The following IRS1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the IRS1 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.
CloneID |
ODa20737 |
Clone ID Related Accession (Same CDS sequence) |
XM_682610.9
, XM_682610.8
|
Accession Version |
XM_682610.9 Latest version! |
Documents for ORF clone product in default vector |
Sequence Information |
ORF Nucleotide Sequence (Length: 3300bp)
Protein sequence
SNP |
Vector |
pcDNA3.1+/C-(K)DYK or customized vector |
User Manual |
Clone information |
Clone Map |
MSDS |
Tag on pcDNA3.1+/C-(K)DYK |
C terminal DYKDDDDK tags |
ORF Insert Method |
CloneEZ™ Seamless cloning technology |
Insert Structure |
linear |
Update Date |
2017-06-14 |
Organism |
Danio rerio(zebrafish) |
Product |
insulin receptor substrate 1 |
Comment |
Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007126.7) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process
On Jun 15, 2017 this sequence version replaced XM_682610.8.
##Genome-Annotation-Data-START##
Annotation Provider :: NCBI
Annotation Status :: Full annotation
Annotation Version :: Danio rerio Annotation Release 106
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 2941 3001 3061 3121 3181 3241
| ATGGCAAGCC CGACTACGGA GCAAGGATGT TTTTCAGACG TGAAAAAGGT GGGTTATTTA AGGAAACCCA AAAGCATGCA CAAAAGGTTT TTTGTACTGA GGGCGGCGAG CGCCTCCGGA CCGTCCCGAC TGGAGTACTA TGAAAACGAG AAGAAGTGGA GACACAAGTC TGGAGCGCCG AAAAGATCCA TTCCGCTGGA GAGCTGCTTT AACATCAACA AAAGAGCGGA TTCAAAAAAC AAACATCTCG TCGCGCTTTA TACCAAGGAT GAGTACTTTG CTATCGCTGC TGACAGCGAG ATCGAGCAAG AGTCATGGTA TGAAGCCCTG GTTGATCTCC ATAACAGAGG TAAGGTCCAC GAAACTGCCC CGGGCCGTGG AGTTGGCGAG GATAATTACG GGGAAGCCAC GCCGGGACCT GCCTTTAAAG AGGTTTGGCA AGTTATATTG AAACCAAAGG GTCTGGGTCA CACAAAGAAC TTGATTGGAG TTTACAGATT ATGCCTCACC AATAAGACTA TCAGCTTTGT GAAACTGAAT TCGGATGCAG CAGCTGTGGT TTTGCAGTTG ATGAACATTA GGAGATGTGG TCACTCTGAA AATTTCTTTT TTATTGAAGT CGGCCGATCT GCTGTGACAG GCCCCGGGGA GTTTTGGATG CAAGTGGATG ACTCTGTTGT GGCTCAGAAC ATGCATGAAA CTATATTAGA AGCCATGAAA GCCATGAGTG AGGAGTTCAG ACCCCGCAGC AAAAGCCAGT CATCTTCTAA CTGCTCAAAC CCCATCTCAG TGCCTGTCAG GCGGCATCAT CACAATAATC CTCCCCCTAG TCAAGTTGGC TTAGGCAGGC GCTCTCGGGC GGAGAGTGTG ACGGCCACTT CTCCTGTTAG GCCTGGCAAA CACAGCCATT CGTTTAGAGT GAGAGCATCT AGTGATGGAG AGGGCACCAT GTCCAGGCCG GCATCTGTGG ACGGGAGTCC AAGCAGCCCG AGCAATGCCC GACCTCAATC GCAACGGCAC AGAGGGGGAT CCAGACTTCA CCCGCCACTC AATCACAGCA GATCAATACC CACGCCCACC TCACGGTGCT CCCCCTCAGC CATCAGCCCC ATCAGCCTGT CCTCCAGCAG CACGAGCGGG CATGGCTCCA CATCTGACTG CCTCTTTCCA CGTCGCTCTA GTGCCTCGAT ATCTGGATCA CCCAGCGATG GCGGATTCAT CTCCTCAGAT GAATATGGAT CCAGCCCCTG TGACTTTCGA AGCTCGTTTC GTAGCGTGAC TCCAGACTCG CTTGGCCACA CACCACCTGC CAGGGAGGAA GAGATAAACA ACTACATCTG CATGGCAAAG CCCGGTTCAC TTCCTGGTGC CGGGAGCCAG TCACGAAGCC AATCTAGAGG AACACCGTCA AGACTAGAGG AGCCTGAGTT GGAAAAATGT TTTCGGAAAA GAACTCATTC TTCTGGTGCT TCGCCGCCAA CTCCATGCCA TCAGAAAACT CCCTCACAAT CGCCTGCTGC ATCTTTAGAG GAATACACTG TGATGATGCC TACATACCCA CGAAGCCGCT CTGCATCATC GTCATCATCA ACATATAGGC ACTCATTCAT GCCAACACAT TCATACCCAG AGGAAGGTAC AGATGCATCA CAAGCAAAAG ATGAAAGGGG GCCAGATCAC AAAGATGACG GCTATATGCC CATGCTGCCA GGCGTTGCGC CTGCAACCCC TACAACCAAA AGCAGTGACT ACATGCCCAT GAGTCCAAAA AGTGTGTCTG CACCACAGCA AATTATCAAC CCCAGGCAAC ACTCGCATGT CGACTCCAAT GGTTACATGA TGATGTCACC AAGTGGCAGC TGCTCTCCAG ATGGCACAAC AAACTATGGC AAGATCTGGA CGAATGGCAT CAACCCTAAG CTCTCCGTAG AGAGTATGGA AGGTAAAGTG TCGTCATGTG GAGATTACAT AAACATGTCT CCAGCTAGTT GCTCAACAAC AAGTACGCCT CCAGACTGCT TTTTCAACCC TGTGGAAGAT CCTCCCAGGC CTATGTATGC TTACTACTCT TTGCCCCGCT CATTCAAACA TGCTAACAGG AAGCAGGATC AGAGCCCGCT TCGAGTGTCA CTGGGCTCGA GTCGATTAGC ATACGCTGAC TCCTCTTCAT CTTCAGCAAG CAGTGACAGC TTGGGTGGTC AAAGCAATTC CCAGCAGTCT GCTGTCAAAC CCAAAAGGTC AGAGGGCAAC GGTAGGCTGA CACGTCCAAC ACGGCTGTCA CTGGACGCCA GCAAAGCAAG TACTCTTCCA CGCACACGTG AGAGCCCCTT CCCTCCTGAG CCTAAAAGTC CTGGGGAGTA TGTCAACATT GAGTTCAACG ACAAGGCATT TTCAGCGAGC TTAGCATCGC TGTTCCCACC TGTTTATTCA GTAAGTGATG CTGAGGCCCC GTCGGATCTT TCATCATCTG AGTACATGAA CATGCAGCTG GGATCCCAGG CCAGACGGCT GTGCTCCGAA TTGCAGACTT CCTCTTCCAG TTCAGATTAT GCCATAATCA CACCGTCAAA CTCTGTATCC TCGCCTCCAC TGCCATGTGA GAGCATATGT GAACGTGACT ACATCAGCAT GCAGTTAGCA TCCTGCACTG GCTTTCCTGA CACACAATTG ATGCTAATGA CCGAGGCCCT GCCAGATGCA GATGCCCCTC CTTGTTCTGT ATCACCCAAT CATGACGTGA CGACATTAAG CGGCGCTCCT GGAAGACCAG CTCTGATTAG CCCTTTATCA GGTCTGAGTG CATTCACACG GGTTAACTCC ACTTCCGGAC GAAACCAGGG CGCTAAAGTA ATACGTGCTG ACCCACAGGG TCGACGGCGG CACAGTTCAG AGACTTTTGC ATCCACAGCG ACCAGAGGGT CAGTCGACAC ATCGAGCACC TGTCAATCAG GGGATGTAAA GCGCCACAGC TCCGCCTCCT TCGAGAATGT GTGGTTGAGA CCTGATCAGG CCTCTGCTGC TTCTACCGCT CCATCTGCAT CGACAGTAAC CAACGGACGA AGGGAAACCG CTTCAGGCCA AATTCCCACA TTAACAAACC ATGACCAGAA CGGCCTGAAC TACATTGATC TGGATCTAAT GCAGAATGGA GAGCAACATG TTCCTGATTG GAATGCTTTC CAGTCTCGGC CGGTGGAGCT GGGAGCTGTT GAAGGTATAG AAGAGCTCAG TGCCTATGCC AGTATAAACT TCCAGAAATC AGATGAGACC AGAGGGAATC TCACACACAG AGAAGAATGA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq |
XP_687702.4 |
CDS | 1007..4306 |
Translation | |
Target ORF information:
RefSeq Version | XM_682610.9 |
Organism | Danio rerio(zebrafish) |
Definition | Danio rerio insulin receptor substrate 1 (irs1), mRNA. |
Target ORF information:
Epitope | DYKDDDDK |
Bacterial selection | AMPR |
Mammalian selection | NeoR |
Vector | pcDNA3.1+/C-(K)DYK |
|
XM_682610.9 |
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
| ATGGCAAGCC CGACTACGGA GCAAGGATGT TTTTCAGACG TGAAAAAGGT GGGTTATTTA AGGAAACCCA AAAGCATGCA CAAAAGGTTT TTTGTACTGA GGGCGGCGAG CGCCTCCGGA CCGTCCCGAC TGGAGTACTA TGAAAACGAG AAGAAGTGGA GACACAAGTC TGGAGCGCCG AAAAGATCCA TTCCGCTGGA GAGCTGCTTT AACATCAACA AAAGAGCGGA TTCAAAAAAC AAACATCTCG TCGCGCTTTA TACCAAGGAT GAGTACTTTG CTATCGCTGC TGACAGCGAG ATCGAGCAAG AGTCATGGTA TGAAGCCCTG GTTGATCTCC ATAACAGAGG TAAGGTCCAC GAAACTGCCC CGGGCCGTGG AGTTGGCGAG GATAATTACG GGGAAGCCAC GCCGGGACCT GCCTTTAAAG AGGTTTGGCA AGTTATATTG AAACCAAAGG GTCTGGGTCA CACAAAGAAC TTGATTGGAG TTTACAGATT ATGCCTCACC AATAAGACTA TCAGCTTTGT GAAACTGAAT TCGGATGCAG CAGCTGTGGT TTTGCAGTTG ATGAACATTA GGAGATGTGG TCACTCTGAA AATTTCTTTT TTATTGAAGT CGGCCGATCT GCTGTGACAG GCCCCGGGGA GTTTTGGATG CAAGTGGATG ACTCTGTTGT GGCTCAGAAC ATGCATGAAA CTATATTAGA AGCCATGAAA GCCATGAGTG AGGAGTTCAG ACCCCGCAGC AAAAGCCAGT CATCTTCTAA CTGCTCAAAC CCCATCTCAG TGCCTGTCAG GCGGCATCAT CACAATAATC CTCCCCCTAG TCAAGTTGGC TTAGGCAGGC GCTCTCGGGC GGAGAGTGTG ACGGCCACTT CTCCTGTTAG GCCTGGCAAA CACAGCCATT CGTTTAGAGT GAGAGCATCT AGTGATGGAG AGGGCACCAT GTCCAGGCCG GCATCTGTGG ACGGGAGTCC AAGCAGCCCG AGCAATGCCC GACCTCAATC GCAACGGCAC AGAGGGGGAT CCAGACTTCA CCCGCCACTC AATCACAGCA GATCAATACC CACGCCCACC TCACGGTGCT CCCCCTCAGC CATCAGCCCC ATCAGCCTGT CCTCCAGCAG CACGAGCGGG CATGGCTCCA CATCTGACTG CCTCTTTCCA CGTCGCTCTA GTGCCTCGAT ATCTGGATCA CCCAGCGATG GCGGATTCAT CTCCTCAGAT GAATATGGAT CCAGCCCCTG TGACTTTCGA AGCTCGTTTC GTAGCGTGAC TCCAGACTCG CTTGGCCACA CACCACCTGC CAGGGAGGAA GAGATAAACA ACTACATCTG CATGGCAAAG CCCGGTTCAC TTCCTGGTGC CGGGAGCCAG TCACGAAGCC AATCTAGAGG AACACCGTCA AGACTAGAGG AGCCTGAGTT GGAAAAATGT TTTCGGAAAA GAACTCATTC TTCTGGTGCT TCGCCGCCAA CTCCATGCCA TCAGAAAACT CCCTCACAAT CGCCTGCTGC ATCTTTAGAG GAATACACTG TGATGATGCC TACATACCCA CGAAGCCGCT CTGCATCATC GTCATCATCA ACATATAGGC ACTCATTCAT GCCAACACAT TCATACCCAG AGGAAGGTAC AGATGCATCA CAAGCAAAAG ATGAAAGGGG GCCAGATCAC AAAGATGACG GCTATATGCC CATGCTGCCA GGCGTTGCGC CTGCAACCCC TACAACCAAA AGCAGTGACT ACATGCCCAT GAGTCCAAAA AGTGTGTCTG CACCACAGCA AATTATCAAC CCCAGGCAAC ACTCGCATGT CGACTCCAAT GGTTACATGA TGATGTCACC AAGTGGCAGC TGCTCTCCAG ATGGCACAAC AAACTATGGC AAGATCTGGA CGAATGGCAT CAACCCTAAG CTCTCCGTAG AGAGTATGGA AGGTAAAGTG TCGTCATGTG GAGATTACAT AAACATGTCT CCAGCTAGTT GCTCAACAAC AAGTACGCCT CCAGACTGCT TTTTCAACCC TGTGGAAGAT CCTCCCAGGC CTATGTATGC TTACTACTCT TTGCCCCGCT CATTCAAACA TGCTAACAGG AAGCAGGATC AGAGCCCGCT TCGAGTGTCA CTGGGCTCGA GTCGATTAGC ATACGCTGAC TCCTCTTCAT CTTCAGCAAG CAGTGACAGC TTGGGTGGTC AAAGCAATTC CCAGCAGTCT GCTGTCAAAC CCAAAAGGTC AGAGGGCAAC GGTAGGCTGA CACGTCCAAC ACGGCTGTCA CTGGACGCCA GCAAAGCAAG TACTCTTCCA CGCACACGTG AGAGCCCCTT CCCTCCTGAG CCTAAAAGTC CTGGGGAGTA TGTCAACATT GAGTTCAACG ACAAGGCATT TTCAGCGAGC TTAGCATCGC TGTTCCCACC TGTTTATTCA GTAAGTGATG CTGAGGCCCC GTCGGATCTT TCATCATCTG AGTACATGAA CATGCAGCTG GGATCCCAGG CCAGACGGCT GTGCTCCGAA TTGCAGACTT CCTCTTCCAG TTCAGATTAT GCCATAATCA CACCGTCAAA CTCTGTATCC TCGCCTCCAC TGCCATGTGA GAGCATATGT GAACGTGACT ACATCAGCAT GCAGTTAGCA TCCTGCACTG GCTTTCCTGA CACACAATTG ATGCTAATGA CCGAGGCCCT GCCAGATGCA GATGCCCCTC CTTGTTCTGT ATCACCCAAT CATGACGTGA CGACATTAAG CGGCGCTCCT GGAAGACCAG CTCTGATTAG CCCTTTATCA GGTCTGAGTG CATTCACACG GGTTAACTCC ACTTCCGGAC GAAACCAGGG CGCTAAAGTA ATACGTGCTG ACCCACAGGG TCGACGGCGG CACAGTTCAG AGACTTTTGC ATCCACAGCG ACCAGAGGGT CAGTCGACAC ATCGAGCACC TGTCAATCAG GGGATGTAAA GCGCCACAGC TCCGCCTCCT TCGAGAATGT GTGGTTGAGA CCTGATCAGG CCTCTGCTGC TTCTACCGCT CCATCTGCAT CGACAGTAAC CAACGGACGA AGGGAAACCG CTTCAGGCCA AATTCCCACA TTAACAAACC ATGACCAGAA CGGCCTGAAC TACATTGATC TGGATCTAAT GCAGAATGGA GAGCAACATG TTCCTGATTG GAATGCTTTC CAGTCTCGGC CGGTGGAGCT GGGAGCTGTT GAAGGTATAG AAGAGCTCAG TGCCTATGCC AGTATAAACT TCCAGAAATC AGATGAGACC AGAGGGAATC TCACACACAG AGAAGAATGA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID |
ODa20737 |
Clone ID Related Accession (Same CDS sequence) |
XM_682610.9
, XM_682610.8
|
Accession Version |
XM_682610.8 |
Documents for ORF clone product in default vector |
Sequence Information |
ORF Nucleotide Sequence (Length: 3300bp)
Protein sequence
SNP |
Vector |
pcDNA3.1+/C-(K)DYK or customized vector |
User Manual |
Clone information |
Clone Map |
MSDS |
Tag on pcDNA3.1+/C-(K)DYK |
C terminal DYKDDDDK tags |
ORF Insert Method |
CloneEZ™ Seamless cloning technology |
Insert Structure |
linear |
Update Date |
2016-06-23 |
Organism |
Danio rerio(Zebrafish) |
Product |
insulin receptor substrate 1 |
Comment |
MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_007126.6) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process
On Jun 24, 2016 this sequence version replaced XM_682610.7.
##Genome-Annotation-Data-START##
Annotation Provider :: NCBI
Annotation Status :: Full annotation
Annotation Version :: Danio rerio Annotation Release 105
Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline
Annotation Software Version :: 7.1
Annotation Method :: Best-placed RefSeq; Gnomon
Features Annotated :: Gene; mRNA; CDS; ncRNA
##Genome-Annotation-Data-END##
|
1 61 121 181 241 301 361 421 481 541 601 661 721 781 841 901 961 1021 1081 1141 1201 1261 1321 1381 1441 1501 1561 1621 1681 1741 1801 1861 1921 1981 2041 2101 2161 2221 2281 2341 2401 2461 2521 2581 2641 2701 2761 2821 2881 2941 3001 3061 3121 3181 3241
| ATGGCAAGCC CGACTACGGA GCAAGGATGT TTTTCAGACG TGAAAAAGGT GGGTTATTTA AGGAAACCCA AAAGCATGCA CAAAAGGTTT TTTGTACTGA GGGCGGCGAG CGCCTCCGGA CCGTCCCGAC TGGAGTACTA TGAAAACGAG AAGAAGTGGA GACACAAGTC TGGAGCGCCG AAAAGATCCA TTCCGCTGGA GAGCTGCTTT AACATCAACA AAAGAGCGGA TTCAAAAAAC AAACATCTCG TCGCGCTTTA TACCAAGGAT GAGTACTTTG CTATCGCTGC TGACAGCGAG ATCGAGCAAG AGTCATGGTA TGAAGCCCTG GTTGATCTCC ATAACAGAGG TAAGGTCCAC GAAACTGCCC CGGGCCGTGG AGTTGGCGAG GATAATTACG GGGAAGCCAC GCCGGGACCT GCCTTTAAAG AGGTTTGGCA AGTTATATTG AAACCAAAGG GTCTGGGTCA CACAAAGAAC TTGATTGGAG TTTACAGATT ATGCCTCACC AATAAGACTA TCAGCTTTGT GAAACTGAAT TCGGATGCAG CAGCTGTGGT TTTGCAGTTG ATGAACATTA GGAGATGTGG TCACTCTGAA AATTTCTTTT TTATTGAAGT CGGCCGATCT GCTGTGACAG GCCCCGGGGA GTTTTGGATG CAAGTGGATG ACTCTGTTGT GGCTCAGAAC ATGCATGAAA CTATATTAGA AGCCATGAAA GCCATGAGTG AGGAGTTCAG ACCCCGCAGC AAAAGCCAGT CATCTTCTAA CTGCTCAAAC CCCATCTCAG TGCCTGTCAG GCGGCATCAT CACAATAATC CTCCCCCTAG TCAAGTTGGC TTAGGCAGGC GCTCTCGGGC GGAGAGTGTG ACGGCCACTT CTCCTGTTAG GCCTGGCAAA CACAGCCATT CGTTTAGAGT GAGAGCATCT AGTGATGGAG AGGGCACCAT GTCCAGGCCG GCATCTGTGG ACGGGAGTCC AAGCAGCCCG AGCAATGCCC GACCTCAATC GCAACGGCAC AGAGGGGGAT CCAGACTTCA CCCGCCACTC AATCACAGCA GATCAATACC CACGCCCACC TCACGGTGCT CCCCCTCAGC CATCAGCCCC ATCAGCCTGT CCTCCAGCAG CACGAGCGGG CATGGCTCCA CATCTGACTG CCTCTTTCCA CGTCGCTCTA GTGCCTCGAT ATCTGGATCA CCCAGCGATG GCGGATTCAT CTCCTCAGAT GAATATGGAT CCAGCCCCTG TGACTTTCGA AGCTCGTTTC GTAGCGTGAC TCCAGACTCG CTTGGCCACA CACCACCTGC CAGGGAGGAA GAGATAAACA ACTACATCTG CATGGCAAAG CCCGGTTCAC TTCCTGGTGC CGGGAGCCAG TCACGAAGCC AATCTAGAGG AACACCGTCA AGACTAGAGG AGCCTGAGTT GGAAAAATGT TTTCGGAAAA GAACTCATTC TTCTGGTGCT TCGCCGCCAA CTCCATGCCA TCAGAAAACT CCCTCACAAT CGCCTGCTGC ATCTTTAGAG GAATACACTG TGATGATGCC TACATACCCA CGAAGCCGCT CTGCATCATC GTCATCATCA ACATATAGGC ACTCATTCAT GCCAACACAT TCATACCCAG AGGAAGGTAC AGATGCATCA CAAGCAAAAG ATGAAAGGGG GCCAGATCAC AAAGATGACG GCTATATGCC CATGCTGCCA GGCGTTGCGC CTGCAACCCC TACAACCAAA AGCAGTGACT ACATGCCCAT GAGTCCAAAA AGTGTGTCTG CACCACAGCA AATTATCAAC CCCAGGCAAC ACTCGCATGT CGACTCCAAT GGTTACATGA TGATGTCACC AAGTGGCAGC TGCTCTCCAG ATGGCACAAC AAACTATGGC AAGATCTGGA CGAATGGCAT CAACCCTAAG CTCTCCGTAG AGAGTATGGA AGGTAAAGTG TCGTCATGTG GAGATTACAT AAACATGTCT CCAGCTAGTT GCTCAACAAC AAGTACGCCT CCAGACTGCT TTTTCAACCC TGTGGAAGAT CCTCCCAGGC CTATGTATGC TTACTACTCT TTGCCCCGCT CATTCAAACA TGCTAACAGG AAGCAGGATC AGAGCCCGCT TCGAGTGTCA CTGGGCTCGA GTCGATTAGC ATACGCTGAC TCCTCTTCAT CTTCAGCAAG CAGTGACAGC TTGGGTGGTC AAAGCAATTC CCAGCAGTCT GCTGTCAAAC CCAAAAGGTC AGAGGGCAAC GGTAGGCTGA CACGTCCAAC ACGGCTGTCA CTGGACGCCA GCAAAGCAAG TACTCTTCCA CGCACACGTG AGAGCCCCTT CCCTCCTGAG CCTAAAAGTC CTGGGGAGTA TGTCAACATT GAGTTCAACG ACAAGGCATT TTCAGCGAGC TTAGCATCGC TGTTCCCACC TGTTTATTCA GTAAGTGATG CTGAGGCCCC GTCGGATCTT TCATCATCTG AGTACATGAA CATGCAGCTG GGATCCCAGG CCAGACGGCT GTGCTCCGAA TTGCAGACTT CCTCTTCCAG TTCAGATTAT GCCATAATCA CACCGTCAAA CTCTGTATCC TCGCCTCCAC TGCCATGTGA GAGCATATGT GAACGTGACT ACATCAGCAT GCAGTTAGCA TCCTGCACTG GCTTTCCTGA CACACAATTG ATGCTAATGA CCGAGGCCCT GCCAGATGCA GATGCCCCTC CTTGTTCTGT ATCACCCAAT CATGACGTGA CGACATTAAG CGGCGCTCCT GGAAGACCAG CTCTGATTAG CCCTTTATCA GGTCTGAGTG CATTCACACG GGTTAACTCC ACTTCCGGAC GAAACCAGGG CGCTAAAGTA ATACGTGCTG ACCCACAGGG TCGACGGCGG CACAGTTCAG AGACTTTTGC ATCCACAGCG ACCAGAGGGT CAGTCGACAC ATCGAGCACC TGTCAATCAG GGGATGTAAA GCGCCACAGC TCCGCCTCCT TCGAGAATGT GTGGTTGAGA CCTGATCAGG CCTCTGCTGC TTCTACCGCT CCATCTGCAT CGACAGTAAC CAACGGACGA AGGGAAACCG CTTCAGGCCA AATTCCCACA TTAACAAACC ATGACCAGAA CGGCCTGAAC TACATTGATC TGGATCTAAT GCAGAATGGA GAGCAACATG TTCCTGATTG GAATGCTTTC CAGTCTCGGC CGGTGGAGCT GGGAGCTGTT GAAGGTATAG AAGAGCTCAG TGCCTATGCC AGTATAAACT TCCAGAAATC AGATGAGACC AGAGGGAATC TCACACACAG AGAAGAATGA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq |
XP_687702.4 |
CDS | 1011..4310 |
Translation | |
Target ORF information:
RefSeq Version | XM_682610.8 |
Organism | Danio rerio(Zebrafish) |
Definition | Danio rerio insulin receptor substrate 1 (irs1), mRNA. |
Target ORF information:
Epitope | DYKDDDDK |
Bacterial selection | AMPR |
Mammalian selection | NeoR |
Vector | pcDNA3.1+/C-(K)DYK |
|
XM_682610.8 |
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
| ATGGCAAGCC CGACTACGGA GCAAGGATGT TTTTCAGACG TGAAAAAGGT GGGTTATTTA AGGAAACCCA AAAGCATGCA CAAAAGGTTT TTTGTACTGA GGGCGGCGAG CGCCTCCGGA CCGTCCCGAC TGGAGTACTA TGAAAACGAG AAGAAGTGGA GACACAAGTC TGGAGCGCCG AAAAGATCCA TTCCGCTGGA GAGCTGCTTT AACATCAACA AAAGAGCGGA TTCAAAAAAC AAACATCTCG TCGCGCTTTA TACCAAGGAT GAGTACTTTG CTATCGCTGC TGACAGCGAG ATCGAGCAAG AGTCATGGTA TGAAGCCCTG GTTGATCTCC ATAACAGAGG TAAGGTCCAC GAAACTGCCC CGGGCCGTGG AGTTGGCGAG GATAATTACG GGGAAGCCAC GCCGGGACCT GCCTTTAAAG AGGTTTGGCA AGTTATATTG AAACCAAAGG GTCTGGGTCA CACAAAGAAC TTGATTGGAG TTTACAGATT ATGCCTCACC AATAAGACTA TCAGCTTTGT GAAACTGAAT TCGGATGCAG CAGCTGTGGT TTTGCAGTTG ATGAACATTA GGAGATGTGG TCACTCTGAA AATTTCTTTT TTATTGAAGT CGGCCGATCT GCTGTGACAG GCCCCGGGGA GTTTTGGATG CAAGTGGATG ACTCTGTTGT GGCTCAGAAC ATGCATGAAA CTATATTAGA AGCCATGAAA GCCATGAGTG AGGAGTTCAG ACCCCGCAGC AAAAGCCAGT CATCTTCTAA CTGCTCAAAC CCCATCTCAG TGCCTGTCAG GCGGCATCAT CACAATAATC CTCCCCCTAG TCAAGTTGGC TTAGGCAGGC GCTCTCGGGC GGAGAGTGTG ACGGCCACTT CTCCTGTTAG GCCTGGCAAA CACAGCCATT CGTTTAGAGT GAGAGCATCT AGTGATGGAG AGGGCACCAT GTCCAGGCCG GCATCTGTGG ACGGGAGTCC AAGCAGCCCG AGCAATGCCC GACCTCAATC GCAACGGCAC AGAGGGGGAT CCAGACTTCA CCCGCCACTC AATCACAGCA GATCAATACC CACGCCCACC TCACGGTGCT CCCCCTCAGC CATCAGCCCC ATCAGCCTGT CCTCCAGCAG CACGAGCGGG CATGGCTCCA CATCTGACTG CCTCTTTCCA CGTCGCTCTA GTGCCTCGAT ATCTGGATCA CCCAGCGATG GCGGATTCAT CTCCTCAGAT GAATATGGAT CCAGCCCCTG TGACTTTCGA AGCTCGTTTC GTAGCGTGAC TCCAGACTCG CTTGGCCACA CACCACCTGC CAGGGAGGAA GAGATAAACA ACTACATCTG CATGGCAAAG CCCGGTTCAC TTCCTGGTGC CGGGAGCCAG TCACGAAGCC AATCTAGAGG AACACCGTCA AGACTAGAGG AGCCTGAGTT GGAAAAATGT TTTCGGAAAA GAACTCATTC TTCTGGTGCT TCGCCGCCAA CTCCATGCCA TCAGAAAACT CCCTCACAAT CGCCTGCTGC ATCTTTAGAG GAATACACTG TGATGATGCC TACATACCCA CGAAGCCGCT CTGCATCATC GTCATCATCA ACATATAGGC ACTCATTCAT GCCAACACAT TCATACCCAG AGGAAGGTAC AGATGCATCA CAAGCAAAAG ATGAAAGGGG GCCAGATCAC AAAGATGACG GCTATATGCC CATGCTGCCA GGCGTTGCGC CTGCAACCCC TACAACCAAA AGCAGTGACT ACATGCCCAT GAGTCCAAAA AGTGTGTCTG CACCACAGCA AATTATCAAC CCCAGGCAAC ACTCGCATGT CGACTCCAAT GGTTACATGA TGATGTCACC AAGTGGCAGC TGCTCTCCAG ATGGCACAAC AAACTATGGC AAGATCTGGA CGAATGGCAT CAACCCTAAG CTCTCCGTAG AGAGTATGGA AGGTAAAGTG TCGTCATGTG GAGATTACAT AAACATGTCT CCAGCTAGTT GCTCAACAAC AAGTACGCCT CCAGACTGCT TTTTCAACCC TGTGGAAGAT CCTCCCAGGC CTATGTATGC TTACTACTCT TTGCCCCGCT CATTCAAACA TGCTAACAGG AAGCAGGATC AGAGCCCGCT TCGAGTGTCA CTGGGCTCGA GTCGATTAGC ATACGCTGAC TCCTCTTCAT CTTCAGCAAG CAGTGACAGC TTGGGTGGTC AAAGCAATTC CCAGCAGTCT GCTGTCAAAC CCAAAAGGTC AGAGGGCAAC GGTAGGCTGA CACGTCCAAC ACGGCTGTCA CTGGACGCCA GCAAAGCAAG TACTCTTCCA CGCACACGTG AGAGCCCCTT CCCTCCTGAG CCTAAAAGTC CTGGGGAGTA TGTCAACATT GAGTTCAACG ACAAGGCATT TTCAGCGAGC TTAGCATCGC TGTTCCCACC TGTTTATTCA GTAAGTGATG CTGAGGCCCC GTCGGATCTT TCATCATCTG AGTACATGAA CATGCAGCTG GGATCCCAGG CCAGACGGCT GTGCTCCGAA TTGCAGACTT CCTCTTCCAG TTCAGATTAT GCCATAATCA CACCGTCAAA CTCTGTATCC TCGCCTCCAC TGCCATGTGA GAGCATATGT GAACGTGACT ACATCAGCAT GCAGTTAGCA TCCTGCACTG GCTTTCCTGA CACACAATTG ATGCTAATGA CCGAGGCCCT GCCAGATGCA GATGCCCCTC CTTGTTCTGT ATCACCCAAT CATGACGTGA CGACATTAAG CGGCGCTCCT GGAAGACCAG CTCTGATTAG CCCTTTATCA GGTCTGAGTG CATTCACACG GGTTAACTCC ACTTCCGGAC GAAACCAGGG CGCTAAAGTA ATACGTGCTG ACCCACAGGG TCGACGGCGG CACAGTTCAG AGACTTTTGC ATCCACAGCG ACCAGAGGGT CAGTCGACAC ATCGAGCACC TGTCAATCAG GGGATGTAAA GCGCCACAGC TCCGCCTCCT TCGAGAATGT GTGGTTGAGA CCTGATCAGG CCTCTGCTGC TTCTACCGCT CCATCTGCAT CGACAGTAAC CAACGGACGA AGGGAAACCG CTTCAGGCCA AATTCCCACA TTAACAAACC ATGACCAGAA CGGCCTGAAC TACATTGATC TGGATCTAAT GCAGAATGGA GAGCAACATG TTCCTGATTG GAATGCTTTC CAGTCTCGGC CGGTGGAGCT GGGAGCTGTT GAAGGTATAG AAGAGCTCAG TGCCTATGCC AGTATAAACT TCCAGAAATC AGATGAGACC AGAGGGAATC TCACACACAG AGAAGAATGA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.