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_014035813.1 CDS 59..3172 Translation
Target ORF information:
RefSeq Version XM_014180338.1 Organism Salmo salar(Atlantic salmon) Definition Salmo salar calcium-activated potassium channel subunit alpha-1 (LOC106589905), transcript variant X9, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_014180338.1
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
3061ATGAATGTGG TGCTTGTCTT TGCCCTCAGC ATCGGAGCCC TTGTAATATA CTTCATAGAT
TCCTCTGACC CCATCGAGTC CTGTCAGAAC TTCTACAAAG ACTTCACGCT ACAGATCGAC
ATGGCTTTCA ACGTCTTCTT CCTCTTGTAC TTTGGTCTAC GGTTCATAGC GGCCAACGAC
AAGCTGTGGT TCTGGCTGGA GGTGAACTCA GTGGTGGACT TCTTCACTGT TCCCCCGGTG
TTCGTGTCCG TCTATCTCAA CAGGAGCTGG CTTGGCTTAC GTTTTTTAAG GGCCTTAAGA
TTGATACAGT TCTCAGAAAT CTTACAGTTT TTGAATATAT TAAAAACAAG CAATTCCATA
AAACTGGTGA ACTTGTGTTC AATCTTCATA AGCACATGGC TAACAGCTGC AGGCTTCATA
CATTTGGTGG AAAACTCAGG GGATCCTTGG GAAAACTTCC AAAATTCCCA GTCACTTTCC
TACTGGGAAT GTGTCTACTT ACTGATGGTT ACTATGTCCA CTGTGGGCTA TGGAGACGTG
TATGCCAAAA CTACCCTGGG ACGACTTTTC ATGGTCTTCT TCATCCTTGG TGGTTTGGCC
ATGTTTGCGA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATATGGT
GGTTCCTATA GTGCTGTTAA TGGGAGAAAG CACATCGTGG TCTGTGGTCA TATTACCCTT
GAAAGTGTGT CCAACTTCCT TAAAGACTTC CTACACAAGG ACAGGGATGA TGTCAATGTA
GAAATTGTTT TTCTCCATAA TATTTCCCCT AATCTTGAGC TGGAAGCCTT GTTTAAACGG
CACTTCACCC AGGTGGAGTT CTACCAGGGA TCTGTTCTCA ACCCACACGA CCTGGCCAGA
GTCAAGATAG AGTCAGCAGA TGCCTGTTTG ATCCTAGCTA ATAAATACTG TGCAGACCCT
GATGCTGAGG ATGCTTCCAA CATCATGAGG GTGATATCCA TCAAGAACTA CCATCCGAAG
ATCAGAATCA TTACCCAGAT GTTGCAGTAC CACAACAAGG CCCACCTTTT GAACATTCCC
AGTTGGAACT GGAAGGAGGG GGACGATGCC ATTTGCCTTG CTGAGCTGAA GCTTGGCTTC
ATAGCACAGA GTTGTCTGGC TCAGGGCCTC TCCACCATGC TGGCCAACCT CTTCTCCATG
AGGTCCTTTA TCAAGATTGA AGAGGACACG TGGCAGAAGT ATTACCTGGA AGGAGTAGCC
AATGAAATGT ACACTGAGTA CTTGTCTAGT GCCTTTGTGG GCTTATCCTT CCCCACCATT
TGTGAACTGT GCTATGTGAA GCTAAAGCTG CTACTGATCG CTATCGAGTA CAAGTCTGAT
ATACGGGAAA GCAGCACTCT CATCAACCCT GGGAACCATG TGAAGATGCA GGAAGGAACC
TTGGGGTTCT TTATCGCCAG CGATGCCAAA GAAGTTAAGA GGGCACTTTT CTACTGCAAA
GCTTGCCACG ATGACATCAC AGATCCCAAA AGGATAAAGA AATGTGGATG CAAACGATTG
ATCTATTTGG AAGAGGAGCA GCAGTCAGCC GTTTCTCCTA AAAAGAAACA AGTCAATGGA
AACACGAGGA ACTCACCCAA CGGTTCACCA AAAATGATGA GGCATGACCC TCTCCTCATG
CCGGGGAAGG AACAGATTGA GAACATGGAC GTGAACGTGA AGAAATACGA CTCCACAGGG
ATGTTTCACT GGTGCCAGTC CAAAGACATT GAGAAGGTCA TCTTGACCCG GAGCGAAGCT
GCCATGACTG TTCTAAGCGG CCACGTGGTC GTCTGTATAT TTGGAGACGC AAAGTCGGCT
TTGGTGGGCC TTAGGAACCT TGTGATGCCT CTGAGAGCTA GCAATTTCCA CTACCACGAG
CTGAAACCCA TTGTGTTTGT GGGTTCTCTG GAGTACCTGA AGAGGGAATG GGAGACCCTT
CACAACTTTC CCAAAGTCTC CATCTTACCT GGCACACCAT TAAGCCGGGC CGATCTGAGG
GCCGTCAATA TCAACCTCTG TGACATGTGT GTCATCCTGT CAGCCAATCA GAGCAATATT
GACGACGCTT CACTGCAGGA CAAGGAATGC ATCCTGGCGT CACTCAACAT CAAGTCTATG
CAGTTTGATG ACAGCATCGG GGTGTTGCAG GCTACCTCCC AAGGTTTCAC CCTGCCAGGC
ATGGACAGGT CCTCTCCTGA AAACAGTCCA GTTCATGGGG GGTTGGTACG ACAGGCTTCC
ATCACAACAG GAGCCAATGT CCCCATCATC ACTGAACTAG CACCGTTAGT AAAACCAGCA
GGCAAAGTCC TACCTGTGAT TTCATTCAGT CAGGATACAA GCAGTGGGAT CAACATACAC
ATAATAACAG AACTGGTGAA CGACTCCAAT GTTCAGTTCC TGGACCAGGA TGATGACGAT
GACCCTGACA CAGAGTTGTA CCTCACTCAA CCCTTCGCCT GTGGGACGGC TTTCGCAGTC
AGTGTGCTGG ATTCCCTGAT GAGTGCTACA TACTTCAATG ATAATATCCT CACCCTGATC
CGGACGCTGG TAACAGGGGG GGCCACTCCG GAGCTGGAGG GTCTGTTGGC GGAGGAGAAT
GCATTACGAG GAGGCTACAG CACGCCGCAG ACCCTCGCTA ACCGGGACAG GTGTCGTGTT
GCACAGCTAG CCTTGTACGA TGGGCCATTT GCTGACTTGG GGGATGGTGG TTGCTATGGT
GACTTGTTTT GTAAAGCGTT AAAAACATAC AACATGCTTT GCTTTGGAAT TTACCGATTG
AGGGACGCCC ATCTAAACAC ACAAAGTCAT ACAAGTCAAT GCACTAAACG ATATGTAATA
ACCAACCCAC CGTATGGTTT TGAGCTGGTG CCATCAGACC TGATCTTCTG CCTGATGCAG
TTTGACCACA ACGCGGGTCA GTCCCAGGCC AGCCTCACCC ATAGCTCCCA CTCCTCCCAT
TCGTCCAGCA AAAAGAGCTC CTCCGTCCAT TCTATCCCCG CCACCAACCG CACCAACCGC
GCCAAGAGCA GGGACTCACG GGATAAACAA AAAAAAGACA TGCTTTACAG ATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAt73591 Clone ID Related Accession (Same CDS sequence) XM_014180339.1 Accession Version XM_014180339.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3105bp)
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 1442678400000 Organism Salmo salar(Atlantic salmon) Product calcium-activated potassium channel subunit alpha-1 isoform X9 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012341616.1) 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 Version :: Salmo salar Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061ATGAATGTGG TGCTTGTCTT TGCCCTCAGC ATCGGAGCCC TTGTAATATA CTTCATAGAT
TCCTCTGACC CCATCGAGTC CTGTCAGAAC TTCTACAAAG ACTTCACGCT ACAGATCGAC
ATGGCTTTCA ACGTCTTCTT CCTCTTGTAC TTTGGTCTAC GGTTCATAGC GGCCAACGAC
AAGCTGTGGT TCTGGCTGGA GGTGAACTCA GTGGTGGACT TCTTCACTGT TCCCCCGGTG
TTCGTGTCCG TCTATCTCAA CAGGAGCTGG CTTGGCTTAC GTTTTTTAAG GGCCTTAAGA
TTGATACAGT TCTCAGAAAT CTTACAGTTT TTGAATATAT TAAAAACAAG CAATTCCATA
AAACTGGTGA ACTTGTGTTC AATCTTCATA AGCACATGGC TAACAGCTGC AGGCTTCATA
CATTTGGTGG AAAACTCAGG GGATCCTTGG GAAAACTTCC AAAATTCCCA GTCACTTTCC
TACTGGGAAT GTGTCTACTT ACTGATGGTT ACTATGTCCA CTGTGGGCTA TGGAGACGTG
TATGCCAAAA CTACCCTGGG ACGACTTTTC ATGGTCTTCT TCATCCTTGG TGGTTTGGCC
ATGTTTGCGA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATATGGT
GGTTCCTATA GTGCTGTTAA TGGGAGAAAG CACATCGTGG TCTGTGGTCA TATTACCCTT
GAAAGTGTGT CCAACTTCCT TAAAGACTTC CTACACAAGG ACAGGGATGA TGTCAATGTA
GAAATTGTTT TTCTCCATAA TATTTCCCCT AATCTTGAGC TGGAAGCCTT GTTTAAACGG
CACTTCACCC AGGTGGAGTT CTACCAGGGA TCTGTTCTCA ACCCACACGA CCTGGCCAGA
GTCAAGATAG AGTCAGCAGA TGCCTGTTTG ATCCTAGCTA ATAAATACTG TGCAGACCCT
GATGCTGAGG ATGCTTCCAA CATCATGAGG GTGATATCCA TCAAGAACTA CCATCCGAAG
ATCAGAATCA TTACCCAGAT GTTGCAGTAC CACAACAAGG CCCACCTTTT GAACATTCCC
AGTTGGAACT GGAAGGAGGG GGACGATGCC ATTTGCCTTG CTGAGCTGAA GCTTGGCTTC
ATAGCACAGA GTTGTCTGGC TCAGGGCCTC TCCACCATGC TGGCCAACCT CTTCTCCATG
AGGTCCTTTA TCAAGATTGA AGAGGACACG TGGCAGAAGT ATTACCTGGA AGGAGTAGCC
AATGAAATGT ACACTGAGTA CTTGTCTAGT GCCTTTGTGG GCTTATCCTT CCCCACCATT
TGTGAACTGT GCTATGTGAA GCTAAAGCTG CTACTGATCG CTATCGAGTA CAAGTCTGAT
ATACGGGAAA GCAGCACTCT CATCAACCCT GGGAACCATG TGAAGATGCA GGAAGGAACC
TTGGGGTTCT TTATCGCCAG CGATGCCAAA GAAGTTAAGA GGGCACTTTT CTACTGCAAA
GCTTGCCACG ATGACATCAC AGATCCCAAA AGGATAAAGA AATGTGGATG CAAACGATTG
GAAGAGGAGC AGCAGTCAGC CGTTTCTCCT AAAAAGAAAC AAGTCAATGG AAACACGAGG
AACTCACCCA ACGGTTCACC AAAAATGATG AGGCATGACC CTCTCCTCAT GCCGGGGAAG
GAACAGATTG AGAACATGGA CGTGAACGTG AAGAAATACG ACTCCACAGG GATGTTTCAC
TGGTGCCAGT CCAAAGACAT TGAGAAGGTC ATCTTGACCC GGAGCGAAGC TGCCATGACT
GTTCTAAGCG GCCACGTGGT CGTCTGTATA TTTGGAGACG CAAAGTCGGC TTTGGTGGGC
CTTAGGAACC TTGTGATGCC TCTGAGAGCT AGCAATTTCC ACTACCACGA GCTGAAACCC
ATTGTGTTTG TGGGTTCTCT GGAGTACCTG AAGAGGGAAT GGGAGACCCT TCACAACTTT
CCCAAAGTCT CCATCTTACC TGGCACACCA TTAAGCCGGG CCGATCTGAG GGCCGTCAAT
ATCAACCTCT GTGACATGTG TGTCATCCTG TCAGCCAATC AGAGCAATAT TGACGACGCT
TCACTGCAGG ACAAGGAATG CATCCTGGCG TCACTCAACA TCAAGTCTAT GCAGTTTGAT
GACAGCATCG GGGTGTTGCA GGCTACCTCC CAAGGTTTCA CCCTGCCAGG CATGGACAGG
TCCTCTCCTG AAAACAGTCC AGTTCATGGG GGGTTGGTAC GACAGGCTTC CATCACAACA
GGAGCCAATG TCCCCATCAT CACTGAACTA GCACCGTTAG TAAAACCAGC AGGCAAAGTC
CTACCTGTGA TTTCATTCAG TCAGGATACA AGCAGTGGGA TCAACATACA CATAATAACA
GAACTGGTGA ACGACTCCAA TGTTCAGTTC CTGGACCAGG ATGATGACGA TGACCCTGAC
ACAGAGTTGT ACCTCACTCA ACCCTTCGCC TGTGGGACGG CTTTCGCAGT CAGTGTGCTG
GATTCCCTGA TGAGTGCTAC ATACTTCAAT GATAATATCC TCACCCTGAT CCGGACGCTG
GTAACAGGGG GGGCCACTCC GGAGCTGGAG GGTCTGTTGG CGGAGGAGAA TGCATTACGA
GGAGGCTACA GCACGCCGCA GACCCTCGCT AACCGGGACA GGTGTCGTGT TGCACAGCTA
GCCTTGTACG ATGGGCCATT TGCTGACTTG GGGGATGGTG GTTGCTATGG TGACTTGTTT
TGTAAAGCGT TAAAAACATA CAACATGCTT TGCTTTGGAA TTTACCGATT GAGGGACGCC
CATCTAAACA CACAAAGTCA TACAAGTCAA TGCACTAAAC GATATGTAAT AACCAACCCA
CCGTATGGTT TTGAGCTGGT GCCATCAGAC CTGATCTTCT GCCTGATGCA GTTTGACCAC
AACGCGGGTC AGTCCCAGGC CAGCCTCACC CATAGCTCCC ACTCCTCCCA TTCGTCCAGC
AAAAAGAGCT CCTCCGTCCA TTCTATCCCC GCCACCAACC GCACCAACCG CGCCAAGAGC
AGGGACTCAC GGGATAAACA AAAAAAAGAC ATGCTTTACA GATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_014035814.1 CDS 59..3163 Translation
Target ORF information:
RefSeq Version XM_014180339.1 Organism Salmo salar(Atlantic salmon) Definition Salmo salar calcium-activated potassium channel subunit alpha-1 (LOC106589905), transcript variant X10, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_014180339.1
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
3061ATGAATGTGG TGCTTGTCTT TGCCCTCAGC ATCGGAGCCC TTGTAATATA CTTCATAGAT
TCCTCTGACC CCATCGAGTC CTGTCAGAAC TTCTACAAAG ACTTCACGCT ACAGATCGAC
ATGGCTTTCA ACGTCTTCTT CCTCTTGTAC TTTGGTCTAC GGTTCATAGC GGCCAACGAC
AAGCTGTGGT TCTGGCTGGA GGTGAACTCA GTGGTGGACT TCTTCACTGT TCCCCCGGTG
TTCGTGTCCG TCTATCTCAA CAGGAGCTGG CTTGGCTTAC GTTTTTTAAG GGCCTTAAGA
TTGATACAGT TCTCAGAAAT CTTACAGTTT TTGAATATAT TAAAAACAAG CAATTCCATA
AAACTGGTGA ACTTGTGTTC AATCTTCATA AGCACATGGC TAACAGCTGC AGGCTTCATA
CATTTGGTGG AAAACTCAGG GGATCCTTGG GAAAACTTCC AAAATTCCCA GTCACTTTCC
TACTGGGAAT GTGTCTACTT ACTGATGGTT ACTATGTCCA CTGTGGGCTA TGGAGACGTG
TATGCCAAAA CTACCCTGGG ACGACTTTTC ATGGTCTTCT TCATCCTTGG TGGTTTGGCC
ATGTTTGCGA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATATGGT
GGTTCCTATA GTGCTGTTAA TGGGAGAAAG CACATCGTGG TCTGTGGTCA TATTACCCTT
GAAAGTGTGT CCAACTTCCT TAAAGACTTC CTACACAAGG ACAGGGATGA TGTCAATGTA
GAAATTGTTT TTCTCCATAA TATTTCCCCT AATCTTGAGC TGGAAGCCTT GTTTAAACGG
CACTTCACCC AGGTGGAGTT CTACCAGGGA TCTGTTCTCA ACCCACACGA CCTGGCCAGA
GTCAAGATAG AGTCAGCAGA TGCCTGTTTG ATCCTAGCTA ATAAATACTG TGCAGACCCT
GATGCTGAGG ATGCTTCCAA CATCATGAGG GTGATATCCA TCAAGAACTA CCATCCGAAG
ATCAGAATCA TTACCCAGAT GTTGCAGTAC CACAACAAGG CCCACCTTTT GAACATTCCC
AGTTGGAACT GGAAGGAGGG GGACGATGCC ATTTGCCTTG CTGAGCTGAA GCTTGGCTTC
ATAGCACAGA GTTGTCTGGC TCAGGGCCTC TCCACCATGC TGGCCAACCT CTTCTCCATG
AGGTCCTTTA TCAAGATTGA AGAGGACACG TGGCAGAAGT ATTACCTGGA AGGAGTAGCC
AATGAAATGT ACACTGAGTA CTTGTCTAGT GCCTTTGTGG GCTTATCCTT CCCCACCATT
TGTGAACTGT GCTATGTGAA GCTAAAGCTG CTACTGATCG CTATCGAGTA CAAGTCTGAT
ATACGGGAAA GCAGCACTCT CATCAACCCT GGGAACCATG TGAAGATGCA GGAAGGAACC
TTGGGGTTCT TTATCGCCAG CGATGCCAAA GAAGTTAAGA GGGCACTTTT CTACTGCAAA
GCTTGCCACG ATGACATCAC AGATCCCAAA AGGATAAAGA AATGTGGATG CAAACGATTG
GAAGAGGAGC AGCAGTCAGC CGTTTCTCCT AAAAAGAAAC AAGTCAATGG AAACACGAGG
AACTCACCCA ACGGTTCACC AAAAATGATG AGGCATGACC CTCTCCTCAT GCCGGGGAAG
GAACAGATTG AGAACATGGA CGTGAACGTG AAGAAATACG ACTCCACAGG GATGTTTCAC
TGGTGCCAGT CCAAAGACAT TGAGAAGGTC ATCTTGACCC GGAGCGAAGC TGCCATGACT
GTTCTAAGCG GCCACGTGGT CGTCTGTATA TTTGGAGACG CAAAGTCGGC TTTGGTGGGC
CTTAGGAACC TTGTGATGCC TCTGAGAGCT AGCAATTTCC ACTACCACGA GCTGAAACCC
ATTGTGTTTG TGGGTTCTCT GGAGTACCTG AAGAGGGAAT GGGAGACCCT TCACAACTTT
CCCAAAGTCT CCATCTTACC TGGCACACCA TTAAGCCGGG CCGATCTGAG GGCCGTCAAT
ATCAACCTCT GTGACATGTG TGTCATCCTG TCAGCCAATC AGAGCAATAT TGACGACGCT
TCACTGCAGG ACAAGGAATG CATCCTGGCG TCACTCAACA TCAAGTCTAT GCAGTTTGAT
GACAGCATCG GGGTGTTGCA GGCTACCTCC CAAGGTTTCA CCCTGCCAGG CATGGACAGG
TCCTCTCCTG AAAACAGTCC AGTTCATGGG GGGTTGGTAC GACAGGCTTC CATCACAACA
GGAGCCAATG TCCCCATCAT CACTGAACTA GCACCGTTAG TAAAACCAGC AGGCAAAGTC
CTACCTGTGA TTTCATTCAG TCAGGATACA AGCAGTGGGA TCAACATACA CATAATAACA
GAACTGGTGA ACGACTCCAA TGTTCAGTTC CTGGACCAGG ATGATGACGA TGACCCTGAC
ACAGAGTTGT ACCTCACTCA ACCCTTCGCC TGTGGGACGG CTTTCGCAGT CAGTGTGCTG
GATTCCCTGA TGAGTGCTAC ATACTTCAAT GATAATATCC TCACCCTGAT CCGGACGCTG
GTAACAGGGG GGGCCACTCC GGAGCTGGAG GGTCTGTTGG CGGAGGAGAA TGCATTACGA
GGAGGCTACA GCACGCCGCA GACCCTCGCT AACCGGGACA GGTGTCGTGT TGCACAGCTA
GCCTTGTACG ATGGGCCATT TGCTGACTTG GGGGATGGTG GTTGCTATGG TGACTTGTTT
TGTAAAGCGT TAAAAACATA CAACATGCTT TGCTTTGGAA TTTACCGATT GAGGGACGCC
CATCTAAACA CACAAAGTCA TACAAGTCAA TGCACTAAAC GATATGTAAT AACCAACCCA
CCGTATGGTT TTGAGCTGGT GCCATCAGAC CTGATCTTCT GCCTGATGCA GTTTGACCAC
AACGCGGGTC AGTCCCAGGC CAGCCTCACC CATAGCTCCC ACTCCTCCCA TTCGTCCAGC
AAAAAGAGCT CCTCCGTCCA TTCTATCCCC GCCACCAACC GCACCAACCG CGCCAAGAGC
AGGGACTCAC GGGATAAACA AAAAAAAGAC ATGCTTTACA GATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAt73592 Clone ID Related Accession (Same CDS sequence) XM_014180340.1 Accession Version XM_014180340.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3102bp)
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 1442678400000 Organism Salmo salar(Atlantic salmon) Product calcium-activated potassium channel subunit alpha-1 isoform X10 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012341616.1) 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 Version :: Salmo salar Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061ATGAGTCCAT TAAAGATCTT AAAGATGGAT GAAGGCTTAA AAGGCTTACG TTTTTTAAGG
GCCTTAAGAT TGATACAGTT CTCAGAAATC TTACAGTTTT TGAATATATT AAAAACAAGC
AATTCCATAA AACTGGTGAA CTTGTGTTCA ATCTTCATAA GCACATGGCT AACAGCTGCA
GGCTTCATAC ATTTGGTGGA AAACTCAGGG GATCCTTGGG AAAACTTCCA AAATTCCCAG
TCACTTTCCT ACTGGGAATG TGTCTACTTA CTGATGGTTA CTATGTCCAC TGTGGGCTAT
GGAGACGTGT ATGCCAAAAC TACCCTGGGA CGACTTTTCA TGGTCTTCTT CATCCTTGGT
GGTTTGGCCA TGTTTGCGAG CTACGTCCCT GAAATCATAG AGTTAATAGG AAACCGCAAG
AAATATGGTG GTTCCTATAG TGCTGTTAAT GGGAGAAAGC ACATCGTGGT CTGTGGTCAT
ATTACCCTTG AAAGTGTGTC CAACTTCCTT AAAGACTTCC TACACAAGGA CAGGGATGAT
GTCAATGTAG AAATTGTTTT TCTCCATAAT ATTTCCCCTA ATCTTGAGCT GGAAGCCTTG
TTTAAACGGC ACTTCACCCA GGTGGAGTTC TACCAGGGAT CTGTTCTCAA CCCACACGAC
CTGGCCAGAG TCAAGATAGA GTCAGCAGAT GCCTGTTTGA TCCTAGCTAA TAAATACTGT
GCAGACCCTG ATGCTGAGGA TGCTTCCAAC ATCATGAGGG TGATATCCAT CAAGAACTAC
CATCCGAAGA TCAGAATCAT TACCCAGATG TTGCAGTACC ACAACAAGGC CCACCTTTTG
AACATTCCCA GTTGGAACTG GAAGGAGGGG GACGATGCCA TTTGCCTTGC TGAGCTGAAG
CTTGGCTTCA TAGCACAGAG TTGTCTGGCT CAGGGCCTCT CCACCATGCT GGCCAACCTC
TTCTCCATGA GGTCCTTTAT CAAGATTGAA GAGGACACGT GGCAGAAGTA TTACCTGGAA
GGAGTAGCCA ATGAAATGTA CACTGAGTAC TTGTCTAGTG CCTTTGTGGG CTTATCCTTC
CCCACCATTT GTGAACTGTG CTATGTGAAG CTAAAGCTGC TACTGATCGC TATCGAGTAC
AAGTCTGATA TACGGGAAAG CAGCACTCTC ATCAACCCTG GGAACCATGT GAAGATGCAG
GAAGGAACCT TGGGGTTCTT TATCGCCAGC GATGCCAAAG AAGTTAAGAG GGCACTTTTC
TACTGCAAAG CTTGCCACGA TGACATCACA GATCCCAAAA GGATAAAGAA ATGTGGATGC
AAACGATTGA TCTATTCCAA GATGTCCGTC TACAAGAGAA TGACGCTGGC ATGTTGTTTT
GATTGCGGCC GTTCAGAGCG TGACTGCTCT CGCATGTCAG CCAATGTGCA TCACCATAGT
AAAGCGAAGG ACACCCTTCA GCAGCGTGGC TTCCCTCTCT CTCCTGTCTC TCTTAATGAT
TGCTCGACCA CTTTACGTGC CTCAAAAAAT AACTATAACG GATATATCAA ATCAATGGAA
GAGGAGCAGC AGTCAGCCGT TTCTCCTAAA AAGAAACAAG TCAATGGAAA CACGAGGAAC
TCACCCAACG GTTCACCAAA AATGATGAGG CATGACCCTC TCCTCATGCC GGGGAAGGAA
CAGATTGAGA ACATGGACGT GAACGTGAAG AAATACGACT CCACAGGGAT GTTTCACTGG
TGCCAGTCCA AAGACATTGA GAAGGTCATC TTGACCCGGA GCGAAGCTGC CATGACTGTT
CTAAGCGGCC ACGTGGTCGT CTGTATATTT GGAGACGCAA AGTCGGCTTT GGTGGGCCTT
AGGAACCTTG TGATGCCTCT GAGAGCTAGC AATTTCCACT ACCACGAGCT GAAACCCATT
GTGTTTGTGG GTTCTCTGGA GTACCTGAAG AGGGAATGGG AGACCCTTCA CAACTTTCCC
AAAGTCTCCA TCTTACCTGG CACACCATTA AGCCGGGCCG ATCTGAGGGC CGTCAATATC
AACCTCTGTG ACATGTGTGT CATCCTGTCA GCCAATCAGA GCAATATTGA CGACGCTTCA
CTGCAGGACA AGGAATGCAT CCTGGCGTCA CTCAACATCA AGTCTATGCA GTTTGATGAC
AGCATCGGGG TGTTGCAGGC TACCTCCCAA GGTTTCACCC TGCCAGGCAT GGACAGGTCC
TCTCCTGAAA ACAGTCCAGT TCATGGGGGG TTGGTACGAC AGGCTTCCAT CACAACAGGA
GCCAATGTCC CCATCATCAC TGAACTAGCA CCGTTAGTAA AACCAGCAGG CAAAGTCCTA
CCTGTGATTT CATTCAGTCA GGATACAAGC AGTGGGATCA ACATACACAT AATAACAGAA
CTGGTGAACG ACTCCAATGT TCAGTTCCTG GACCAGGATG ATGACGATGA CCCTGACACA
GAGTTGTACC TCACTCAACC CTTCGCCTGT GGGACGGCTT TCGCAGTCAG TGTGCTGGAT
TCCCTGATGA GTGCTACATA CTTCAATGAT AATATCCTCA CCCTGATCCG GACGCTGGTA
ACAGGGGGGG CCACTCCGGA GCTGGAGGGT CTGTTGGCGG AGGAGAATGC ATTACGAGGA
GGCTACAGCA CGCCGCAGAC CCTCGCTAAC CGGGACAGGT GTCGTGTTGC ACAGCTAGCC
TTGTACGATG GGCCATTTGC TGACTTGGGG GATGGTGGTT GCTATGGTGA CTTGTTTTGT
AAAGCGTTAA AAACATACAA CATGCTTTGC TTTGGAATTT ACCGATTGAG GGACGCCCAT
CTAAACACAC AAAGTCATAC AAGTCAATGC ACTAAACGAT ATGTAATAAC CAACCCACCG
TATGGTTTTG AGCTGGTGCC ATCAGACCTG ATCTTCTGCC TGATGCAGTT TGACCACAAC
GCGGGTCAGT CCCAGGCCAG CCTCACCCAT AGCTCCCACT CCTCCCATTC GTCCAGCAAA
AAGAGCTCCT CCGTCCATTC TATCCCCGCC ACCAACCGCA CCAACCGCGC CAAGAGCAGG
GACTCACGGG ATAAACAAAA AAAAGACATG CTTTACAGAT GAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_014035815.1 CDS 459..3560 Translation
Target ORF information:
RefSeq Version XM_014180340.1 Organism Salmo salar(Atlantic salmon) Definition Salmo salar calcium-activated potassium channel subunit alpha-1 (LOC106589905), transcript variant X11, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_014180340.1
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
3061ATGAGTCCAT TAAAGATCTT AAAGATGGAT GAAGGCTTAA AAGGCTTACG TTTTTTAAGG
GCCTTAAGAT TGATACAGTT CTCAGAAATC TTACAGTTTT TGAATATATT AAAAACAAGC
AATTCCATAA AACTGGTGAA CTTGTGTTCA ATCTTCATAA GCACATGGCT AACAGCTGCA
GGCTTCATAC ATTTGGTGGA AAACTCAGGG GATCCTTGGG AAAACTTCCA AAATTCCCAG
TCACTTTCCT ACTGGGAATG TGTCTACTTA CTGATGGTTA CTATGTCCAC TGTGGGCTAT
GGAGACGTGT ATGCCAAAAC TACCCTGGGA CGACTTTTCA TGGTCTTCTT CATCCTTGGT
GGTTTGGCCA TGTTTGCGAG CTACGTCCCT GAAATCATAG AGTTAATAGG AAACCGCAAG
AAATATGGTG GTTCCTATAG TGCTGTTAAT GGGAGAAAGC ACATCGTGGT CTGTGGTCAT
ATTACCCTTG AAAGTGTGTC CAACTTCCTT AAAGACTTCC TACACAAGGA CAGGGATGAT
GTCAATGTAG AAATTGTTTT TCTCCATAAT ATTTCCCCTA ATCTTGAGCT GGAAGCCTTG
TTTAAACGGC ACTTCACCCA GGTGGAGTTC TACCAGGGAT CTGTTCTCAA CCCACACGAC
CTGGCCAGAG TCAAGATAGA GTCAGCAGAT GCCTGTTTGA TCCTAGCTAA TAAATACTGT
GCAGACCCTG ATGCTGAGGA TGCTTCCAAC ATCATGAGGG TGATATCCAT CAAGAACTAC
CATCCGAAGA TCAGAATCAT TACCCAGATG TTGCAGTACC ACAACAAGGC CCACCTTTTG
AACATTCCCA GTTGGAACTG GAAGGAGGGG GACGATGCCA TTTGCCTTGC TGAGCTGAAG
CTTGGCTTCA TAGCACAGAG TTGTCTGGCT CAGGGCCTCT CCACCATGCT GGCCAACCTC
TTCTCCATGA GGTCCTTTAT CAAGATTGAA GAGGACACGT GGCAGAAGTA TTACCTGGAA
GGAGTAGCCA ATGAAATGTA CACTGAGTAC TTGTCTAGTG CCTTTGTGGG CTTATCCTTC
CCCACCATTT GTGAACTGTG CTATGTGAAG CTAAAGCTGC TACTGATCGC TATCGAGTAC
AAGTCTGATA TACGGGAAAG CAGCACTCTC ATCAACCCTG GGAACCATGT GAAGATGCAG
GAAGGAACCT TGGGGTTCTT TATCGCCAGC GATGCCAAAG AAGTTAAGAG GGCACTTTTC
TACTGCAAAG CTTGCCACGA TGACATCACA GATCCCAAAA GGATAAAGAA ATGTGGATGC
AAACGATTGA TCTATTCCAA GATGTCCGTC TACAAGAGAA TGACGCTGGC ATGTTGTTTT
GATTGCGGCC GTTCAGAGCG TGACTGCTCT CGCATGTCAG CCAATGTGCA TCACCATAGT
AAAGCGAAGG ACACCCTTCA GCAGCGTGGC TTCCCTCTCT CTCCTGTCTC TCTTAATGAT
TGCTCGACCA CTTTACGTGC CTCAAAAAAT AACTATAACG GATATATCAA ATCAATGGAA
GAGGAGCAGC AGTCAGCCGT TTCTCCTAAA AAGAAACAAG TCAATGGAAA CACGAGGAAC
TCACCCAACG GTTCACCAAA AATGATGAGG CATGACCCTC TCCTCATGCC GGGGAAGGAA
CAGATTGAGA ACATGGACGT GAACGTGAAG AAATACGACT CCACAGGGAT GTTTCACTGG
TGCCAGTCCA AAGACATTGA GAAGGTCATC TTGACCCGGA GCGAAGCTGC CATGACTGTT
CTAAGCGGCC ACGTGGTCGT CTGTATATTT GGAGACGCAA AGTCGGCTTT GGTGGGCCTT
AGGAACCTTG TGATGCCTCT GAGAGCTAGC AATTTCCACT ACCACGAGCT GAAACCCATT
GTGTTTGTGG GTTCTCTGGA GTACCTGAAG AGGGAATGGG AGACCCTTCA CAACTTTCCC
AAAGTCTCCA TCTTACCTGG CACACCATTA AGCCGGGCCG ATCTGAGGGC CGTCAATATC
AACCTCTGTG ACATGTGTGT CATCCTGTCA GCCAATCAGA GCAATATTGA CGACGCTTCA
CTGCAGGACA AGGAATGCAT CCTGGCGTCA CTCAACATCA AGTCTATGCA GTTTGATGAC
AGCATCGGGG TGTTGCAGGC TACCTCCCAA GGTTTCACCC TGCCAGGCAT GGACAGGTCC
TCTCCTGAAA ACAGTCCAGT TCATGGGGGG TTGGTACGAC AGGCTTCCAT CACAACAGGA
GCCAATGTCC CCATCATCAC TGAACTAGCA CCGTTAGTAA AACCAGCAGG CAAAGTCCTA
CCTGTGATTT CATTCAGTCA GGATACAAGC AGTGGGATCA ACATACACAT AATAACAGAA
CTGGTGAACG ACTCCAATGT TCAGTTCCTG GACCAGGATG ATGACGATGA CCCTGACACA
GAGTTGTACC TCACTCAACC CTTCGCCTGT GGGACGGCTT TCGCAGTCAG TGTGCTGGAT
TCCCTGATGA GTGCTACATA CTTCAATGAT AATATCCTCA CCCTGATCCG GACGCTGGTA
ACAGGGGGGG CCACTCCGGA GCTGGAGGGT CTGTTGGCGG AGGAGAATGC ATTACGAGGA
GGCTACAGCA CGCCGCAGAC CCTCGCTAAC CGGGACAGGT GTCGTGTTGC ACAGCTAGCC
TTGTACGATG GGCCATTTGC TGACTTGGGG GATGGTGGTT GCTATGGTGA CTTGTTTTGT
AAAGCGTTAA AAACATACAA CATGCTTTGC TTTGGAATTT ACCGATTGAG GGACGCCCAT
CTAAACACAC AAAGTCATAC AAGTCAATGC ACTAAACGAT ATGTAATAAC CAACCCACCG
TATGGTTTTG AGCTGGTGCC ATCAGACCTG ATCTTCTGCC TGATGCAGTT TGACCACAAC
GCGGGTCAGT CCCAGGCCAG CCTCACCCAT AGCTCCCACT CCTCCCATTC GTCCAGCAAA
AAGAGCTCCT CCGTCCATTC TATCCCCGCC ACCAACCGCA CCAACCGCGC CAAGAGCAGG
GACTCACGGG ATAAACAAAA AAAAGACATG CTTTACAGAT GAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAt73593 Clone ID Related Accession (Same CDS sequence) XM_014180341.1 Accession Version XM_014180341.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3018bp)
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 1442678400000 Organism Salmo salar(Atlantic salmon) Product calcium-activated potassium channel subunit alpha-1 isoform X11 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012341616.1) 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 Version :: Salmo salar Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001ATGAATGTGG TGCTTGTCTT TGCCCTCAGC ATCGGAGCCC TTGTAATATA CTTCATAGAT
TCCTCTGACC CCATCGAGTC CTGTCAGAAC TTCTACAAAG ACTTCACGCT ACAGATCGAC
ATGGCTTTCA ACGTCTTCTT CCTCTTGTAC TTTGGTCTAC GGTTCATAGC GGCCAACGAC
AAGCTGTGGT TCTGGCTGGA GGTGAACTCA GTGGTGGACT TCTTCACTGT TCCCCCGGTG
TTCGTGTCCG TCTATCTCAA CAGGAGCTGG CTTGGCTTAC GTTTTTTAAG GGCCTTAAGA
TTGATACAGT TCTCAGAAAT CTTACAGTTT TTGAATATAT TAAAAACAAG CAATTCCATA
AAACTGGTGA ACTTGTGTTC AATCTTCATA AGCACATGGC TAACAGCTGC AGGCTTCATA
CATTTGGTGG AAAACTCAGG GGATCCTTGG GAAAACTTCC AAAATTCCCA GTCACTTTCC
TACTGGGAAT GTGTCTACTT ACTGATGGTT ACTATGTCCA CTGTGGGCTA TGGAGACGTG
TATGCCAAAA CTACCCTGGG ACGACTTTTC ATGGTCTTCT TCATCCTTGG TGGTTTGGCC
ATGTTTGCGA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATATGGT
GGTTCCTATA GTGCTGTTAA TGGGAGAAAG CACATCGTGG TCTGTGGTCA TATTACCCTT
GAAAGTGTGT CCAACTTCCT TAAAGACTTC CTACACAAGG ACAGGGATGA TGTCAATGTA
GAAATTGTTT TTCTCCATAA TATTTCCCCT AATCTTGAGC TGGAAGCCTT GTTTAAACGG
CACTTCACCC AGGTGGAGTT CTACCAGGGA TCTGTTCTCA ACCCACACGA CCTGGCCAGA
GTCAAGATAG AGTCAGCAGA TGCCTGTTTG ATCCTAGCTA ATAAATACTG TGCAGACCCT
GATGCTGAGG ATGCTTCCAA CATCATGAGG GTGATATCCA TCAAGAACTA CCATCCGAAG
ATCAGAATCA TTACCCAGAT GTTGCAGTAC CACAACAAGG CCCACCTTTT GAACATTCCC
AGTTGGAACT GGAAGGAGGG GGACGATGCC ATTTGCCTTG CTGAGCTGAA GCTTGGCTTC
ATAGCACAGA GTTGTCTGGC TCAGGGCCTC TCCACCATGC TGGCCAACCT CTTCTCCATG
AGGTCCTTTA TCAAGATTGA AGAGGACACG TGGCAGAAGT ATTACCTGGA AGGAGTAGCC
AATGAAATGT ACACTGAGTA CTTGTCTAGT GCCTTTGTGG GCTTATCCTT CCCCACCATT
TGTGAACTGT GCTATGTGAA GCTAAAGCTG CTACTGATCG CTATCGAGTA CAAGTCTGAT
ATACGGGAAA GCAGCACTCT CATCAACCCT GGGAACCATG TGAAGATGCA GGAAGGAACC
TTGGGGTTCT TTATCGCCAG CGATGCCAAA GAAGTTAAGA GGGCACTTTT CTACTGCAAA
GCTTGCCACG ATGACATCAC AGATCCCAAA AGGATAAAGA AATGTGGATG CAAACGATTG
ATCTATTTGG AAGAGGAGCA GCAGTCAGCC GTTTCTCCTA AAAAGAAACA AGTCAATGGA
AACACGAGGA ACTCACCCAA CGGTTCACCA AAAATGATGA GGCATGACCC TCTCCTCATG
CCGGGGAAGG AACAGATTGA GAACATGGAC GTGAACGTGA AGAAATACGA CTCCACAGGG
ATGTTTCACT GGTGCCAGTC CAAAGACATT GAGAAGGTCA TCTTGACCCG GAGCGAAGCT
GCCATGACTG TTCTAAGCGG CCACGTGGTC GTCTGTATAT TTGGAGACGC AAAGTCGGCT
TTGGTGGGCC TTAGGAACCT TGTGATGCCT CTGAGAGCTA GCAATTTCCA CTACCACGAG
CTGAAACCCA TTGTGTTTGT GGGTTCTCTG GAGTACCTGA AGAGGGAATG GGAGACCCTT
CACAACTTTC CCAAAGTCTC CATCTTACCT GGCACACCAT TAAGCCGGGC CGATCTGAGG
GCCGTCAATA TCAACCTCTG TGACATGTGT GTCATCCTGT CAGCCAATCA GAGCAATATT
GACGACGCTT CACTGCAGGA CAAGGAATGC ATCCTGGCGT CACTCAACAT CAAGTCTATG
CAGTTTGATG ACAGCATCGG GGTGTTGCAG GCTACCTCCC AAGGTTTCAC CCTGCCAGGC
ATGGACAGGT CCTCTCCTGA AAACAGTCCA GTTCATGGGG GGTTGGTACG ACAGGCTTCC
ATCACAACAG GAGCCAATGT CCCCATCATC ACTGAACTAG TGAACGACTC CAATGTTCAG
TTCCTGGACC AGGATGATGA CGATGACCCT GACACAGAGT TGTACCTCAC TCAACCCTTC
GCCTGTGGGA CGGCTTTCGC AGTCAGTGTG CTGGATTCCC TGATGAGTGC TACATACTTC
AATGATAATA TCCTCACCCT GATCCGGACG CTGGTAACAG GGGGGGCCAC TCCGGAGCTG
GAGGGTCTGT TGGCGGAGGA GAATGCATTA CGAGGAGGCT ACAGCACGCC GCAGACCCTC
GCTAACCGGG ACAGGTGTCG TGTTGCACAG CTAGCCTTGT ACGATGGGCC ATTTGCTGAC
TTGGGGGATG GTGGTTGCTA TGGTGACTTG TTTTGTAAAG CGTTAAAAAC ATACAACATG
CTTTGCTTTG GAATTTACCG ATTGAGGGAC GCCCATCTAA ACACACAAAG TCATACAAGT
CAATGCACTA AACGATATGT AATAACCAAC CCACCGTATG GTTTTGAGCT GGTGCCATCA
GACCTGATCT TCTGCCTGAT GCAGTTTGAC CACAACGCGG GTCAGTCCCA GGCCAGCCTC
ACCCATAGCT CCCACTCCTC CCATTCGTCC AGCAAAAAGA GCTCCTCCGT CCATTCTATC
CCCGCCACCA ACCGCACCAA CCGCGCCAAG AGCAGGGACT CACGGGATAA ACAAAAAAAA
GACATGCTTT ACAGATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_014035816.1 CDS 59..3076 Translation
Target ORF information:
RefSeq Version XM_014180341.1 Organism Salmo salar(Atlantic salmon) Definition Salmo salar calcium-activated potassium channel subunit alpha-1 (LOC106589905), transcript variant X12, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_014180341.1
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
3001ATGAATGTGG TGCTTGTCTT TGCCCTCAGC ATCGGAGCCC TTGTAATATA CTTCATAGAT
TCCTCTGACC CCATCGAGTC CTGTCAGAAC TTCTACAAAG ACTTCACGCT ACAGATCGAC
ATGGCTTTCA ACGTCTTCTT CCTCTTGTAC TTTGGTCTAC GGTTCATAGC GGCCAACGAC
AAGCTGTGGT TCTGGCTGGA GGTGAACTCA GTGGTGGACT TCTTCACTGT TCCCCCGGTG
TTCGTGTCCG TCTATCTCAA CAGGAGCTGG CTTGGCTTAC GTTTTTTAAG GGCCTTAAGA
TTGATACAGT TCTCAGAAAT CTTACAGTTT TTGAATATAT TAAAAACAAG CAATTCCATA
AAACTGGTGA ACTTGTGTTC AATCTTCATA AGCACATGGC TAACAGCTGC AGGCTTCATA
CATTTGGTGG AAAACTCAGG GGATCCTTGG GAAAACTTCC AAAATTCCCA GTCACTTTCC
TACTGGGAAT GTGTCTACTT ACTGATGGTT ACTATGTCCA CTGTGGGCTA TGGAGACGTG
TATGCCAAAA CTACCCTGGG ACGACTTTTC ATGGTCTTCT TCATCCTTGG TGGTTTGGCC
ATGTTTGCGA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATATGGT
GGTTCCTATA GTGCTGTTAA TGGGAGAAAG CACATCGTGG TCTGTGGTCA TATTACCCTT
GAAAGTGTGT CCAACTTCCT TAAAGACTTC CTACACAAGG ACAGGGATGA TGTCAATGTA
GAAATTGTTT TTCTCCATAA TATTTCCCCT AATCTTGAGC TGGAAGCCTT GTTTAAACGG
CACTTCACCC AGGTGGAGTT CTACCAGGGA TCTGTTCTCA ACCCACACGA CCTGGCCAGA
GTCAAGATAG AGTCAGCAGA TGCCTGTTTG ATCCTAGCTA ATAAATACTG TGCAGACCCT
GATGCTGAGG ATGCTTCCAA CATCATGAGG GTGATATCCA TCAAGAACTA CCATCCGAAG
ATCAGAATCA TTACCCAGAT GTTGCAGTAC CACAACAAGG CCCACCTTTT GAACATTCCC
AGTTGGAACT GGAAGGAGGG GGACGATGCC ATTTGCCTTG CTGAGCTGAA GCTTGGCTTC
ATAGCACAGA GTTGTCTGGC TCAGGGCCTC TCCACCATGC TGGCCAACCT CTTCTCCATG
AGGTCCTTTA TCAAGATTGA AGAGGACACG TGGCAGAAGT ATTACCTGGA AGGAGTAGCC
AATGAAATGT ACACTGAGTA CTTGTCTAGT GCCTTTGTGG GCTTATCCTT CCCCACCATT
TGTGAACTGT GCTATGTGAA GCTAAAGCTG CTACTGATCG CTATCGAGTA CAAGTCTGAT
ATACGGGAAA GCAGCACTCT CATCAACCCT GGGAACCATG TGAAGATGCA GGAAGGAACC
TTGGGGTTCT TTATCGCCAG CGATGCCAAA GAAGTTAAGA GGGCACTTTT CTACTGCAAA
GCTTGCCACG ATGACATCAC AGATCCCAAA AGGATAAAGA AATGTGGATG CAAACGATTG
ATCTATTTGG AAGAGGAGCA GCAGTCAGCC GTTTCTCCTA AAAAGAAACA AGTCAATGGA
AACACGAGGA ACTCACCCAA CGGTTCACCA AAAATGATGA GGCATGACCC TCTCCTCATG
CCGGGGAAGG AACAGATTGA GAACATGGAC GTGAACGTGA AGAAATACGA CTCCACAGGG
ATGTTTCACT GGTGCCAGTC CAAAGACATT GAGAAGGTCA TCTTGACCCG GAGCGAAGCT
GCCATGACTG TTCTAAGCGG CCACGTGGTC GTCTGTATAT TTGGAGACGC AAAGTCGGCT
TTGGTGGGCC TTAGGAACCT TGTGATGCCT CTGAGAGCTA GCAATTTCCA CTACCACGAG
CTGAAACCCA TTGTGTTTGT GGGTTCTCTG GAGTACCTGA AGAGGGAATG GGAGACCCTT
CACAACTTTC CCAAAGTCTC CATCTTACCT GGCACACCAT TAAGCCGGGC CGATCTGAGG
GCCGTCAATA TCAACCTCTG TGACATGTGT GTCATCCTGT CAGCCAATCA GAGCAATATT
GACGACGCTT CACTGCAGGA CAAGGAATGC ATCCTGGCGT CACTCAACAT CAAGTCTATG
CAGTTTGATG ACAGCATCGG GGTGTTGCAG GCTACCTCCC AAGGTTTCAC CCTGCCAGGC
ATGGACAGGT CCTCTCCTGA AAACAGTCCA GTTCATGGGG GGTTGGTACG ACAGGCTTCC
ATCACAACAG GAGCCAATGT CCCCATCATC ACTGAACTAG TGAACGACTC CAATGTTCAG
TTCCTGGACC AGGATGATGA CGATGACCCT GACACAGAGT TGTACCTCAC TCAACCCTTC
GCCTGTGGGA CGGCTTTCGC AGTCAGTGTG CTGGATTCCC TGATGAGTGC TACATACTTC
AATGATAATA TCCTCACCCT GATCCGGACG CTGGTAACAG GGGGGGCCAC TCCGGAGCTG
GAGGGTCTGT TGGCGGAGGA GAATGCATTA CGAGGAGGCT ACAGCACGCC GCAGACCCTC
GCTAACCGGG ACAGGTGTCG TGTTGCACAG CTAGCCTTGT ACGATGGGCC ATTTGCTGAC
TTGGGGGATG GTGGTTGCTA TGGTGACTTG TTTTGTAAAG CGTTAAAAAC ATACAACATG
CTTTGCTTTG GAATTTACCG ATTGAGGGAC GCCCATCTAA ACACACAAAG TCATACAAGT
CAATGCACTA AACGATATGT AATAACCAAC CCACCGTATG GTTTTGAGCT GGTGCCATCA
GACCTGATCT TCTGCCTGAT GCAGTTTGAC CACAACGCGG GTCAGTCCCA GGCCAGCCTC
ACCCATAGCT CCCACTCCTC CCATTCGTCC AGCAAAAAGA GCTCCTCCGT CCATTCTATC
CCCGCCACCA ACCGCACCAA CCGCGCCAAG AGCAGGGACT CACGGGATAA ACAAAAAAAA
GACATGCTTT ACAGATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAt73594 Clone ID Related Accession (Same CDS sequence) XM_014180342.1 Accession Version XM_014180342.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3018bp)
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 1442678400000 Organism Salmo salar(Atlantic salmon) Product calcium-activated potassium channel subunit alpha-1 isoform X12 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012341616.1) 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 Version :: Salmo salar Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001ATGAATGTGG TGCTTGTCTT TGCCCTCAGC ATCGGAGCCC TTGTAATATA CTTCATAGAT
TCCTCTGACC CCATCGAGTC CTGTCAGAAC TTCTACAAAG ACTTCACGCT ACAGATCGAC
ATGGCTTTCA ACGTCTTCTT CCTCTTGTAC TTTGGTCTAC GGTTCATAGC GGCCAACGAC
AAGCTGTGGT TCTGGCTGGA GGTGAACTCA GTGGTGGACT TCTTCACTGT TCCCCCGGTG
TTCGTGTCCG TCTATCTCAA CAGGAGCTGG CTTGGCTTAC GTTTTTTAAG GGCCTTAAGA
TTGATACAGT TCTCAGAAAT CTTACAGTTT TTGAATATAT TAAAAACAAG CAATTCCATA
AAACTGGTGA ACTTGTGTTC AATCTTCATA AGCACATGGC TAACAGCTGC AGGCTTCATA
CATTTGGTGG AAAACTCAGG GGATCCTTGG GAAAACTTCC AAAATTCCCA GTCACTTTCC
TACTGGGAAT GTGTCTACTT ACTGATGGTT ACTATGTCCA CTGTGGGCTA TGGAGACGTG
TATGCCAAAA CTACCCTGGG ACGACTTTTC ATGGTCTTCT TCATCCTTGG TGGTTTGGCC
ATGTTTGCTC GCTACGTGCC AGAAATTGCT GCTCTCATCC TTAATCGGAA GAAATACGGA
GGGAGTTATA ACTCGACCCG AGGCAGAAAG CACATCGTGG TCTGTGGTCA TATTACCCTT
GAAAGTGTGT CCAACTTCCT TAAAGACTTC CTACACAAGG ACAGGGATGA TGTCAATGTA
GAAATTGTTT TTCTCCATAA TATTTCCCCT AATCTTGAGC TGGAAGCCTT GTTTAAACGG
CACTTCACCC AGGTGGAGTT CTACCAGGGA TCTGTTCTCA ACCCACACGA CCTGGCCAGA
GTCAAGATAG AGTCAGCAGA TGCCTGTTTG ATCCTAGCTA ATAAATACTG TGCAGACCCT
GATGCTGAGG ATGCTTCCAA CATCATGAGG GTGATATCCA TCAAGAACTA CCATCCGAAG
ATCAGAATCA TTACCCAGAT GTTGCAGTAC CACAACAAGG CCCACCTTTT GAACATTCCC
AGTTGGAACT GGAAGGAGGG GGACGATGCC ATTTGCCTTG CTGAGCTGAA GCTTGGCTTC
ATAGCACAGA GTTGTCTGGC TCAGGGCCTC TCCACCATGC TGGCCAACCT CTTCTCCATG
AGGTCCTTTA TCAAGATTGA AGAGGACACG TGGCAGAAGT ATTACCTGGA AGGAGTAGCC
AATGAAATGT ACACTGAGTA CTTGTCTAGT GCCTTTGTGG GCTTATCCTT CCCCACCATT
TGTGAACTGT GCTATGTGAA GCTAAAGCTG CTACTGATCG CTATCGAGTA CAAGTCTGAT
ATACGGGAAA GCAGCACTCT CATCAACCCT GGGAACCATG TGAAGATGCA GGAAGGAACC
TTGGGGTTCT TTATCGCCAG CGATGCCAAA GAAGTTAAGA GGGCACTTTT CTACTGCAAA
GCTTGCCACG ATGACATCAC AGATCCCAAA AGGATAAAGA AATGTGGATG CAAACGATTG
ATCTATTTGG AAGAGGAGCA GCAGTCAGCC GTTTCTCCTA AAAAGAAACA AGTCAATGGA
AACACGAGGA ACTCACCCAA CGGTTCACCA AAAATGATGA GGCATGACCC TCTCCTCATG
CCGGGGAAGG AACAGATTGA GAACATGGAC GTGAACGTGA AGAAATACGA CTCCACAGGG
ATGTTTCACT GGTGCCAGTC CAAAGACATT GAGAAGGTCA TCTTGACCCG GAGCGAAGCT
GCCATGACTG TTCTAAGCGG CCACGTGGTC GTCTGTATAT TTGGAGACGC AAAGTCGGCT
TTGGTGGGCC TTAGGAACCT TGTGATGCCT CTGAGAGCTA GCAATTTCCA CTACCACGAG
CTGAAACCCA TTGTGTTTGT GGGTTCTCTG GAGTACCTGA AGAGGGAATG GGAGACCCTT
CACAACTTTC CCAAAGTCTC CATCTTACCT GGCACACCAT TAAGCCGGGC CGATCTGAGG
GCCGTCAATA TCAACCTCTG TGACATGTGT GTCATCCTGT CAGCCAATCA GAGCAATATT
GACGACGCTT CACTGCAGGA CAAGGAATGC ATCCTGGCGT CACTCAACAT CAAGTCTATG
CAGTTTGATG ACAGCATCGG GGTGTTGCAG GCTACCTCCC AAGGTTTCAC CCTGCCAGGC
ATGGACAGGT CCTCTCCTGA AAACAGTCCA GTTCATGGGG GGTTGGTACG ACAGGCTTCC
ATCACAACAG GAGCCAATGT CCCCATCATC ACTGAACTAG TGAACGACTC CAATGTTCAG
TTCCTGGACC AGGATGATGA CGATGACCCT GACACAGAGT TGTACCTCAC TCAACCCTTC
GCCTGTGGGA CGGCTTTCGC AGTCAGTGTG CTGGATTCCC TGATGAGTGC TACATACTTC
AATGATAATA TCCTCACCCT GATCCGGACG CTGGTAACAG GGGGGGCCAC TCCGGAGCTG
GAGGGTCTGT TGGCGGAGGA GAATGCATTA CGAGGAGGCT ACAGCACGCC GCAGACCCTC
GCTAACCGGG ACAGGTGTCG TGTTGCACAG CTAGCCTTGT ACGATGGGCC ATTTGCTGAC
TTGGGGGATG GTGGTTGCTA TGGTGACTTG TTTTGTAAAG CGTTAAAAAC ATACAACATG
CTTTGCTTTG GAATTTACCG ATTGAGGGAC GCCCATCTAA ACACACAAAG TCATACAAGT
CAATGCACTA AACGATATGT AATAACCAAC CCACCGTATG GTTTTGAGCT GGTGCCATCA
GACCTGATCT TCTGCCTGAT GCAGTTTGAC CACAACGCGG GTCAGTCCCA GGCCAGCCTC
ACCCATAGCT CCCACTCCTC CCATTCGTCC AGCAAAAAGA GCTCCTCCGT CCATTCTATC
CCCGCCACCA ACCGCACCAA CCGCGCCAAG AGCAGGGACT CACGGGATAA ACAAAAAAAA
GACATGCTTT ACAGATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_014035817.1 CDS 59..3076 Translation
Target ORF information:
RefSeq Version XM_014180342.1 Organism Salmo salar(Atlantic salmon) Definition Salmo salar calcium-activated potassium channel subunit alpha-1 (LOC106589905), transcript variant X13, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_014180342.1
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
3001ATGAATGTGG TGCTTGTCTT TGCCCTCAGC ATCGGAGCCC TTGTAATATA CTTCATAGAT
TCCTCTGACC CCATCGAGTC CTGTCAGAAC TTCTACAAAG ACTTCACGCT ACAGATCGAC
ATGGCTTTCA ACGTCTTCTT CCTCTTGTAC TTTGGTCTAC GGTTCATAGC GGCCAACGAC
AAGCTGTGGT TCTGGCTGGA GGTGAACTCA GTGGTGGACT TCTTCACTGT TCCCCCGGTG
TTCGTGTCCG TCTATCTCAA CAGGAGCTGG CTTGGCTTAC GTTTTTTAAG GGCCTTAAGA
TTGATACAGT TCTCAGAAAT CTTACAGTTT TTGAATATAT TAAAAACAAG CAATTCCATA
AAACTGGTGA ACTTGTGTTC AATCTTCATA AGCACATGGC TAACAGCTGC AGGCTTCATA
CATTTGGTGG AAAACTCAGG GGATCCTTGG GAAAACTTCC AAAATTCCCA GTCACTTTCC
TACTGGGAAT GTGTCTACTT ACTGATGGTT ACTATGTCCA CTGTGGGCTA TGGAGACGTG
TATGCCAAAA CTACCCTGGG ACGACTTTTC ATGGTCTTCT TCATCCTTGG TGGTTTGGCC
ATGTTTGCTC GCTACGTGCC AGAAATTGCT GCTCTCATCC TTAATCGGAA GAAATACGGA
GGGAGTTATA ACTCGACCCG AGGCAGAAAG CACATCGTGG TCTGTGGTCA TATTACCCTT
GAAAGTGTGT CCAACTTCCT TAAAGACTTC CTACACAAGG ACAGGGATGA TGTCAATGTA
GAAATTGTTT TTCTCCATAA TATTTCCCCT AATCTTGAGC TGGAAGCCTT GTTTAAACGG
CACTTCACCC AGGTGGAGTT CTACCAGGGA TCTGTTCTCA ACCCACACGA CCTGGCCAGA
GTCAAGATAG AGTCAGCAGA TGCCTGTTTG ATCCTAGCTA ATAAATACTG TGCAGACCCT
GATGCTGAGG ATGCTTCCAA CATCATGAGG GTGATATCCA TCAAGAACTA CCATCCGAAG
ATCAGAATCA TTACCCAGAT GTTGCAGTAC CACAACAAGG CCCACCTTTT GAACATTCCC
AGTTGGAACT GGAAGGAGGG GGACGATGCC ATTTGCCTTG CTGAGCTGAA GCTTGGCTTC
ATAGCACAGA GTTGTCTGGC TCAGGGCCTC TCCACCATGC TGGCCAACCT CTTCTCCATG
AGGTCCTTTA TCAAGATTGA AGAGGACACG TGGCAGAAGT ATTACCTGGA AGGAGTAGCC
AATGAAATGT ACACTGAGTA CTTGTCTAGT GCCTTTGTGG GCTTATCCTT CCCCACCATT
TGTGAACTGT GCTATGTGAA GCTAAAGCTG CTACTGATCG CTATCGAGTA CAAGTCTGAT
ATACGGGAAA GCAGCACTCT CATCAACCCT GGGAACCATG TGAAGATGCA GGAAGGAACC
TTGGGGTTCT TTATCGCCAG CGATGCCAAA GAAGTTAAGA GGGCACTTTT CTACTGCAAA
GCTTGCCACG ATGACATCAC AGATCCCAAA AGGATAAAGA AATGTGGATG CAAACGATTG
ATCTATTTGG AAGAGGAGCA GCAGTCAGCC GTTTCTCCTA AAAAGAAACA AGTCAATGGA
AACACGAGGA ACTCACCCAA CGGTTCACCA AAAATGATGA GGCATGACCC TCTCCTCATG
CCGGGGAAGG AACAGATTGA GAACATGGAC GTGAACGTGA AGAAATACGA CTCCACAGGG
ATGTTTCACT GGTGCCAGTC CAAAGACATT GAGAAGGTCA TCTTGACCCG GAGCGAAGCT
GCCATGACTG TTCTAAGCGG CCACGTGGTC GTCTGTATAT TTGGAGACGC AAAGTCGGCT
TTGGTGGGCC TTAGGAACCT TGTGATGCCT CTGAGAGCTA GCAATTTCCA CTACCACGAG
CTGAAACCCA TTGTGTTTGT GGGTTCTCTG GAGTACCTGA AGAGGGAATG GGAGACCCTT
CACAACTTTC CCAAAGTCTC CATCTTACCT GGCACACCAT TAAGCCGGGC CGATCTGAGG
GCCGTCAATA TCAACCTCTG TGACATGTGT GTCATCCTGT CAGCCAATCA GAGCAATATT
GACGACGCTT CACTGCAGGA CAAGGAATGC ATCCTGGCGT CACTCAACAT CAAGTCTATG
CAGTTTGATG ACAGCATCGG GGTGTTGCAG GCTACCTCCC AAGGTTTCAC CCTGCCAGGC
ATGGACAGGT CCTCTCCTGA AAACAGTCCA GTTCATGGGG GGTTGGTACG ACAGGCTTCC
ATCACAACAG GAGCCAATGT CCCCATCATC ACTGAACTAG TGAACGACTC CAATGTTCAG
TTCCTGGACC AGGATGATGA CGATGACCCT GACACAGAGT TGTACCTCAC TCAACCCTTC
GCCTGTGGGA CGGCTTTCGC AGTCAGTGTG CTGGATTCCC TGATGAGTGC TACATACTTC
AATGATAATA TCCTCACCCT GATCCGGACG CTGGTAACAG GGGGGGCCAC TCCGGAGCTG
GAGGGTCTGT TGGCGGAGGA GAATGCATTA CGAGGAGGCT ACAGCACGCC GCAGACCCTC
GCTAACCGGG ACAGGTGTCG TGTTGCACAG CTAGCCTTGT ACGATGGGCC ATTTGCTGAC
TTGGGGGATG GTGGTTGCTA TGGTGACTTG TTTTGTAAAG CGTTAAAAAC ATACAACATG
CTTTGCTTTG GAATTTACCG ATTGAGGGAC GCCCATCTAA ACACACAAAG TCATACAAGT
CAATGCACTA AACGATATGT AATAACCAAC CCACCGTATG GTTTTGAGCT GGTGCCATCA
GACCTGATCT TCTGCCTGAT GCAGTTTGAC CACAACGCGG GTCAGTCCCA GGCCAGCCTC
ACCCATAGCT CCCACTCCTC CCATTCGTCC AGCAAAAAGA GCTCCTCCGT CCATTCTATC
CCCGCCACCA ACCGCACCAA CCGCGCCAAG AGCAGGGACT CACGGGATAA ACAAAAAAAA
GACATGCTTT ACAGATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAt73595 Clone ID Related Accession (Same CDS sequence) XM_014180343.1 Accession Version XM_014180343.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3009bp)
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 1442678400000 Organism Salmo salar(Atlantic salmon) Product calcium-activated potassium channel subunit alpha-1 isoform X13 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012341616.1) 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 Version :: Salmo salar Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001ATGAATGTGG TGCTTGTCTT TGCCCTCAGC ATCGGAGCCC TTGTAATATA CTTCATAGAT
TCCTCTGACC CCATCGAGTC CTGTCAGAAC TTCTACAAAG ACTTCACGCT ACAGATCGAC
ATGGCTTTCA ACGTCTTCTT CCTCTTGTAC TTTGGTCTAC GGTTCATAGC GGCCAACGAC
AAGCTGTGGT TCTGGCTGGA GGTGAACTCA GTGGTGGACT TCTTCACTGT TCCCCCGGTG
TTCGTGTCCG TCTATCTCAA CAGGAGCTGG CTTGGCTTAC GTTTTTTAAG GGCCTTAAGA
TTGATACAGT TCTCAGAAAT CTTACAGTTT TTGAATATAT TAAAAACAAG CAATTCCATA
AAACTGGTGA ACTTGTGTTC AATCTTCATA AGCACATGGC TAACAGCTGC AGGCTTCATA
CATTTGGTGG AAAACTCAGG GGATCCTTGG GAAAACTTCC AAAATTCCCA GTCACTTTCC
TACTGGGAAT GTGTCTACTT ACTGATGGTT ACTATGTCCA CTGTGGGCTA TGGAGACGTG
TATGCCAAAA CTACCCTGGG ACGACTTTTC ATGGTCTTCT TCATCCTTGG TGGTTTGGCC
ATGTTTGCGA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATATGGT
GGTTCCTATA GTGCTGTTAA TGGGAGAAAG CACATCGTGG TCTGTGGTCA TATTACCCTT
GAAAGTGTGT CCAACTTCCT TAAAGACTTC CTACACAAGG ACAGGGATGA TGTCAATGTA
GAAATTGTTT TTCTCCATAA TATTTCCCCT AATCTTGAGC TGGAAGCCTT GTTTAAACGG
CACTTCACCC AGGTGGAGTT CTACCAGGGA TCTGTTCTCA ACCCACACGA CCTGGCCAGA
GTCAAGATAG AGTCAGCAGA TGCCTGTTTG ATCCTAGCTA ATAAATACTG TGCAGACCCT
GATGCTGAGG ATGCTTCCAA CATCATGAGG GTGATATCCA TCAAGAACTA CCATCCGAAG
ATCAGAATCA TTACCCAGAT GTTGCAGTAC CACAACAAGG CCCACCTTTT GAACATTCCC
AGTTGGAACT GGAAGGAGGG GGACGATGCC ATTTGCCTTG CTGAGCTGAA GCTTGGCTTC
ATAGCACAGA GTTGTCTGGC TCAGGGCCTC TCCACCATGC TGGCCAACCT CTTCTCCATG
AGGTCCTTTA TCAAGATTGA AGAGGACACG TGGCAGAAGT ATTACCTGGA AGGAGTAGCC
AATGAAATGT ACACTGAGTA CTTGTCTAGT GCCTTTGTGG GCTTATCCTT CCCCACCATT
TGTGAACTGT GCTATGTGAA GCTAAAGCTG CTACTGATCG CTATCGAGTA CAAGTCTGAT
ATACGGGAAA GCAGCACTCT CATCAACCCT GGGAACCATG TGAAGATGCA GGAAGGAACC
TTGGGGTTCT TTATCGCCAG CGATGCCAAA GAAGTTAAGA GGGCACTTTT CTACTGCAAA
GCTTGCCACG ATGACATCAC AGATCCCAAA AGGATAAAGA AATGTGGATG CAAACGATTG
GAAGAGGAGC AGCAGTCAGC CGTTTCTCCT AAAAAGAAAC AAGTCAATGG AAACACGAGG
AACTCACCCA ACGGTTCACC AAAAATGATG AGGCATGACC CTCTCCTCAT GCCGGGGAAG
GAACAGATTG AGAACATGGA CGTGAACGTG AAGAAATACG ACTCCACAGG GATGTTTCAC
TGGTGCCAGT CCAAAGACAT TGAGAAGGTC ATCTTGACCC GGAGCGAAGC TGCCATGACT
GTTCTAAGCG GCCACGTGGT CGTCTGTATA TTTGGAGACG CAAAGTCGGC TTTGGTGGGC
CTTAGGAACC TTGTGATGCC TCTGAGAGCT AGCAATTTCC ACTACCACGA GCTGAAACCC
ATTGTGTTTG TGGGTTCTCT GGAGTACCTG AAGAGGGAAT GGGAGACCCT TCACAACTTT
CCCAAAGTCT CCATCTTACC TGGCACACCA TTAAGCCGGG CCGATCTGAG GGCCGTCAAT
ATCAACCTCT GTGACATGTG TGTCATCCTG TCAGCCAATC AGAGCAATAT TGACGACGCT
TCACTGCAGG ACAAGGAATG CATCCTGGCG TCACTCAACA TCAAGTCTAT GCAGTTTGAT
GACAGCATCG GGGTGTTGCA GGCTACCTCC CAAGGTTTCA CCCTGCCAGG CATGGACAGG
TCCTCTCCTG AAAACAGTCC AGTTCATGGG GGGTTGGTAC GACAGGCTTC CATCACAACA
GGAGCCAATG TCCCCATCAT CACTGAACTA GTGAACGACT CCAATGTTCA GTTCCTGGAC
CAGGATGATG ACGATGACCC TGACACAGAG TTGTACCTCA CTCAACCCTT CGCCTGTGGG
ACGGCTTTCG CAGTCAGTGT GCTGGATTCC CTGATGAGTG CTACATACTT CAATGATAAT
ATCCTCACCC TGATCCGGAC GCTGGTAACA GGGGGGGCCA CTCCGGAGCT GGAGGGTCTG
TTGGCGGAGG AGAATGCATT ACGAGGAGGC TACAGCACGC CGCAGACCCT CGCTAACCGG
GACAGGTGTC GTGTTGCACA GCTAGCCTTG TACGATGGGC CATTTGCTGA CTTGGGGGAT
GGTGGTTGCT ATGGTGACTT GTTTTGTAAA GCGTTAAAAA CATACAACAT GCTTTGCTTT
GGAATTTACC GATTGAGGGA CGCCCATCTA AACACACAAA GTCATACAAG TCAATGCACT
AAACGATATG TAATAACCAA CCCACCGTAT GGTTTTGAGC TGGTGCCATC AGACCTGATC
TTCTGCCTGA TGCAGTTTGA CCACAACGCG GGTCAGTCCC AGGCCAGCCT CACCCATAGC
TCCCACTCCT CCCATTCGTC CAGCAAAAAG AGCTCCTCCG TCCATTCTAT CCCCGCCACC
AACCGCACCA ACCGCGCCAA GAGCAGGGAC TCACGGGATA AACAAAAAAA AGACATGCTT
TACAGATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_014035818.1 CDS 59..3067 Translation
Target ORF information:
RefSeq Version XM_014180343.1 Organism Salmo salar(Atlantic salmon) Definition Salmo salar calcium-activated potassium channel subunit alpha-1 (LOC106589905), transcript variant X14, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_014180343.1
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
3001ATGAATGTGG TGCTTGTCTT TGCCCTCAGC ATCGGAGCCC TTGTAATATA CTTCATAGAT
TCCTCTGACC CCATCGAGTC CTGTCAGAAC TTCTACAAAG ACTTCACGCT ACAGATCGAC
ATGGCTTTCA ACGTCTTCTT CCTCTTGTAC TTTGGTCTAC GGTTCATAGC GGCCAACGAC
AAGCTGTGGT TCTGGCTGGA GGTGAACTCA GTGGTGGACT TCTTCACTGT TCCCCCGGTG
TTCGTGTCCG TCTATCTCAA CAGGAGCTGG CTTGGCTTAC GTTTTTTAAG GGCCTTAAGA
TTGATACAGT TCTCAGAAAT CTTACAGTTT TTGAATATAT TAAAAACAAG CAATTCCATA
AAACTGGTGA ACTTGTGTTC AATCTTCATA AGCACATGGC TAACAGCTGC AGGCTTCATA
CATTTGGTGG AAAACTCAGG GGATCCTTGG GAAAACTTCC AAAATTCCCA GTCACTTTCC
TACTGGGAAT GTGTCTACTT ACTGATGGTT ACTATGTCCA CTGTGGGCTA TGGAGACGTG
TATGCCAAAA CTACCCTGGG ACGACTTTTC ATGGTCTTCT TCATCCTTGG TGGTTTGGCC
ATGTTTGCGA GCTACGTCCC TGAAATCATA GAGTTAATAG GAAACCGCAA GAAATATGGT
GGTTCCTATA GTGCTGTTAA TGGGAGAAAG CACATCGTGG TCTGTGGTCA TATTACCCTT
GAAAGTGTGT CCAACTTCCT TAAAGACTTC CTACACAAGG ACAGGGATGA TGTCAATGTA
GAAATTGTTT TTCTCCATAA TATTTCCCCT AATCTTGAGC TGGAAGCCTT GTTTAAACGG
CACTTCACCC AGGTGGAGTT CTACCAGGGA TCTGTTCTCA ACCCACACGA CCTGGCCAGA
GTCAAGATAG AGTCAGCAGA TGCCTGTTTG ATCCTAGCTA ATAAATACTG TGCAGACCCT
GATGCTGAGG ATGCTTCCAA CATCATGAGG GTGATATCCA TCAAGAACTA CCATCCGAAG
ATCAGAATCA TTACCCAGAT GTTGCAGTAC CACAACAAGG CCCACCTTTT GAACATTCCC
AGTTGGAACT GGAAGGAGGG GGACGATGCC ATTTGCCTTG CTGAGCTGAA GCTTGGCTTC
ATAGCACAGA GTTGTCTGGC TCAGGGCCTC TCCACCATGC TGGCCAACCT CTTCTCCATG
AGGTCCTTTA TCAAGATTGA AGAGGACACG TGGCAGAAGT ATTACCTGGA AGGAGTAGCC
AATGAAATGT ACACTGAGTA CTTGTCTAGT GCCTTTGTGG GCTTATCCTT CCCCACCATT
TGTGAACTGT GCTATGTGAA GCTAAAGCTG CTACTGATCG CTATCGAGTA CAAGTCTGAT
ATACGGGAAA GCAGCACTCT CATCAACCCT GGGAACCATG TGAAGATGCA GGAAGGAACC
TTGGGGTTCT TTATCGCCAG CGATGCCAAA GAAGTTAAGA GGGCACTTTT CTACTGCAAA
GCTTGCCACG ATGACATCAC AGATCCCAAA AGGATAAAGA AATGTGGATG CAAACGATTG
GAAGAGGAGC AGCAGTCAGC CGTTTCTCCT AAAAAGAAAC AAGTCAATGG AAACACGAGG
AACTCACCCA ACGGTTCACC AAAAATGATG AGGCATGACC CTCTCCTCAT GCCGGGGAAG
GAACAGATTG AGAACATGGA CGTGAACGTG AAGAAATACG ACTCCACAGG GATGTTTCAC
TGGTGCCAGT CCAAAGACAT TGAGAAGGTC ATCTTGACCC GGAGCGAAGC TGCCATGACT
GTTCTAAGCG GCCACGTGGT CGTCTGTATA TTTGGAGACG CAAAGTCGGC TTTGGTGGGC
CTTAGGAACC TTGTGATGCC TCTGAGAGCT AGCAATTTCC ACTACCACGA GCTGAAACCC
ATTGTGTTTG TGGGTTCTCT GGAGTACCTG AAGAGGGAAT GGGAGACCCT TCACAACTTT
CCCAAAGTCT CCATCTTACC TGGCACACCA TTAAGCCGGG CCGATCTGAG GGCCGTCAAT
ATCAACCTCT GTGACATGTG TGTCATCCTG TCAGCCAATC AGAGCAATAT TGACGACGCT
TCACTGCAGG ACAAGGAATG CATCCTGGCG TCACTCAACA TCAAGTCTAT GCAGTTTGAT
GACAGCATCG GGGTGTTGCA GGCTACCTCC CAAGGTTTCA CCCTGCCAGG CATGGACAGG
TCCTCTCCTG AAAACAGTCC AGTTCATGGG GGGTTGGTAC GACAGGCTTC CATCACAACA
GGAGCCAATG TCCCCATCAT CACTGAACTA GTGAACGACT CCAATGTTCA GTTCCTGGAC
CAGGATGATG ACGATGACCC TGACACAGAG TTGTACCTCA CTCAACCCTT CGCCTGTGGG
ACGGCTTTCG CAGTCAGTGT GCTGGATTCC CTGATGAGTG CTACATACTT CAATGATAAT
ATCCTCACCC TGATCCGGAC GCTGGTAACA GGGGGGGCCA CTCCGGAGCT GGAGGGTCTG
TTGGCGGAGG AGAATGCATT ACGAGGAGGC TACAGCACGC CGCAGACCCT CGCTAACCGG
GACAGGTGTC GTGTTGCACA GCTAGCCTTG TACGATGGGC CATTTGCTGA CTTGGGGGAT
GGTGGTTGCT ATGGTGACTT GTTTTGTAAA GCGTTAAAAA CATACAACAT GCTTTGCTTT
GGAATTTACC GATTGAGGGA CGCCCATCTA AACACACAAA GTCATACAAG TCAATGCACT
AAACGATATG TAATAACCAA CCCACCGTAT GGTTTTGAGC TGGTGCCATC AGACCTGATC
TTCTGCCTGA TGCAGTTTGA CCACAACGCG GGTCAGTCCC AGGCCAGCCT CACCCATAGC
TCCCACTCCT CCCATTCGTC CAGCAAAAAG AGCTCCTCCG TCCATTCTAT CCCCGCCACC
AACCGCACCA ACCGCGCCAA GAGCAGGGAC TCACGGGATA AACAAAAAAA AGACATGCTT
TACAGATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OAt73596 Clone ID Related Accession (Same CDS sequence) XM_014180344.1 Accession Version XM_014180344.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3009bp)
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 1442678400000 Organism Salmo salar(Atlantic salmon) Product calcium-activated potassium channel subunit alpha-1 isoform X14 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_012341616.1) 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 Version :: Salmo salar Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001ATGAATGTGG TGCTTGTCTT TGCCCTCAGC ATCGGAGCCC TTGTAATATA CTTCATAGAT
TCCTCTGACC CCATCGAGTC CTGTCAGAAC TTCTACAAAG ACTTCACGCT ACAGATCGAC
ATGGCTTTCA ACGTCTTCTT CCTCTTGTAC TTTGGTCTAC GGTTCATAGC GGCCAACGAC
AAGCTGTGGT TCTGGCTGGA GGTGAACTCA GTGGTGGACT TCTTCACTGT TCCCCCGGTG
TTCGTGTCCG TCTATCTCAA CAGGAGCTGG CTTGGCTTAC GTTTTTTAAG GGCCTTAAGA
TTGATACAGT TCTCAGAAAT CTTACAGTTT TTGAATATAT TAAAAACAAG CAATTCCATA
AAACTGGTGA ACTTGTGTTC AATCTTCATA AGCACATGGC TAACAGCTGC AGGCTTCATA
CATTTGGTGG AAAACTCAGG GGATCCTTGG GAAAACTTCC AAAATTCCCA GTCACTTTCC
TACTGGGAAT GTGTCTACTT ACTGATGGTT ACTATGTCCA CTGTGGGCTA TGGAGACGTG
TATGCCAAAA CTACCCTGGG ACGACTTTTC ATGGTCTTCT TCATCCTTGG TGGTTTGGCC
ATGTTTGCTC GCTACGTGCC AGAAATTGCT GCTCTCATCC TTAATCGGAA GAAATACGGA
GGGAGTTATA ACTCGACCCG AGGCAGAAAG CACATCGTGG TCTGTGGTCA TATTACCCTT
GAAAGTGTGT CCAACTTCCT TAAAGACTTC CTACACAAGG ACAGGGATGA TGTCAATGTA
GAAATTGTTT TTCTCCATAA TATTTCCCCT AATCTTGAGC TGGAAGCCTT GTTTAAACGG
CACTTCACCC AGGTGGAGTT CTACCAGGGA TCTGTTCTCA ACCCACACGA CCTGGCCAGA
GTCAAGATAG AGTCAGCAGA TGCCTGTTTG ATCCTAGCTA ATAAATACTG TGCAGACCCT
GATGCTGAGG ATGCTTCCAA CATCATGAGG GTGATATCCA TCAAGAACTA CCATCCGAAG
ATCAGAATCA TTACCCAGAT GTTGCAGTAC CACAACAAGG CCCACCTTTT GAACATTCCC
AGTTGGAACT GGAAGGAGGG GGACGATGCC ATTTGCCTTG CTGAGCTGAA GCTTGGCTTC
ATAGCACAGA GTTGTCTGGC TCAGGGCCTC TCCACCATGC TGGCCAACCT CTTCTCCATG
AGGTCCTTTA TCAAGATTGA AGAGGACACG TGGCAGAAGT ATTACCTGGA AGGAGTAGCC
AATGAAATGT ACACTGAGTA CTTGTCTAGT GCCTTTGTGG GCTTATCCTT CCCCACCATT
TGTGAACTGT GCTATGTGAA GCTAAAGCTG CTACTGATCG CTATCGAGTA CAAGTCTGAT
ATACGGGAAA GCAGCACTCT CATCAACCCT GGGAACCATG TGAAGATGCA GGAAGGAACC
TTGGGGTTCT TTATCGCCAG CGATGCCAAA GAAGTTAAGA GGGCACTTTT CTACTGCAAA
GCTTGCCACG ATGACATCAC AGATCCCAAA AGGATAAAGA AATGTGGATG CAAACGATTG
GAAGAGGAGC AGCAGTCAGC CGTTTCTCCT AAAAAGAAAC AAGTCAATGG AAACACGAGG
AACTCACCCA ACGGTTCACC AAAAATGATG AGGCATGACC CTCTCCTCAT GCCGGGGAAG
GAACAGATTG AGAACATGGA CGTGAACGTG AAGAAATACG ACTCCACAGG GATGTTTCAC
TGGTGCCAGT CCAAAGACAT TGAGAAGGTC ATCTTGACCC GGAGCGAAGC TGCCATGACT
GTTCTAAGCG GCCACGTGGT CGTCTGTATA TTTGGAGACG CAAAGTCGGC TTTGGTGGGC
CTTAGGAACC TTGTGATGCC TCTGAGAGCT AGCAATTTCC ACTACCACGA GCTGAAACCC
ATTGTGTTTG TGGGTTCTCT GGAGTACCTG AAGAGGGAAT GGGAGACCCT TCACAACTTT
CCCAAAGTCT CCATCTTACC TGGCACACCA TTAAGCCGGG CCGATCTGAG GGCCGTCAAT
ATCAACCTCT GTGACATGTG TGTCATCCTG TCAGCCAATC AGAGCAATAT TGACGACGCT
TCACTGCAGG ACAAGGAATG CATCCTGGCG TCACTCAACA TCAAGTCTAT GCAGTTTGAT
GACAGCATCG GGGTGTTGCA GGCTACCTCC CAAGGTTTCA CCCTGCCAGG CATGGACAGG
TCCTCTCCTG AAAACAGTCC AGTTCATGGG GGGTTGGTAC GACAGGCTTC CATCACAACA
GGAGCCAATG TCCCCATCAT CACTGAACTA GTGAACGACT CCAATGTTCA GTTCCTGGAC
CAGGATGATG ACGATGACCC TGACACAGAG TTGTACCTCA CTCAACCCTT CGCCTGTGGG
ACGGCTTTCG CAGTCAGTGT GCTGGATTCC CTGATGAGTG CTACATACTT CAATGATAAT
ATCCTCACCC TGATCCGGAC GCTGGTAACA GGGGGGGCCA CTCCGGAGCT GGAGGGTCTG
TTGGCGGAGG AGAATGCATT ACGAGGAGGC TACAGCACGC CGCAGACCCT CGCTAACCGG
GACAGGTGTC GTGTTGCACA GCTAGCCTTG TACGATGGGC CATTTGCTGA CTTGGGGGAT
GGTGGTTGCT ATGGTGACTT GTTTTGTAAA GCGTTAAAAA CATACAACAT GCTTTGCTTT
GGAATTTACC GATTGAGGGA CGCCCATCTA AACACACAAA GTCATACAAG TCAATGCACT
AAACGATATG TAATAACCAA CCCACCGTAT GGTTTTGAGC TGGTGCCATC AGACCTGATC
TTCTGCCTGA TGCAGTTTGA CCACAACGCG GGTCAGTCCC AGGCCAGCCT CACCCATAGC
TCCCACTCCT CCCATTCGTC CAGCAAAAAG AGCTCCTCCG TCCATTCTAT CCCCGCCACC
AACCGCACCA ACCGCGCCAA GAGCAGGGAC TCACGGGATA AACAAAAAAA AGACATGCTT
TACAGATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_014035819.1 CDS 59..3067 Translation
Target ORF information:
RefSeq Version XM_014180344.1 Organism Salmo salar(Atlantic salmon) Definition Salmo salar calcium-activated potassium channel subunit alpha-1 (LOC106589905), transcript variant X15, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_014180344.1
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
3001ATGAATGTGG TGCTTGTCTT TGCCCTCAGC ATCGGAGCCC TTGTAATATA CTTCATAGAT
TCCTCTGACC CCATCGAGTC CTGTCAGAAC TTCTACAAAG ACTTCACGCT ACAGATCGAC
ATGGCTTTCA ACGTCTTCTT CCTCTTGTAC TTTGGTCTAC GGTTCATAGC GGCCAACGAC
AAGCTGTGGT TCTGGCTGGA GGTGAACTCA GTGGTGGACT TCTTCACTGT TCCCCCGGTG
TTCGTGTCCG TCTATCTCAA CAGGAGCTGG CTTGGCTTAC GTTTTTTAAG GGCCTTAAGA
TTGATACAGT TCTCAGAAAT CTTACAGTTT TTGAATATAT TAAAAACAAG CAATTCCATA
AAACTGGTGA ACTTGTGTTC AATCTTCATA AGCACATGGC TAACAGCTGC AGGCTTCATA
CATTTGGTGG AAAACTCAGG GGATCCTTGG GAAAACTTCC AAAATTCCCA GTCACTTTCC
TACTGGGAAT GTGTCTACTT ACTGATGGTT ACTATGTCCA CTGTGGGCTA TGGAGACGTG
TATGCCAAAA CTACCCTGGG ACGACTTTTC ATGGTCTTCT TCATCCTTGG TGGTTTGGCC
ATGTTTGCTC GCTACGTGCC AGAAATTGCT GCTCTCATCC TTAATCGGAA GAAATACGGA
GGGAGTTATA ACTCGACCCG AGGCAGAAAG CACATCGTGG TCTGTGGTCA TATTACCCTT
GAAAGTGTGT CCAACTTCCT TAAAGACTTC CTACACAAGG ACAGGGATGA TGTCAATGTA
GAAATTGTTT TTCTCCATAA TATTTCCCCT AATCTTGAGC TGGAAGCCTT GTTTAAACGG
CACTTCACCC AGGTGGAGTT CTACCAGGGA TCTGTTCTCA ACCCACACGA CCTGGCCAGA
GTCAAGATAG AGTCAGCAGA TGCCTGTTTG ATCCTAGCTA ATAAATACTG TGCAGACCCT
GATGCTGAGG ATGCTTCCAA CATCATGAGG GTGATATCCA TCAAGAACTA CCATCCGAAG
ATCAGAATCA TTACCCAGAT GTTGCAGTAC CACAACAAGG CCCACCTTTT GAACATTCCC
AGTTGGAACT GGAAGGAGGG GGACGATGCC ATTTGCCTTG CTGAGCTGAA GCTTGGCTTC
ATAGCACAGA GTTGTCTGGC TCAGGGCCTC TCCACCATGC TGGCCAACCT CTTCTCCATG
AGGTCCTTTA TCAAGATTGA AGAGGACACG TGGCAGAAGT ATTACCTGGA AGGAGTAGCC
AATGAAATGT ACACTGAGTA CTTGTCTAGT GCCTTTGTGG GCTTATCCTT CCCCACCATT
TGTGAACTGT GCTATGTGAA GCTAAAGCTG CTACTGATCG CTATCGAGTA CAAGTCTGAT
ATACGGGAAA GCAGCACTCT CATCAACCCT GGGAACCATG TGAAGATGCA GGAAGGAACC
TTGGGGTTCT TTATCGCCAG CGATGCCAAA GAAGTTAAGA GGGCACTTTT CTACTGCAAA
GCTTGCCACG ATGACATCAC AGATCCCAAA AGGATAAAGA AATGTGGATG CAAACGATTG
GAAGAGGAGC AGCAGTCAGC CGTTTCTCCT AAAAAGAAAC AAGTCAATGG AAACACGAGG
AACTCACCCA ACGGTTCACC AAAAATGATG AGGCATGACC CTCTCCTCAT GCCGGGGAAG
GAACAGATTG AGAACATGGA CGTGAACGTG AAGAAATACG ACTCCACAGG GATGTTTCAC
TGGTGCCAGT CCAAAGACAT TGAGAAGGTC ATCTTGACCC GGAGCGAAGC TGCCATGACT
GTTCTAAGCG GCCACGTGGT CGTCTGTATA TTTGGAGACG CAAAGTCGGC TTTGGTGGGC
CTTAGGAACC TTGTGATGCC TCTGAGAGCT AGCAATTTCC ACTACCACGA GCTGAAACCC
ATTGTGTTTG TGGGTTCTCT GGAGTACCTG AAGAGGGAAT GGGAGACCCT TCACAACTTT
CCCAAAGTCT CCATCTTACC TGGCACACCA TTAAGCCGGG CCGATCTGAG GGCCGTCAAT
ATCAACCTCT GTGACATGTG TGTCATCCTG TCAGCCAATC AGAGCAATAT TGACGACGCT
TCACTGCAGG ACAAGGAATG CATCCTGGCG TCACTCAACA TCAAGTCTAT GCAGTTTGAT
GACAGCATCG GGGTGTTGCA GGCTACCTCC CAAGGTTTCA CCCTGCCAGG CATGGACAGG
TCCTCTCCTG AAAACAGTCC AGTTCATGGG GGGTTGGTAC GACAGGCTTC CATCACAACA
GGAGCCAATG TCCCCATCAT CACTGAACTA GTGAACGACT CCAATGTTCA GTTCCTGGAC
CAGGATGATG ACGATGACCC TGACACAGAG TTGTACCTCA CTCAACCCTT CGCCTGTGGG
ACGGCTTTCG CAGTCAGTGT GCTGGATTCC CTGATGAGTG CTACATACTT CAATGATAAT
ATCCTCACCC TGATCCGGAC GCTGGTAACA GGGGGGGCCA CTCCGGAGCT GGAGGGTCTG
TTGGCGGAGG AGAATGCATT ACGAGGAGGC TACAGCACGC CGCAGACCCT CGCTAACCGG
GACAGGTGTC GTGTTGCACA GCTAGCCTTG TACGATGGGC CATTTGCTGA CTTGGGGGAT
GGTGGTTGCT ATGGTGACTT GTTTTGTAAA GCGTTAAAAA CATACAACAT GCTTTGCTTT
GGAATTTACC GATTGAGGGA CGCCCATCTA AACACACAAA GTCATACAAG TCAATGCACT
AAACGATATG TAATAACCAA CCCACCGTAT GGTTTTGAGC TGGTGCCATC AGACCTGATC
TTCTGCCTGA TGCAGTTTGA CCACAACGCG GGTCAGTCCC AGGCCAGCCT CACCCATAGC
TCCCACTCCT CCCATTCGTC CAGCAAAAAG AGCTCCTCCG TCCATTCTAT CCCCGCCACC
AACCGCACCA ACCGCGCCAA GAGCAGGGAC TCACGGGATA AACAAAAAAA AGACATGCTT
TACAGATGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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