| Gene Symbol | adam15 |
| Entrez Gene ID | 110513176 |
| Full Name | ADAM metallopeptidase domain 15 |
| Gene Type | protein-coding |
| Organism | Oncorhynchus mykiss(rainbow trout) |
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adam15 cDNA ORF clone, Oncorhynchus mykiss(rainbow trout)
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Gene
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Clones
gRNAs
The following adam15 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the adam15 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 OOf39528 Clone ID Related Accession (Same CDS sequence) XM_021593155.1 Accession Version XM_021593155.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2973bp)
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 1498406400000 Organism Oncorhynchus mykiss(rainbow trout) Product disintegrin and metalloproteinase domain-containing protein 15 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_035079.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Oncorhynchus mykiss Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941ATGGACACGA GCCAATGTCA CTGCGCAACA ATGTTTCTAT CTGGAGCTCT GGTAACATTG
GTGCTACTCG AGACTGTTAC ATTTCGCCGG ACTCAATCAA ATACGTTACT TAGTAGCCGT
TTAGGATTAC TGGACGATAA CGATTTGCAG GAATATCTGC TGGCGGAAAG TCATTTGAAC
TCAAATAAAA CAGAGAGGGA GAAGCCACAA GAGAAGCTGT CTCCTTTGAA CGCAACAACA
GTATCGTCCC ACTCCTCACT TACAAGTCCA TTGCACCACC ATGGTAGTAG ACACGGCAAG
CCACTGGAGA GGACCAGGCC CTTTGTGGTA GTGGACGGAC ACAACAGAAG TCTGAGTGAG
GCCTTGCAGA ATGGTCACCC AGACAAGCTA CAGTGTGGTC TTCAATTTGG AGGCAGCATC
TATCTTTTGG ACCTGGAGAA AAACCATGAT CTCCTGCCCA AGCCCCCCAA TGTCTTCTAC
TACCTCCCTA ATGGCACTGG GGTGTCTTTA GAGGAGAGCA CAGTGACTCA CTGCTACTAC
CACGGCTCAG TGAGAGGCTT CCCACAGTCC AGGGTGGCTC TCAGTACCTG CTCTGGACTC
AGGGGCGTGG TGGCCATCAA CTCCACCCTG AGCTTTGAGC TGCAGCCTGA GGAAGAACAT
GAGGACGAGG AGGGGGCAGA GGAGAGTGGA GGGGAGGAGG AGGAGGAGGG GATGCACCTG
CTCTACTCCA CCAGACCTCT GGAGAGGGGT AGTGTTGGGG GCTGTGGGGT GTCCCATACA
CCTGTACCTC CCATCCACAT CCCACCACAA GTCCCACACA GGAGTAAGAG GGATATTCTC
TCAGAGACCA AGTACATAGA GCTTGTGCTT GTAGCTGATC ACAAAGAGTA CCGTAACTAT
CAGAAAATCA ACAAGACTAT CATCTATCGA ATGCTGGATG TGGCCAACCA AGTAGACTGG
TTCTACCGGC CGCTGAGTGT GCGTGTGGCT CTAACTGGGG TGGAGATCTG GAGTGACCAA
GATAAGATCC AGGTTGACAA GAGTCCCTCA GACACCCTCA ACCGCTTCCT GGAGTGGCGC
ACCAGAGAGC TGCTGCCACG CCTGCGCCAC GACAATGCTC AGCTCATTAT GGGGGGCTCA
TTTGATGGAA CTACAGTGGG AATGGCATCT CAGTCTTCCA TGTGCTCCAA GGACCGGTCA
GGAGGGGTCA ATGTGGATCA CCTGGTCAGT GTACTGGGGG TGGCGTCCAC CATTGCCCAC
GAGCTCGGGC ACAATCTGGG CATGAATCAC GACACGGCCG ACCGGCGCTG CCAGTGTCAG
AATGAACCAC GCCTGGGAGG CTGCATCATG GAGCCATCTA CTGGTTTCAT GCCAGGCCAG
CTGTTCAGCA GCTGCAGTGC CAGAGACCTG TCCCTCAGCC TGCTCCATGG TGGGGGGATG
TGCCTCTTCA ACGTGCCCCA GCCTGAGAAA CTGCTGGGGG GGCCACGCTG TGGAAACCTC
TACGTGGAGA AGGGAGAGGA GTGTGACTGC GGCCTGCTGG ATGAGTGTAA CGATCCCTGC
TGCAACGCCA CCACCTGTAA ACTGGTTCCT GGGGCCCAGT GTTCCTCCGA TGGCATCTGT
TGTGACAACT GCAGGCTGCG TTCAGGTGGA TGGATGTGTC GGCAGCCCCT GGGGGAGTGT
GACCTCCCAG AGCACTGCAC TGGTACCTCT CCCTACTGCC CCCCCAACGT GTTCCTGCAG
AATGGCGAGC CCTGCGAGGA AGGCTCCTCC TACTGCTACA GCGGTGTCTG CGCCAGCCTC
AACACACAGT GCCAGATGTT GTGGGGACCT AATTCCACCA GGGCTCCGCC TGTCTGCTTT
TCCTCCGTCA ACAAACAGGG CAACAAATAC GGCAACTGTG GCCAGATGGC CAACGGAACC
TACATTCCCT GCCCTAGCAA AGATGTGCAT TGTGGGAGGC TCCAGTGCCA GGGAGGCAAC
GACCGTCCGT TGCTAGGCAC CAGCGCTGAG ATCCTGACCA CCAAAGTAAA ATTTAACTAC
AGCGACTTTG TCTGCCGGGG AACCTACTTC CACCTTGGCG ACGACGTCTC CGACCCTGCC
ATGGTGGCAC AGGGCACCGC GTGTGGTCTT GGCAAGGCCT GTTGGAACCA GCGGTGTCAG
GATGTGTCTT TGTTCGGCGT CGACGAGTGT CAGAGCAAAT GCAACGGACA CGGGGTGTGC
AACAGCAATA AGAACTGCCA CTGTGACGTG GGCTGGGCTC CTCCAGACTG TAGGTACACG
GGCCATGGAG GCAGTGTGGA CAGTGGCCCT GCAAGAGCAC CTAGAGGATC TGACCCGGCA
CGTGTGGCCT TGCTGGTCAT CTTCCTCTTC ATCCTGCCAG TGGTTCTCCT CTTCCTCGCC
CTGCGTTTCC CCCGCTGTCA CCGCAACCTG CCCTGTCTGG GCACTACCAG CCTCTTCCAC
AAGGGCACCG GACGCCAACA GAGCCGGACC CCGGCCACCG AGCGAGTGGA TGCTCGTAAC
GGGGAACAGG TTCAACCTCT GAGGTACCAC TGGAGCCGCC AGAGTGACAT CCAAATGACC
CCATCGCTGC CTTCTAACAA GGTTCAGGAC AGACCTGCTC CGCCTACTAA GCCACTTCCT
CCTGACCCTG TCTTAAAACA AGCCCAGCCA TCGTTGAGTC GGCCGGCTCC TCCCACCAAG
CCTCTACCCC CTGACCCTGT GCTAACAGGC AGCCAGGCCC TTGTACCACC CAAAAAACCA
CCAGCCCCCA GGAAGTCCTT GCCTTCGGAC CCCCCGTCAC ATCCCACCCA TCCTGGGTAT
GCTGCATATG GTGCCCCCGT GCAACATGGA GCGAGTATAA CTTCAGTTAC ACCTATTGGC
CCTCCTGTTG CAGCCATCCC TTCCAGACGT GCCCCTTTAC CTCCAGTACG GACGTCACAA
CCCAGAAAAC CTAACTCGAC ACCTCCGATT TAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_021448830.1 CDS 517..3489 Translation 
Target ORF information:
RefSeq Version XM_021593155.1 Organism Oncorhynchus mykiss(rainbow trout) Definition Oncorhynchus mykiss ADAM metallopeptidase domain 15 (adam15), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_021593155.1
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
2941ATGGACACGA GCCAATGTCA CTGCGCAACA ATGTTTCTAT CTGGAGCTCT GGTAACATTG
GTGCTACTCG AGACTGTTAC ATTTCGCCGG ACTCAATCAA ATACGTTACT TAGTAGCCGT
TTAGGATTAC TGGACGATAA CGATTTGCAG GAATATCTGC TGGCGGAAAG TCATTTGAAC
TCAAATAAAA CAGAGAGGGA GAAGCCACAA GAGAAGCTGT CTCCTTTGAA CGCAACAACA
GTATCGTCCC ACTCCTCACT TACAAGTCCA TTGCACCACC ATGGTAGTAG ACACGGCAAG
CCACTGGAGA GGACCAGGCC CTTTGTGGTA GTGGACGGAC ACAACAGAAG TCTGAGTGAG
GCCTTGCAGA ATGGTCACCC AGACAAGCTA CAGTGTGGTC TTCAATTTGG AGGCAGCATC
TATCTTTTGG ACCTGGAGAA AAACCATGAT CTCCTGCCCA AGCCCCCCAA TGTCTTCTAC
TACCTCCCTA ATGGCACTGG GGTGTCTTTA GAGGAGAGCA CAGTGACTCA CTGCTACTAC
CACGGCTCAG TGAGAGGCTT CCCACAGTCC AGGGTGGCTC TCAGTACCTG CTCTGGACTC
AGGGGCGTGG TGGCCATCAA CTCCACCCTG AGCTTTGAGC TGCAGCCTGA GGAAGAACAT
GAGGACGAGG AGGGGGCAGA GGAGAGTGGA GGGGAGGAGG AGGAGGAGGG GATGCACCTG
CTCTACTCCA CCAGACCTCT GGAGAGGGGT AGTGTTGGGG GCTGTGGGGT GTCCCATACA
CCTGTACCTC CCATCCACAT CCCACCACAA GTCCCACACA GGAGTAAGAG GGATATTCTC
TCAGAGACCA AGTACATAGA GCTTGTGCTT GTAGCTGATC ACAAAGAGTA CCGTAACTAT
CAGAAAATCA ACAAGACTAT CATCTATCGA ATGCTGGATG TGGCCAACCA AGTAGACTGG
TTCTACCGGC CGCTGAGTGT GCGTGTGGCT CTAACTGGGG TGGAGATCTG GAGTGACCAA
GATAAGATCC AGGTTGACAA GAGTCCCTCA GACACCCTCA ACCGCTTCCT GGAGTGGCGC
ACCAGAGAGC TGCTGCCACG CCTGCGCCAC GACAATGCTC AGCTCATTAT GGGGGGCTCA
TTTGATGGAA CTACAGTGGG AATGGCATCT CAGTCTTCCA TGTGCTCCAA GGACCGGTCA
GGAGGGGTCA ATGTGGATCA CCTGGTCAGT GTACTGGGGG TGGCGTCCAC CATTGCCCAC
GAGCTCGGGC ACAATCTGGG CATGAATCAC GACACGGCCG ACCGGCGCTG CCAGTGTCAG
AATGAACCAC GCCTGGGAGG CTGCATCATG GAGCCATCTA CTGGTTTCAT GCCAGGCCAG
CTGTTCAGCA GCTGCAGTGC CAGAGACCTG TCCCTCAGCC TGCTCCATGG TGGGGGGATG
TGCCTCTTCA ACGTGCCCCA GCCTGAGAAA CTGCTGGGGG GGCCACGCTG TGGAAACCTC
TACGTGGAGA AGGGAGAGGA GTGTGACTGC GGCCTGCTGG ATGAGTGTAA CGATCCCTGC
TGCAACGCCA CCACCTGTAA ACTGGTTCCT GGGGCCCAGT GTTCCTCCGA TGGCATCTGT
TGTGACAACT GCAGGCTGCG TTCAGGTGGA TGGATGTGTC GGCAGCCCCT GGGGGAGTGT
GACCTCCCAG AGCACTGCAC TGGTACCTCT CCCTACTGCC CCCCCAACGT GTTCCTGCAG
AATGGCGAGC CCTGCGAGGA AGGCTCCTCC TACTGCTACA GCGGTGTCTG CGCCAGCCTC
AACACACAGT GCCAGATGTT GTGGGGACCT AATTCCACCA GGGCTCCGCC TGTCTGCTTT
TCCTCCGTCA ACAAACAGGG CAACAAATAC GGCAACTGTG GCCAGATGGC CAACGGAACC
TACATTCCCT GCCCTAGCAA AGATGTGCAT TGTGGGAGGC TCCAGTGCCA GGGAGGCAAC
GACCGTCCGT TGCTAGGCAC CAGCGCTGAG ATCCTGACCA CCAAAGTAAA ATTTAACTAC
AGCGACTTTG TCTGCCGGGG AACCTACTTC CACCTTGGCG ACGACGTCTC CGACCCTGCC
ATGGTGGCAC AGGGCACCGC GTGTGGTCTT GGCAAGGCCT GTTGGAACCA GCGGTGTCAG
GATGTGTCTT TGTTCGGCGT CGACGAGTGT CAGAGCAAAT GCAACGGACA CGGGGTGTGC
AACAGCAATA AGAACTGCCA CTGTGACGTG GGCTGGGCTC CTCCAGACTG TAGGTACACG
GGCCATGGAG GCAGTGTGGA CAGTGGCCCT GCAAGAGCAC CTAGAGGATC TGACCCGGCA
CGTGTGGCCT TGCTGGTCAT CTTCCTCTTC ATCCTGCCAG TGGTTCTCCT CTTCCTCGCC
CTGCGTTTCC CCCGCTGTCA CCGCAACCTG CCCTGTCTGG GCACTACCAG CCTCTTCCAC
AAGGGCACCG GACGCCAACA GAGCCGGACC CCGGCCACCG AGCGAGTGGA TGCTCGTAAC
GGGGAACAGG TTCAACCTCT GAGGTACCAC TGGAGCCGCC AGAGTGACAT CCAAATGACC
CCATCGCTGC CTTCTAACAA GGTTCAGGAC AGACCTGCTC CGCCTACTAA GCCACTTCCT
CCTGACCCTG TCTTAAAACA AGCCCAGCCA TCGTTGAGTC GGCCGGCTCC TCCCACCAAG
CCTCTACCCC CTGACCCTGT GCTAACAGGC AGCCAGGCCC TTGTACCACC CAAAAAACCA
CCAGCCCCCA GGAAGTCCTT GCCTTCGGAC CCCCCGTCAC ATCCCACCCA TCCTGGGTAT
GCTGCATATG GTGCCCCCGT GCAACATGGA GCGAGTATAA CTTCAGTTAC ACCTATTGGC
CCTCCTGTTG CAGCCATCCC TTCCAGACGT GCCCCTTTAC CTCCAGTACG GACGTCACAA
CCCAGAAAAC CTAACTCGAC ACCTCCGATT TAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OOf39529 Clone ID Related Accession (Same CDS sequence) XM_021593156.1 Accession Version XM_021593156.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2904bp)
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 1498406400000 Organism Oncorhynchus mykiss(rainbow trout) Product disintegrin and metalloproteinase domain-containing protein 15 isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_035079.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Oncorhynchus mykiss Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881ATGGACACGA GCCAATGTCA CTGCGCAACA ATGTTTCTAT CTGGAGCTCT GGTAACATTG
GTGCTACTCG AGACTGTTAC ATTTCGCCGG ACTCAATCAA ATACGTTACT TAGTAGCCGT
TTAGGATTAC TGGACGATAA CGATTTGCAG GAATATCTGC TGGCGGAAAG TCATTTGAAC
TCAAATAAAA CAGAGAGGGA GAAGCCACAA GAGAAGCTGT CTCCTTTGAA CGCAACAACA
GTATCGTCCC ACTCCTCACT TACAAGTCCA TTGCACCACC ATGGTAGTAG ACACGGCAAG
CCACTGGAGA GGACCAGGCC CTTTGTGGTA GTGGACGGAC ACAACAGAAG TCTGAGTGAG
GCCTTGCAGA ATGGTCACCC AGACAAGCTA CAGTGTGGTC TTCAATTTGG AGGCAGCATC
TATCTTTTGG ACCTGGAGAA AAACCATGAT CTCCTGCCCA AGCCCCCCAA TGTCTTCTAC
TACCTCCCTA ATGGCACTGG GGTGTCTTTA GAGGAGAGCA CAGTGACTCA CTGCTACTAC
CACGGCTCAG TGAGAGGCTT CCCACAGTCC AGGGTGGCTC TCAGTACCTG CTCTGGACTC
AGGGGCGTGG TGGCCATCAA CTCCACCCTG AGCTTTGAGC TGCAGCCTGA GGAAGAACAT
GAGGACGAGG AGGGGGCAGA GGAGAGTGGA GGGGAGGAGG AGGAGGAGGG GATGCACCTG
CTCTACTCCA CCAGACCTCT GGAGAGGGGT AGTGTTGGGG GCTGTGGGGT GTCCCATACA
CCTGTACCTC CCATCCACAT CCCACCACAA GTCCCACACA GGAGTAAGAG GGATATTCTC
TCAGAGACCA AGTACATAGA GCTTGTGCTT GTAGCTGATC ACAAAGAGTA CCGTAACTAT
CAGAAAATCA ACAAGACTAT CATCTATCGA ATGCTGGATG TGGCCAACCA AGTAGACTGG
TTCTACCGGC CGCTGAGTGT GCGTGTGGCT CTAACTGGGG TGGAGATCTG GAGTGACCAA
GATAAGATCC AGGTTGACAA GAGTCCCTCA GACACCCTCA ACCGCTTCCT GGAGTGGCGC
ACCAGAGAGC TGCTGCCACG CCTGCGCCAC GACAATGCTC AGCTCATTAT GGGGGGCTCA
TTTGATGGAA CTACAGTGGG AATGGCATCT CAGTCTTCCA TGTGCTCCAA GGACCGGTCA
GGAGGGGTCA ATGTGGATCA CCTGGTCAGT GTACTGGGGG TGGCGTCCAC CATTGCCCAC
GAGCTCGGGC ACAATCTGGG CATGAATCAC GACACGGCCG ACCGGCGCTG CCAGTGTCAG
AATGAACCAC GCCTGGGAGG CTGCATCATG GAGCCATCTA CTGGTTTCAT GCCAGGCCAG
CTGTTCAGCA GCTGCAGTGC CAGAGACCTG TCCCTCAGCC TGCTCCATGG TGGGGGGATG
TGCCTCTTCA ACGTGCCCCA GCCTGAGAAA CTGCTGGGGG GGCCACGCTG TGGAAACCTC
TACGTGGAGA AGGGAGAGGA GTGTGACTGC GGCCTGCTGG ATGAGTGTAA CGATCCCTGC
TGCAACGCCA CCACCTGTAA ACTGGTTCCT GGGGCCCAGT GTTCCTCCGA TGGCATCTGT
TGTGACAACT GCAGGCTGCG TTCAGGTGGA TGGATGTGTC GGCAGCCCCT GGGGGAGTGT
GACCTCCCAG AGCACTGCAC TGGTACCTCT CCCTACTGCC CCCCCAACGT GTTCCTGCAG
AATGGCGAGC CCTGCGAGGA AGGCTCCTCC TACTGCTACA GCGGTGTCTG CGCCAGCCTC
AACACACAGT GCCAGATGTT GTGGGGACCT AATTCCACCA GGGCTCCGCC TGTCTGCTTT
TCCTCCGTCA ACAAACAGGG CAACAAATAC GGCAACTGTG GCCAGATGGC CAACGGAACC
TACATTCCCT GCCCTAGCAA AGATGTGCAT TGTGGGAGGC TCCAGTGCCA GGGAGGCAAC
GACCGTCCGT TGCTAGGCAC CAGCGCTGAG ATCCTGACCA CCAAAGTAAA ATTTAACTAC
AGCGACTTTG TCTGCCGGGG AACCTACTTC CACCTTGGCG ACGACGTCTC CGACCCTGCC
ATGGTGGCAC AGGGCACCGC GTGTGGTCTT GGCAAGGCCT GTTGGAACCA GCGGTGTCAG
GATGTGTCTT TGTTCGGCGT CGACGAGTGT CAGAGCAAAT GCAACGGACA CGGGGTGTGC
AACAGCAATA AGAACTGCCA CTGTGACGTG GGCTGGGCTC CTCCAGACTG TAGGTACACG
GGCCATGGAG GCAGTGTGGA CAGTGGCCCT GCAAGAGCAC CTAGAGGATC TGACCCGGCA
CGTGTGGCCT TGCTGGTCAT CTTCCTCTTC ATCCTGCCAG TGGTTCTCCT CTTCCTCGCC
CTGCGTTTCC CCCGCTGTCA CCGCAACCTG CCCTGTCTGG GCACTACCAG CCTCTTCCAC
AAGGGCACCG GACGCCAACA GAGCCGGACC CCGGCCACCG AGCGAGTGGA TGCTCGTAAC
GGGGAACAGG TTCAACCTCT GAGGTACCAC TGGAGCCGCC AGAGTGACAT CCAAATGACC
CCATCGCTGC CTTCTAACAA GGTTCAGGAC AGACCTGCTC CGCCTACTAA GCCACTTCCT
CCTGACCCTG TCTTAAAACA AGCCCAGGCC CTTGTACCAC CCAAAAAACC ACCAGCCCCC
AGGAAGTCCT TGCCTTCGGA CCCCCCGTCA CATCCCACCC ATCCTGGGTA TGCTGCATAT
GGTGCCCCCG TGCAACATGG AGCGAGTATA ACTTCAGTTA CACCTATTGG CCCTCCTGTT
GCAGCCATCC CTTCCAGACG TGCCCCTTTA CCTCCAGTAC GGACGTCACA ACCCAGAAAA
CCTAACTCGA CACCTCCGAT TTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_021448831.1 CDS 517..3420 Translation
Target ORF information:
RefSeq Version XM_021593156.1 Organism Oncorhynchus mykiss(rainbow trout) Definition Oncorhynchus mykiss ADAM metallopeptidase domain 15 (adam15), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_021593156.1
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
2881ATGGACACGA GCCAATGTCA CTGCGCAACA ATGTTTCTAT CTGGAGCTCT GGTAACATTG
GTGCTACTCG AGACTGTTAC ATTTCGCCGG ACTCAATCAA ATACGTTACT TAGTAGCCGT
TTAGGATTAC TGGACGATAA CGATTTGCAG GAATATCTGC TGGCGGAAAG TCATTTGAAC
TCAAATAAAA CAGAGAGGGA GAAGCCACAA GAGAAGCTGT CTCCTTTGAA CGCAACAACA
GTATCGTCCC ACTCCTCACT TACAAGTCCA TTGCACCACC ATGGTAGTAG ACACGGCAAG
CCACTGGAGA GGACCAGGCC CTTTGTGGTA GTGGACGGAC ACAACAGAAG TCTGAGTGAG
GCCTTGCAGA ATGGTCACCC AGACAAGCTA CAGTGTGGTC TTCAATTTGG AGGCAGCATC
TATCTTTTGG ACCTGGAGAA AAACCATGAT CTCCTGCCCA AGCCCCCCAA TGTCTTCTAC
TACCTCCCTA ATGGCACTGG GGTGTCTTTA GAGGAGAGCA CAGTGACTCA CTGCTACTAC
CACGGCTCAG TGAGAGGCTT CCCACAGTCC AGGGTGGCTC TCAGTACCTG CTCTGGACTC
AGGGGCGTGG TGGCCATCAA CTCCACCCTG AGCTTTGAGC TGCAGCCTGA GGAAGAACAT
GAGGACGAGG AGGGGGCAGA GGAGAGTGGA GGGGAGGAGG AGGAGGAGGG GATGCACCTG
CTCTACTCCA CCAGACCTCT GGAGAGGGGT AGTGTTGGGG GCTGTGGGGT GTCCCATACA
CCTGTACCTC CCATCCACAT CCCACCACAA GTCCCACACA GGAGTAAGAG GGATATTCTC
TCAGAGACCA AGTACATAGA GCTTGTGCTT GTAGCTGATC ACAAAGAGTA CCGTAACTAT
CAGAAAATCA ACAAGACTAT CATCTATCGA ATGCTGGATG TGGCCAACCA AGTAGACTGG
TTCTACCGGC CGCTGAGTGT GCGTGTGGCT CTAACTGGGG TGGAGATCTG GAGTGACCAA
GATAAGATCC AGGTTGACAA GAGTCCCTCA GACACCCTCA ACCGCTTCCT GGAGTGGCGC
ACCAGAGAGC TGCTGCCACG CCTGCGCCAC GACAATGCTC AGCTCATTAT GGGGGGCTCA
TTTGATGGAA CTACAGTGGG AATGGCATCT CAGTCTTCCA TGTGCTCCAA GGACCGGTCA
GGAGGGGTCA ATGTGGATCA CCTGGTCAGT GTACTGGGGG TGGCGTCCAC CATTGCCCAC
GAGCTCGGGC ACAATCTGGG CATGAATCAC GACACGGCCG ACCGGCGCTG CCAGTGTCAG
AATGAACCAC GCCTGGGAGG CTGCATCATG GAGCCATCTA CTGGTTTCAT GCCAGGCCAG
CTGTTCAGCA GCTGCAGTGC CAGAGACCTG TCCCTCAGCC TGCTCCATGG TGGGGGGATG
TGCCTCTTCA ACGTGCCCCA GCCTGAGAAA CTGCTGGGGG GGCCACGCTG TGGAAACCTC
TACGTGGAGA AGGGAGAGGA GTGTGACTGC GGCCTGCTGG ATGAGTGTAA CGATCCCTGC
TGCAACGCCA CCACCTGTAA ACTGGTTCCT GGGGCCCAGT GTTCCTCCGA TGGCATCTGT
TGTGACAACT GCAGGCTGCG TTCAGGTGGA TGGATGTGTC GGCAGCCCCT GGGGGAGTGT
GACCTCCCAG AGCACTGCAC TGGTACCTCT CCCTACTGCC CCCCCAACGT GTTCCTGCAG
AATGGCGAGC CCTGCGAGGA AGGCTCCTCC TACTGCTACA GCGGTGTCTG CGCCAGCCTC
AACACACAGT GCCAGATGTT GTGGGGACCT AATTCCACCA GGGCTCCGCC TGTCTGCTTT
TCCTCCGTCA ACAAACAGGG CAACAAATAC GGCAACTGTG GCCAGATGGC CAACGGAACC
TACATTCCCT GCCCTAGCAA AGATGTGCAT TGTGGGAGGC TCCAGTGCCA GGGAGGCAAC
GACCGTCCGT TGCTAGGCAC CAGCGCTGAG ATCCTGACCA CCAAAGTAAA ATTTAACTAC
AGCGACTTTG TCTGCCGGGG AACCTACTTC CACCTTGGCG ACGACGTCTC CGACCCTGCC
ATGGTGGCAC AGGGCACCGC GTGTGGTCTT GGCAAGGCCT GTTGGAACCA GCGGTGTCAG
GATGTGTCTT TGTTCGGCGT CGACGAGTGT CAGAGCAAAT GCAACGGACA CGGGGTGTGC
AACAGCAATA AGAACTGCCA CTGTGACGTG GGCTGGGCTC CTCCAGACTG TAGGTACACG
GGCCATGGAG GCAGTGTGGA CAGTGGCCCT GCAAGAGCAC CTAGAGGATC TGACCCGGCA
CGTGTGGCCT TGCTGGTCAT CTTCCTCTTC ATCCTGCCAG TGGTTCTCCT CTTCCTCGCC
CTGCGTTTCC CCCGCTGTCA CCGCAACCTG CCCTGTCTGG GCACTACCAG CCTCTTCCAC
AAGGGCACCG GACGCCAACA GAGCCGGACC CCGGCCACCG AGCGAGTGGA TGCTCGTAAC
GGGGAACAGG TTCAACCTCT GAGGTACCAC TGGAGCCGCC AGAGTGACAT CCAAATGACC
CCATCGCTGC CTTCTAACAA GGTTCAGGAC AGACCTGCTC CGCCTACTAA GCCACTTCCT
CCTGACCCTG TCTTAAAACA AGCCCAGGCC CTTGTACCAC CCAAAAAACC ACCAGCCCCC
AGGAAGTCCT TGCCTTCGGA CCCCCCGTCA CATCCCACCC ATCCTGGGTA TGCTGCATAT
GGTGCCCCCG TGCAACATGG AGCGAGTATA ACTTCAGTTA CACCTATTGG CCCTCCTGTT
GCAGCCATCC CTTCCAGACG TGCCCCTTTA CCTCCAGTAC GGACGTCACA ACCCAGAAAA
CCTAACTCGA CACCTCCGAT TTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OOf39530 Clone ID Related Accession (Same CDS sequence) XM_021593159.1 Accession Version XM_021593159.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2838bp)
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 1498406400000 Organism Oncorhynchus mykiss(rainbow trout) Product disintegrin and metalloproteinase domain-containing protein 15 isoform X3 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_035079.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Oncorhynchus mykiss Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821ATGGACACGA GCCAATGTCA CTGCGCAACA ATGTTTCTAT CTGGAGCTCT GGTAACATTG
GTGCTACTCG AGACTGTTAC ATTTCGCCGG ACTCAATCAA ATACGTTACT TAGTAGCCGT
TTAGGATTAC TGGACGATAA CGATTTGCAG GAATATCTGC TGGCGGAAAG TCATTTGAAC
TCAAATAAAA CAGAGAGGGA GAAGCCACAA GAGAAGCTGT CTCCTTTGAA CGCAACAACA
GTATCGTCCC ACTCCTCACT TACAAGTCCA TTGCACCACC ATGGTAGTAG ACACGGCAAG
CCACTGGAGA GGACCAGGCC CTTTGTGGTA GTGGACGGAC ACAACAGAAG TCTGAGTGAG
GCCTTGCAGA ATGGTCACCC AGACAAGCTA CAGTGTGGTC TTCAATTTGG AGGCAGCATC
TATCTTTTGG ACCTGGAGAA AAACCATGAT CTCCTGCCCA AGCCCCCCAA TGTCTTCTAC
TACCTCCCTA ATGGCACTGG GGTGTCTTTA GAGGAGAGCA CAGTGACTCA CTGCTACTAC
CACGGCTCAG TGAGAGGCTT CCCACAGTCC AGGGTGGCTC TCAGTACCTG CTCTGGACTC
AGGGGCGTGG TGGCCATCAA CTCCACCCTG AGCTTTGAGC TGCAGCCTGA GGAAGAACAT
GAGGACGAGG AGGGGGCAGA GGAGAGTGGA GGGGAGGAGG AGGAGGAGGG GATGCACCTG
CTCTACTCCA CCAGACCTCT GGAGAGGGGT AGTGTTGGGG GCTGTGGGGT GTCCCATACA
CCTGTACCTC CCATCCACAT CCCACCACAA GTCCCACACA GGAGTAAGAG GGATATTCTC
TCAGAGACCA AGTACATAGA GCTTGTGCTT GTAGCTGATC ACAAAGAGTA CCGTAACTAT
CAGAAAATCA ACAAGACTAT CATCTATCGA ATGCTGGATG TGGCCAACCA AGTAGACTGG
TTCTACCGGC CGCTGAGTGT GCGTGTGGCT CTAACTGGGG TGGAGATCTG GAGTGACCAA
GATAAGATCC AGGTTGACAA GAGTCCCTCA GACACCCTCA ACCGCTTCCT GGAGTGGCGC
ACCAGAGAGC TGCTGCCACG CCTGCGCCAC GACAATGCTC AGCTCATTAT GGGGGGCTCA
TTTGATGGAA CTACAGTGGG AATGGCATCT CAGTCTTCCA TGTGCTCCAA GGACCGGTCA
GGAGGGGTCA ATGTGGATCA CCTGGTCAGT GTACTGGGGG TGGCGTCCAC CATTGCCCAC
GAGCTCGGGC ACAATCTGGG CATGAATCAC GACACGGCCG ACCGGCGCTG CCAGTGTCAG
AATGAACCAC GCCTGGGAGG CTGCATCATG GAGCCATCTA CTGGTTTCAT GCCAGGCCAG
CTGTTCAGCA GCTGCAGTGC CAGAGACCTG TCCCTCAGCC TGCTCCATGG TGGGGGGATG
TGCCTCTTCA ACGTGCCCCA GCCTGAGAAA CTGCTGGGGG GGCCACGCTG TGGAAACCTC
TACGTGGAGA AGGGAGAGGA GTGTGACTGC GGCCTGCTGG ATGAGTGTAA CGATCCCTGC
TGCAACGCCA CCACCTGTAA ACTGGTTCCT GGGGCCCAGT GTTCCTCCGA TGGCATCTGT
TGTGACAACT GCAGGCTGCG TTCAGGTGGA TGGATGTGTC GGCAGCCCCT GGGGGAGTGT
GACCTCCCAG AGCACTGCAC TGGTACCTCT CCCTACTGCC CCCCCAACGT GTTCCTGCAG
AATGGCGAGC CCTGCGAGGA AGGCTCCTCC TACTGCTACA GCGGTGTCTG CGCCAGCCTC
AACACACAGT GCCAGATGTT GTGGGGACCT AATTCCACCA GGGCTCCGCC TGTCTGCTTT
TCCTCCGTCA ACAAACAGGG CAACAAATAC GGCAACTGTG GCCAGATGGC CAACGGAACC
TACATTCCCT GCCCTAGCAA AGATGTGCAT TGTGGGAGGC TCCAGTGCCA GGGAGGCAAC
GACCGTCCGT TGCTAGGCAC CAGCGCTGAG ATCCTGACCA CCAAAGTAAA ATTTAACTAC
AGCGACTTTG TCTGCCGGGG AACCTACTTC CACCTTGGCG ACGACGTCTC CGACCCTGCC
ATGGTGGCAC AGGGCACCGC GTGTGGTCTT GGCAAGGCCT GTTGGAACCA GCGGTGTCAG
GATGTGTCTT TGTTCGGCGT CGACGAGTGT CAGAGCAAAT GCAACGGACA CGGGGTGTGC
AACAGCAATA AGAACTGCCA CTGTGACGTG GGCTGGGCTC CTCCAGACTG TAGGTACACG
GGCCATGGAG GCAGTGTGGA CAGTGGCCCT GCAAGAGCAC CTAGAGGATC TGACCCGGCA
CGTGTGGCCT TGCTGGTCAT CTTCCTCTTC ATCCTGCCAG TGGTTCTCCT CTTCCTCGCC
CTGCGTTTCC CCCGCTGTCA CCGCAACCTG CCCTGTCTGG GCACTACCAG CCTCTTCCAC
AAGGGCACCG GACGCCAACA GAGCCGGACC CCGGCCACCG AGCGAGTGGA TGCTCGTAAC
GGGGAACAGG TTCAACCTCT GAGGTACCAC TGGAGCCGCC AGAGTGACAT CCAAATGACC
CCATCGCTGC CTTCTAACAA GGCCCTTGTA CCACCCAAAA AACCACCAGC CCCCAGGAAG
TCCTTGCCTT CGGACCCCCC GTCACATCCC ACCCATCCTG GGTATGCTGC ATATGGTGCC
CCCGTGCAAC ATGGAGCGAG TATAACTTCA GTTACACCTA TTGGCCCTCC TGTTGCAGCC
ATCCCTTCCA GACGTGCCCC TTTACCTCCA GTACGGACGT CACAACCCAG AAAACCTAAC
TCGACACCTC CGATTTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_021448834.1 CDS 517..3354 Translation
Target ORF information:
RefSeq Version XM_021593159.1 Organism Oncorhynchus mykiss(rainbow trout) Definition Oncorhynchus mykiss ADAM metallopeptidase domain 15 (adam15), transcript variant X3, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_021593159.1
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
2821ATGGACACGA GCCAATGTCA CTGCGCAACA ATGTTTCTAT CTGGAGCTCT GGTAACATTG
GTGCTACTCG AGACTGTTAC ATTTCGCCGG ACTCAATCAA ATACGTTACT TAGTAGCCGT
TTAGGATTAC TGGACGATAA CGATTTGCAG GAATATCTGC TGGCGGAAAG TCATTTGAAC
TCAAATAAAA CAGAGAGGGA GAAGCCACAA GAGAAGCTGT CTCCTTTGAA CGCAACAACA
GTATCGTCCC ACTCCTCACT TACAAGTCCA TTGCACCACC ATGGTAGTAG ACACGGCAAG
CCACTGGAGA GGACCAGGCC CTTTGTGGTA GTGGACGGAC ACAACAGAAG TCTGAGTGAG
GCCTTGCAGA ATGGTCACCC AGACAAGCTA CAGTGTGGTC TTCAATTTGG AGGCAGCATC
TATCTTTTGG ACCTGGAGAA AAACCATGAT CTCCTGCCCA AGCCCCCCAA TGTCTTCTAC
TACCTCCCTA ATGGCACTGG GGTGTCTTTA GAGGAGAGCA CAGTGACTCA CTGCTACTAC
CACGGCTCAG TGAGAGGCTT CCCACAGTCC AGGGTGGCTC TCAGTACCTG CTCTGGACTC
AGGGGCGTGG TGGCCATCAA CTCCACCCTG AGCTTTGAGC TGCAGCCTGA GGAAGAACAT
GAGGACGAGG AGGGGGCAGA GGAGAGTGGA GGGGAGGAGG AGGAGGAGGG GATGCACCTG
CTCTACTCCA CCAGACCTCT GGAGAGGGGT AGTGTTGGGG GCTGTGGGGT GTCCCATACA
CCTGTACCTC CCATCCACAT CCCACCACAA GTCCCACACA GGAGTAAGAG GGATATTCTC
TCAGAGACCA AGTACATAGA GCTTGTGCTT GTAGCTGATC ACAAAGAGTA CCGTAACTAT
CAGAAAATCA ACAAGACTAT CATCTATCGA ATGCTGGATG TGGCCAACCA AGTAGACTGG
TTCTACCGGC CGCTGAGTGT GCGTGTGGCT CTAACTGGGG TGGAGATCTG GAGTGACCAA
GATAAGATCC AGGTTGACAA GAGTCCCTCA GACACCCTCA ACCGCTTCCT GGAGTGGCGC
ACCAGAGAGC TGCTGCCACG CCTGCGCCAC GACAATGCTC AGCTCATTAT GGGGGGCTCA
TTTGATGGAA CTACAGTGGG AATGGCATCT CAGTCTTCCA TGTGCTCCAA GGACCGGTCA
GGAGGGGTCA ATGTGGATCA CCTGGTCAGT GTACTGGGGG TGGCGTCCAC CATTGCCCAC
GAGCTCGGGC ACAATCTGGG CATGAATCAC GACACGGCCG ACCGGCGCTG CCAGTGTCAG
AATGAACCAC GCCTGGGAGG CTGCATCATG GAGCCATCTA CTGGTTTCAT GCCAGGCCAG
CTGTTCAGCA GCTGCAGTGC CAGAGACCTG TCCCTCAGCC TGCTCCATGG TGGGGGGATG
TGCCTCTTCA ACGTGCCCCA GCCTGAGAAA CTGCTGGGGG GGCCACGCTG TGGAAACCTC
TACGTGGAGA AGGGAGAGGA GTGTGACTGC GGCCTGCTGG ATGAGTGTAA CGATCCCTGC
TGCAACGCCA CCACCTGTAA ACTGGTTCCT GGGGCCCAGT GTTCCTCCGA TGGCATCTGT
TGTGACAACT GCAGGCTGCG TTCAGGTGGA TGGATGTGTC GGCAGCCCCT GGGGGAGTGT
GACCTCCCAG AGCACTGCAC TGGTACCTCT CCCTACTGCC CCCCCAACGT GTTCCTGCAG
AATGGCGAGC CCTGCGAGGA AGGCTCCTCC TACTGCTACA GCGGTGTCTG CGCCAGCCTC
AACACACAGT GCCAGATGTT GTGGGGACCT AATTCCACCA GGGCTCCGCC TGTCTGCTTT
TCCTCCGTCA ACAAACAGGG CAACAAATAC GGCAACTGTG GCCAGATGGC CAACGGAACC
TACATTCCCT GCCCTAGCAA AGATGTGCAT TGTGGGAGGC TCCAGTGCCA GGGAGGCAAC
GACCGTCCGT TGCTAGGCAC CAGCGCTGAG ATCCTGACCA CCAAAGTAAA ATTTAACTAC
AGCGACTTTG TCTGCCGGGG AACCTACTTC CACCTTGGCG ACGACGTCTC CGACCCTGCC
ATGGTGGCAC AGGGCACCGC GTGTGGTCTT GGCAAGGCCT GTTGGAACCA GCGGTGTCAG
GATGTGTCTT TGTTCGGCGT CGACGAGTGT CAGAGCAAAT GCAACGGACA CGGGGTGTGC
AACAGCAATA AGAACTGCCA CTGTGACGTG GGCTGGGCTC CTCCAGACTG TAGGTACACG
GGCCATGGAG GCAGTGTGGA CAGTGGCCCT GCAAGAGCAC CTAGAGGATC TGACCCGGCA
CGTGTGGCCT TGCTGGTCAT CTTCCTCTTC ATCCTGCCAG TGGTTCTCCT CTTCCTCGCC
CTGCGTTTCC CCCGCTGTCA CCGCAACCTG CCCTGTCTGG GCACTACCAG CCTCTTCCAC
AAGGGCACCG GACGCCAACA GAGCCGGACC CCGGCCACCG AGCGAGTGGA TGCTCGTAAC
GGGGAACAGG TTCAACCTCT GAGGTACCAC TGGAGCCGCC AGAGTGACAT CCAAATGACC
CCATCGCTGC CTTCTAACAA GGCCCTTGTA CCACCCAAAA AACCACCAGC CCCCAGGAAG
TCCTTGCCTT CGGACCCCCC GTCACATCCC ACCCATCCTG GGTATGCTGC ATATGGTGCC
CCCGTGCAAC ATGGAGCGAG TATAACTTCA GTTACACCTA TTGGCCCTCC TGTTGCAGCC
ATCCCTTCCA GACGTGCCCC TTTACCTCCA GTACGGACGT CACAACCCAG AAAACCTAAC
TCGACACCTC CGATTTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OOf39531 Clone ID Related Accession (Same CDS sequence) XM_021593161.1 Accession Version XM_021593161.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2784bp)
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 1498406400000 Organism Oncorhynchus mykiss(rainbow trout) Product disintegrin and metalloproteinase domain-containing protein 15 isoform X4 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_035079.1) 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 :: Oncorhynchus mykiss Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761ATGGACACGA GCCAATGTCA CTGCGCAACA ATGTTTCTAT CTGGAGCTCT GGTAACATTG
GTGCTACTCG AGACTGTTAC ATTTCGCCGG ACTCAATCAA ATACGTTACT TAGTAGCCGT
TTAGGATTAC TGGACGATAA CGATTTGCAG GAATATCTGC TGGCGGAAAG TCATTTGAAC
TCAAATAAAA CAGAGAGGGA GAAGCCACAA GAGAAGCTGT CTCCTTTGAA CGCAACAACA
GTATCGTCCC ACTCCTCACT TACAAGTCCA TTGCACCACC ATGGTAGTAG ACACGGCAAG
CCACTGGAGA GGACCAGGCC CTTTGTGGTA GTGGACGGAC ACAACAGAAG TCTGAGTGAG
GCCTTGCAGA ATGGTCACCC AGACAAGCTA CAGTGTGGTC TTCAATTTGG AGGCAGCATC
TATCTTTTGG ACCTGGAGAA AAACCATGAT CTCCTGCCCA AGCCCCCCAA TGTCTTCTAC
TACCTCCCTA ATGGCACTGG GGTGTCTTTA GAGGAGAGCA CAGTGACTCA CTGCTACTAC
CACGGCTCAG TGAGAGGCTT CCCACAGTCC AGGGTGGCTC TCAGTACCTG CTCTGGACTC
AGGGGCGTGG TGGCCATCAA CTCCACCCTG AGCTTTGAGC TGCAGCCTGA GGAAGAACAT
GAGGACGAGG AGGGGGCAGA GGAGAGTGGA GGGGAGGAGG AGGAGGAGGG GATGCACCTG
CTCTACTCCA CCAGACCTCT GGAGAGGGGT AGTGTTGGGG GCTGTGGGGT GTCCCATACA
CCTGTACCTC CCATCCACAT CCCACCACAA GTCCCACACA GGAGTAAGAG GGATATTCTC
TCAGAGACCA AGTACATAGA GCTTGTGCTT GTAGCTGATC ACAAAGAGTA CCGTAACTAT
CAGAAAATCA ACAAGACTAT CATCTATCGA ATGCTGGATG TGGCCAACCA AGTAGACTGG
TTCTACCGGC CGCTGAGTGT GCGTGTGGCT CTAACTGGGG TGGAGATCTG GAGTGACCAA
GATAAGATCC AGGTTGACAA GAGTCCCTCA GACACCCTCA ACCGCTTCCT GGAGTGGCGC
ACCAGAGAGC TGCTGCCACG CCTGCGCCAC GACAATGCTC AGCTCATTAT GGGGGGCTCA
TTTGATGGAA CTACAGTGGG AATGGCATCT CAGTCTTCCA TGTGCTCCAA GGACCGGTCA
GGAGGGGTCA ATGTGGATCA CCTGGTCAGT GTACTGGGGG TGGCGTCCAC CATTGCCCAC
GAGCTCGGGC ACAATCTGGG CATGAATCAC GACACGGCCG ACCGGCGCTG CCAGTGTCAG
AATGAACCAC GCCTGGGAGG CTGCATCATG GAGCCATCTA CTGGTTTCAT GCCAGGCCAG
CTGTTCAGCA GCTGCAGTGC CAGAGACCTG TCCCTCAGCC TGCTCCATGG TGGGGGGATG
TGCCTCTTCA ACGTGCCCCA GCCTGAGAAA CTGCTGGGGG GGCCACGCTG TGGAAACCTC
TACGTGGAGA AGGGAGAGGA GTGTGACTGC GGCCTGCTGG ATGAGTGTAA CGATCCCTGC
TGCAACGCCA CCACCTGTAA ACTGGTTCCT GGGGCCCAGT GTTCCTCCGA TGGCATCTGT
TGTGACAACT GCAGGCTGCG TTCAGGTGGA TGGATGTGTC GGCAGCCCCT GGGGGAGTGT
GACCTCCCAG AGCACTGCAC TGGTACCTCT CCCTACTGCC CCCCCAACGT GTTCCTGCAG
AATGGCGAGC CCTGCGAGGA AGGCTCCTCC TACTGCTACA GCGGTGTCTG CGCCAGCCTC
AACACACAGT GCCAGATGTT GTGGGGACCT AATTCCACCA GGGCTCCGCC TGTCTGCTTT
TCCTCCGTCA ACAAACAGGG CAACAAATAC GGCAACTGTG GCCAGATGGC CAACGGAACC
TACATTCCCT GCCCTAGCAA AGATGTGCAT TGTGGGAGGC TCCAGTGCCA GGGAGGCAAC
GACCGTCCGT TGCTAGGCAC CAGCGCTGAG ATCCTGACCA CCAAAGTAAA ATTTAACTAC
AGCGACTTTG TCTGCCGGGG AACCTACTTC CACCTTGGCG ACGACGTCTC CGACCCTGCC
ATGGTGGCAC AGGGCACCGC GTGTGGTCTT GGCAAGGCCT GTTGGAACCA GCGGTGTCAG
GATGTGTCTT TGTTCGGCGT CGACGAGTGT CAGAGCAAAT GCAACGGACA CGGGGTGTGC
AACAGCAATA AGAACTGCCA CTGTGACGTG GGCTGGGCTC CTCCAGACTG TAGGTACACG
GGCCATGGAG GCAGTGTGGA CAGTGGCCCT GCAAGAGCAC CTAGAGGATC TGACCCGGCA
CGTGTGGCCT TGCTGGTCAT CTTCCTCTTC ATCCTGCCAG TGGTTCTCCT CTTCCTCGCC
CTGCGTTTCC CCCGCTGTCA CCGCAACCTG CCCTGTCTGG GCACTACCAG CCTCTTCCAC
AAGGGCACCG GACGCCAACA GAGCCGGACC CCGGCCACCG AGCGAGTGGA TGCTCGTAAC
GGGGAACAGG TTCAACCTCT GAGGTACCAC TGGAGCCGCC AGAGTGACAT CCAAATGACC
CCATCGCTGC CTTCTAACAA GGTTCAGGAC AGACCTGCTC CGCCTACTAA GCCACTTCCT
CCTGACCCTG TCTTAAAACA AGCCCAGATA AGAAAGAAAC GGCCAGCCCC CACCAAGCCC
CTGCCCCCCG ACCCCAGCCC CCCTAACAAC CAGGTACAGT CAGAGGTTGC CATTAATGAC
GAGATCTTCG TCCATATGTT GTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_021448836.1 CDS 517..3300 Translation
Target ORF information:
RefSeq Version XM_021593161.1 Organism Oncorhynchus mykiss(rainbow trout) Definition Oncorhynchus mykiss ADAM metallopeptidase domain 15 (adam15), transcript variant X4, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_021593161.1
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
2761ATGGACACGA GCCAATGTCA CTGCGCAACA ATGTTTCTAT CTGGAGCTCT GGTAACATTG
GTGCTACTCG AGACTGTTAC ATTTCGCCGG ACTCAATCAA ATACGTTACT TAGTAGCCGT
TTAGGATTAC TGGACGATAA CGATTTGCAG GAATATCTGC TGGCGGAAAG TCATTTGAAC
TCAAATAAAA CAGAGAGGGA GAAGCCACAA GAGAAGCTGT CTCCTTTGAA CGCAACAACA
GTATCGTCCC ACTCCTCACT TACAAGTCCA TTGCACCACC ATGGTAGTAG ACACGGCAAG
CCACTGGAGA GGACCAGGCC CTTTGTGGTA GTGGACGGAC ACAACAGAAG TCTGAGTGAG
GCCTTGCAGA ATGGTCACCC AGACAAGCTA CAGTGTGGTC TTCAATTTGG AGGCAGCATC
TATCTTTTGG ACCTGGAGAA AAACCATGAT CTCCTGCCCA AGCCCCCCAA TGTCTTCTAC
TACCTCCCTA ATGGCACTGG GGTGTCTTTA GAGGAGAGCA CAGTGACTCA CTGCTACTAC
CACGGCTCAG TGAGAGGCTT CCCACAGTCC AGGGTGGCTC TCAGTACCTG CTCTGGACTC
AGGGGCGTGG TGGCCATCAA CTCCACCCTG AGCTTTGAGC TGCAGCCTGA GGAAGAACAT
GAGGACGAGG AGGGGGCAGA GGAGAGTGGA GGGGAGGAGG AGGAGGAGGG GATGCACCTG
CTCTACTCCA CCAGACCTCT GGAGAGGGGT AGTGTTGGGG GCTGTGGGGT GTCCCATACA
CCTGTACCTC CCATCCACAT CCCACCACAA GTCCCACACA GGAGTAAGAG GGATATTCTC
TCAGAGACCA AGTACATAGA GCTTGTGCTT GTAGCTGATC ACAAAGAGTA CCGTAACTAT
CAGAAAATCA ACAAGACTAT CATCTATCGA ATGCTGGATG TGGCCAACCA AGTAGACTGG
TTCTACCGGC CGCTGAGTGT GCGTGTGGCT CTAACTGGGG TGGAGATCTG GAGTGACCAA
GATAAGATCC AGGTTGACAA GAGTCCCTCA GACACCCTCA ACCGCTTCCT GGAGTGGCGC
ACCAGAGAGC TGCTGCCACG CCTGCGCCAC GACAATGCTC AGCTCATTAT GGGGGGCTCA
TTTGATGGAA CTACAGTGGG AATGGCATCT CAGTCTTCCA TGTGCTCCAA GGACCGGTCA
GGAGGGGTCA ATGTGGATCA CCTGGTCAGT GTACTGGGGG TGGCGTCCAC CATTGCCCAC
GAGCTCGGGC ACAATCTGGG CATGAATCAC GACACGGCCG ACCGGCGCTG CCAGTGTCAG
AATGAACCAC GCCTGGGAGG CTGCATCATG GAGCCATCTA CTGGTTTCAT GCCAGGCCAG
CTGTTCAGCA GCTGCAGTGC CAGAGACCTG TCCCTCAGCC TGCTCCATGG TGGGGGGATG
TGCCTCTTCA ACGTGCCCCA GCCTGAGAAA CTGCTGGGGG GGCCACGCTG TGGAAACCTC
TACGTGGAGA AGGGAGAGGA GTGTGACTGC GGCCTGCTGG ATGAGTGTAA CGATCCCTGC
TGCAACGCCA CCACCTGTAA ACTGGTTCCT GGGGCCCAGT GTTCCTCCGA TGGCATCTGT
TGTGACAACT GCAGGCTGCG TTCAGGTGGA TGGATGTGTC GGCAGCCCCT GGGGGAGTGT
GACCTCCCAG AGCACTGCAC TGGTACCTCT CCCTACTGCC CCCCCAACGT GTTCCTGCAG
AATGGCGAGC CCTGCGAGGA AGGCTCCTCC TACTGCTACA GCGGTGTCTG CGCCAGCCTC
AACACACAGT GCCAGATGTT GTGGGGACCT AATTCCACCA GGGCTCCGCC TGTCTGCTTT
TCCTCCGTCA ACAAACAGGG CAACAAATAC GGCAACTGTG GCCAGATGGC CAACGGAACC
TACATTCCCT GCCCTAGCAA AGATGTGCAT TGTGGGAGGC TCCAGTGCCA GGGAGGCAAC
GACCGTCCGT TGCTAGGCAC CAGCGCTGAG ATCCTGACCA CCAAAGTAAA ATTTAACTAC
AGCGACTTTG TCTGCCGGGG AACCTACTTC CACCTTGGCG ACGACGTCTC CGACCCTGCC
ATGGTGGCAC AGGGCACCGC GTGTGGTCTT GGCAAGGCCT GTTGGAACCA GCGGTGTCAG
GATGTGTCTT TGTTCGGCGT CGACGAGTGT CAGAGCAAAT GCAACGGACA CGGGGTGTGC
AACAGCAATA AGAACTGCCA CTGTGACGTG GGCTGGGCTC CTCCAGACTG TAGGTACACG
GGCCATGGAG GCAGTGTGGA CAGTGGCCCT GCAAGAGCAC CTAGAGGATC TGACCCGGCA
CGTGTGGCCT TGCTGGTCAT CTTCCTCTTC ATCCTGCCAG TGGTTCTCCT CTTCCTCGCC
CTGCGTTTCC CCCGCTGTCA CCGCAACCTG CCCTGTCTGG GCACTACCAG CCTCTTCCAC
AAGGGCACCG GACGCCAACA GAGCCGGACC CCGGCCACCG AGCGAGTGGA TGCTCGTAAC
GGGGAACAGG TTCAACCTCT GAGGTACCAC TGGAGCCGCC AGAGTGACAT CCAAATGACC
CCATCGCTGC CTTCTAACAA GGTTCAGGAC AGACCTGCTC CGCCTACTAA GCCACTTCCT
CCTGACCCTG TCTTAAAACA AGCCCAGATA AGAAAGAAAC GGCCAGCCCC CACCAAGCCC
CTGCCCCCCG ACCCCAGCCC CCCTAACAAC CAGGTACAGT CAGAGGTTGC CATTAATGAC
GAGATCTTCG TCCATATGTT GTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OOf39532 Clone ID Related Accession (Same CDS sequence) XM_021593163.1 Accession Version XM_021593163.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 2730bp)
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 1498406400000 Organism Oncorhynchus mykiss(rainbow trout) Product disintegrin and metalloproteinase domain-containing protein 15 isoform X5 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_035079.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Oncorhynchus mykiss Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701ATGGTGTGGG CTAATGGCGC AGGTCCATTG CACCACCATG GTAGTAGACA CGGCAAGCCA
CTGGAGAGGA CCAGGCCCTT TGTGGTAGTG GACGGACACA ACAGAAGTCT GAGTGAGGCC
TTGCAGAATG GTCACCCAGA CAAGCTACAG TGTGGTCTTC AATTTGGAGG CAGCATCTAT
CTTTTGGACC TGGAGAAAAA CCATGATCTC CTGCCCAAGC CCCCCAATGT CTTCTACTAC
CTCCCTAATG GCACTGGGGT GTCTTTAGAG GAGAGCACAG TGACTCACTG CTACTACCAC
GGCTCAGTGA GAGGCTTCCC ACAGTCCAGG GTGGCTCTCA GTACCTGCTC TGGACTCAGG
GGCGTGGTGG CCATCAACTC CACCCTGAGC TTTGAGCTGC AGCCTGAGGA AGAACATGAG
GACGAGGAGG GGGCAGAGGA GAGTGGAGGG GAGGAGGAGG AGGAGGGGAT GCACCTGCTC
TACTCCACCA GACCTCTGGA GAGGGGTAGT GTTGGGGGCT GTGGGGTGTC CCATACACCT
GTACCTCCCA TCCACATCCC ACCACAAGTC CCACACAGGA GTAAGAGGGA TATTCTCTCA
GAGACCAAGT ACATAGAGCT TGTGCTTGTA GCTGATCACA AAGAGTACCG TAACTATCAG
AAAATCAACA AGACTATCAT CTATCGAATG CTGGATGTGG CCAACCAAGT AGACTGGTTC
TACCGGCCGC TGAGTGTGCG TGTGGCTCTA ACTGGGGTGG AGATCTGGAG TGACCAAGAT
AAGATCCAGG TTGACAAGAG TCCCTCAGAC ACCCTCAACC GCTTCCTGGA GTGGCGCACC
AGAGAGCTGC TGCCACGCCT GCGCCACGAC AATGCTCAGC TCATTATGGG GGGCTCATTT
GATGGAACTA CAGTGGGAAT GGCATCTCAG TCTTCCATGT GCTCCAAGGA CCGGTCAGGA
GGGGTCAATG TGGATCACCT GGTCAGTGTA CTGGGGGTGG CGTCCACCAT TGCCCACGAG
CTCGGGCACA ATCTGGGCAT GAATCACGAC ACGGCCGACC GGCGCTGCCA GTGTCAGAAT
GAACCACGCC TGGGAGGCTG CATCATGGAG CCATCTACTG GTTTCATGCC AGGCCAGCTG
TTCAGCAGCT GCAGTGCCAG AGACCTGTCC CTCAGCCTGC TCCATGGTGG GGGGATGTGC
CTCTTCAACG TGCCCCAGCC TGAGAAACTG CTGGGGGGGC CACGCTGTGG AAACCTCTAC
GTGGAGAAGG GAGAGGAGTG TGACTGCGGC CTGCTGGATG AGTGTAACGA TCCCTGCTGC
AACGCCACCA CCTGTAAACT GGTTCCTGGG GCCCAGTGTT CCTCCGATGG CATCTGTTGT
GACAACTGCA GGCTGCGTTC AGGTGGATGG ATGTGTCGGC AGCCCCTGGG GGAGTGTGAC
CTCCCAGAGC ACTGCACTGG TACCTCTCCC TACTGCCCCC CCAACGTGTT CCTGCAGAAT
GGCGAGCCCT GCGAGGAAGG CTCCTCCTAC TGCTACAGCG GTGTCTGCGC CAGCCTCAAC
ACACAGTGCC AGATGTTGTG GGGACCTAAT TCCACCAGGG CTCCGCCTGT CTGCTTTTCC
TCCGTCAACA AACAGGGCAA CAAATACGGC AACTGTGGCC AGATGGCCAA CGGAACCTAC
ATTCCCTGCC CTAGCAAAGA TGTGCATTGT GGGAGGCTCC AGTGCCAGGG AGGCAACGAC
CGTCCGTTGC TAGGCACCAG CGCTGAGATC CTGACCACCA AAGTAAAATT TAACTACAGC
GACTTTGTCT GCCGGGGAAC CTACTTCCAC CTTGGCGACG ACGTCTCCGA CCCTGCCATG
GTGGCACAGG GCACCGCGTG TGGTCTTGGC AAGGCCTGTT GGAACCAGCG GTGTCAGGAT
GTGTCTTTGT TCGGCGTCGA CGAGTGTCAG AGCAAATGCA ACGGACACGG GGTGTGCAAC
AGCAATAAGA ACTGCCACTG TGACGTGGGC TGGGCTCCTC CAGACTGTAG GTACACGGGC
CATGGAGGCA GTGTGGACAG TGGCCCTGCA AGAGCACCTA GAGGATCTGA CCCGGCACGT
GTGGCCTTGC TGGTCATCTT CCTCTTCATC CTGCCAGTGG TTCTCCTCTT CCTCGCCCTG
CGTTTCCCCC GCTGTCACCG CAACCTGCCC TGTCTGGGCA CTACCAGCCT CTTCCACAAG
GGCACCGGAC GCCAACAGAG CCGGACCCCG GCCACCGAGC GAGTGGATGC TCGTAACGGG
GAACAGGTTC AACCTCTGAG GTACCACTGG AGCCGCCAGA GTGACATCCA AATGACCCCA
TCGCTGCCTT CTAACAAGGT TCAGGACAGA CCTGCTCCGC CTACTAAGCC ACTTCCTCCT
GACCCTGTCT TAAAACAAGC CCAGCCATCG TTGAGTCGGC CGGCTCCTCC CACCAAGCCT
CTACCCCCTG ACCCTGTGCT AACAGGCAGC CAGGCCCTTG TACCACCCAA AAAACCACCA
GCCCCCAGGA AGTCCTTGCC TTCGGACCCC CCGTCACATC CCACCCATCC TGGGTATGCT
GCATATGGTG CCCCCGTGCA ACATGGAGCG AGTATAACTT CAGTTACACC TATTGGCCCT
CCTGTTGCAG CCATCCCTTC CAGACGTGCC CCTTTACCTC CAGTACGGAC GTCACAACCC
AGAAAACCTA ACTCGACACC TCCGATTTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_021448838.1 CDS 277..3006 Translation
Target ORF information:
RefSeq Version XM_021593163.1 Organism Oncorhynchus mykiss(rainbow trout) Definition Oncorhynchus mykiss ADAM metallopeptidase domain 15 (adam15), transcript variant X5, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_021593163.1
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
2701ATGGTGTGGG CTAATGGCGC AGGTCCATTG CACCACCATG GTAGTAGACA CGGCAAGCCA
CTGGAGAGGA CCAGGCCCTT TGTGGTAGTG GACGGACACA ACAGAAGTCT GAGTGAGGCC
TTGCAGAATG GTCACCCAGA CAAGCTACAG TGTGGTCTTC AATTTGGAGG CAGCATCTAT
CTTTTGGACC TGGAGAAAAA CCATGATCTC CTGCCCAAGC CCCCCAATGT CTTCTACTAC
CTCCCTAATG GCACTGGGGT GTCTTTAGAG GAGAGCACAG TGACTCACTG CTACTACCAC
GGCTCAGTGA GAGGCTTCCC ACAGTCCAGG GTGGCTCTCA GTACCTGCTC TGGACTCAGG
GGCGTGGTGG CCATCAACTC CACCCTGAGC TTTGAGCTGC AGCCTGAGGA AGAACATGAG
GACGAGGAGG GGGCAGAGGA GAGTGGAGGG GAGGAGGAGG AGGAGGGGAT GCACCTGCTC
TACTCCACCA GACCTCTGGA GAGGGGTAGT GTTGGGGGCT GTGGGGTGTC CCATACACCT
GTACCTCCCA TCCACATCCC ACCACAAGTC CCACACAGGA GTAAGAGGGA TATTCTCTCA
GAGACCAAGT ACATAGAGCT TGTGCTTGTA GCTGATCACA AAGAGTACCG TAACTATCAG
AAAATCAACA AGACTATCAT CTATCGAATG CTGGATGTGG CCAACCAAGT AGACTGGTTC
TACCGGCCGC TGAGTGTGCG TGTGGCTCTA ACTGGGGTGG AGATCTGGAG TGACCAAGAT
AAGATCCAGG TTGACAAGAG TCCCTCAGAC ACCCTCAACC GCTTCCTGGA GTGGCGCACC
AGAGAGCTGC TGCCACGCCT GCGCCACGAC AATGCTCAGC TCATTATGGG GGGCTCATTT
GATGGAACTA CAGTGGGAAT GGCATCTCAG TCTTCCATGT GCTCCAAGGA CCGGTCAGGA
GGGGTCAATG TGGATCACCT GGTCAGTGTA CTGGGGGTGG CGTCCACCAT TGCCCACGAG
CTCGGGCACA ATCTGGGCAT GAATCACGAC ACGGCCGACC GGCGCTGCCA GTGTCAGAAT
GAACCACGCC TGGGAGGCTG CATCATGGAG CCATCTACTG GTTTCATGCC AGGCCAGCTG
TTCAGCAGCT GCAGTGCCAG AGACCTGTCC CTCAGCCTGC TCCATGGTGG GGGGATGTGC
CTCTTCAACG TGCCCCAGCC TGAGAAACTG CTGGGGGGGC CACGCTGTGG AAACCTCTAC
GTGGAGAAGG GAGAGGAGTG TGACTGCGGC CTGCTGGATG AGTGTAACGA TCCCTGCTGC
AACGCCACCA CCTGTAAACT GGTTCCTGGG GCCCAGTGTT CCTCCGATGG CATCTGTTGT
GACAACTGCA GGCTGCGTTC AGGTGGATGG ATGTGTCGGC AGCCCCTGGG GGAGTGTGAC
CTCCCAGAGC ACTGCACTGG TACCTCTCCC TACTGCCCCC CCAACGTGTT CCTGCAGAAT
GGCGAGCCCT GCGAGGAAGG CTCCTCCTAC TGCTACAGCG GTGTCTGCGC CAGCCTCAAC
ACACAGTGCC AGATGTTGTG GGGACCTAAT TCCACCAGGG CTCCGCCTGT CTGCTTTTCC
TCCGTCAACA AACAGGGCAA CAAATACGGC AACTGTGGCC AGATGGCCAA CGGAACCTAC
ATTCCCTGCC CTAGCAAAGA TGTGCATTGT GGGAGGCTCC AGTGCCAGGG AGGCAACGAC
CGTCCGTTGC TAGGCACCAG CGCTGAGATC CTGACCACCA AAGTAAAATT TAACTACAGC
GACTTTGTCT GCCGGGGAAC CTACTTCCAC CTTGGCGACG ACGTCTCCGA CCCTGCCATG
GTGGCACAGG GCACCGCGTG TGGTCTTGGC AAGGCCTGTT GGAACCAGCG GTGTCAGGAT
GTGTCTTTGT TCGGCGTCGA CGAGTGTCAG AGCAAATGCA ACGGACACGG GGTGTGCAAC
AGCAATAAGA ACTGCCACTG TGACGTGGGC TGGGCTCCTC CAGACTGTAG GTACACGGGC
CATGGAGGCA GTGTGGACAG TGGCCCTGCA AGAGCACCTA GAGGATCTGA CCCGGCACGT
GTGGCCTTGC TGGTCATCTT CCTCTTCATC CTGCCAGTGG TTCTCCTCTT CCTCGCCCTG
CGTTTCCCCC GCTGTCACCG CAACCTGCCC TGTCTGGGCA CTACCAGCCT CTTCCACAAG
GGCACCGGAC GCCAACAGAG CCGGACCCCG GCCACCGAGC GAGTGGATGC TCGTAACGGG
GAACAGGTTC AACCTCTGAG GTACCACTGG AGCCGCCAGA GTGACATCCA AATGACCCCA
TCGCTGCCTT CTAACAAGGT TCAGGACAGA CCTGCTCCGC CTACTAAGCC ACTTCCTCCT
GACCCTGTCT TAAAACAAGC CCAGCCATCG TTGAGTCGGC CGGCTCCTCC CACCAAGCCT
CTACCCCCTG ACCCTGTGCT AACAGGCAGC CAGGCCCTTG TACCACCCAA AAAACCACCA
GCCCCCAGGA AGTCCTTGCC TTCGGACCCC CCGTCACATC CCACCCATCC TGGGTATGCT
GCATATGGTG CCCCCGTGCA ACATGGAGCG AGTATAACTT CAGTTACACC TATTGGCCCT
CCTGTTGCAG CCATCCCTTC CAGACGTGCC CCTTTACCTC CAGTACGGAC GTCACAACCC
AGAAAACCTA ACTCGACACC TCCGATTTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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