The following A1O3_08606 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the A1O3_08606 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.
1 61 121 181 241 301 361 421 481 541 601 661 721 781 841 901 961 1021 1081 1141 1201 1261 1321 1381 1441 1501 1561 1621 1681 1741 1801 1861 1921 1981 2041 2101 2161 2221 2281 2341 2401 2461 2521 2581 2641 2701 2761 2821 2881 2941 3001 3061 3121 3181 3241 3301 3361 3421 3481 3541 3601 3661 3721
| ATGCAGCAGC CTCCATCACC ATCACCTCGG TGGCCTAGAA GCAAGGTCTC CGACGGCAAA CACCAGATCC AAGCAATATT CCTGGAAGGC GCCGCTGCAA TCATTTCACG AATCTACTCG CAATCGACCT CCGATGGCGG CCGAATAGTG GCTATCCGAG TCAAGGACCC TCTCATCAAC ATTACTGTCC ATTGCGATCC TCCGAAGGCT GAATTACATA TCAATTCGGT TGAGATTGTG AACATCGGGA ACGATACAAC CGGCACACTA CCTGTTGGCT CAACAGTCCT CGAAGACAAG GTAGTCAGAC GCACTCTAGC TCAATACGGA CTTTTCAAGT CGGACCGCGG GAGGGACGGG ATTACAATGG CGAGTAGCCC TCAGTCCATC AAATCGCAGG CAGGATGCAG TCCGATCCAG GATAGGAACA TCGCACTTCA GGATGACATA CCACCGTCTC AATCGCAATT CTGGACCCAA ATTCACGGTG CAGCACGGCG AACTGAACAT GATTCAGCAA CTACCGTTGT GACCAGTGAC AACACTCCTC TTCTAAAGTT GTTGAAGGCT CCAACGCTAA AGGATGCGGC AGCAAAACCC ACCCTCTTTA CTAGCCAGGC CCAAGATGAG GATGAGAATT CACTAGCTTC GCTAGCAGGA GTAGAGAAAC CTGAAGAGCT AGTTCCAATC GCTCCAGAAG TATCCTTCAA AACCGCCACC CCTATCGTTT CTGCACCTCT TCCCGATCCT TTGATAAATC AGGCAAAGGA TGAAGGAATC GAATTGGTCT CAAATCACAC TATTTCTGGA ACAAAGTCCA AGTCCCATCA GTTGCAGCCG CCAGAGTTAA GCGGTACTTC AACCCACCCA CAGCAAAACA TCTCTCCAGC TGTTTCAAAT GAACAGTTCC GGCATTTTCA GCGGTGGCGC CAGCAGGCAA GAGCAGGAAA ATACGTGCCG AGATACATTC AGATGATTCC CAAGGATCAG GAGAAACTCT TAGTATCTAG CGATAGCTGG CAACCGCCTC TTGTTGGCCA CCCGATAATA CCGGGACAAG TACCGACGCT TCTTCTGGAA CGCCTGACCG ATGCTGCTGA TAACCCAGAG GCTGATAACC CAGAGGAAGC GGGTGTCATT CCGGAACCTC CGCCGAGTTC ACACGGTAAT GAGGACCAAA CAAACACCGA CAATGATGCA AGTAACGATG GCCCATCTGA CAGCGAGGCG GAAGAAAACT CCAGCGAGAC TGACGCATCG CCTGTTTCAT GGTCTCCAAG TCCTACACCT GAACAACGTA GGATGGCATT GCCTCCAGAT AGTCCACCGG TGCTTCTGCA CCAGCTGAAT CGAAACATGA AAGACCTAGG CCCTCCTTCC CGGCAGGTTG ACGAGTCAGG CACACTCGAA AAACAATCAA TGGCTCGTGC TGGTGACTCT ATGGATGCTG ACTGCAAACC CGGTGGTCAA GTTTGCGATC TAAACGAATC TTCATTAGAA ACACCGCTGG CCAGTATGGA ACAAATCGGC TCCGATCCCC TGGGTCAGCA GATCCGACCA CACACGCAAC CGGTCCAGGA AGCCGGGGAT GATGAAATGG ACGCTGGCCA ACTGGACGAG CTTGCTGCTC TCCCGACGAA CCCAGTACTA GTCTCCAGTG CGAAGGTGGT GCAGGTTGAG CAGACACCAT ATTTCCGGAG AGGATTCAGC CATGAGCGAC TCGAATCCGC ACTCACGCAT AGTAGATCAC AAGATGCACT GCTAAGCAAC GATCACTGGA TATCATCAAG CTTCATTCCA GGATCTGTCG ACGAAACAGC GCCTGTGGGT TATCTACCTT CGACAAAAGG GTTTAACCTC CGTGGAATGG CCCAAGGACA TATGCCGGAA CTGGGGAGAA TAGATGCTAC TGGTAGGGAC AGCGAACCAG ATCTCAGGGC GGACCGAAGT CAGACTATAC ATGCAGTTGG GACTTTGGAG CTCGTCAATT GTGAGGATCA ATCTACGACA TACCTGGAAG AGCAGACAAA CTCCGATGGC CGTACGAATG GTTCCAAAAA GCTCGATGTC CGAGATCGTC CAGCGGAGGC CCCTGGGACC ACATCAGGAC ACCACGGTGA TTCTGTTCTC AAATCTGGGG ACAAGGACAG TCTCCAGCGT CGCGGGCTTT CAGTGGACTT GGATCCACAA CCACTGAACG AGGGGCTCCG AAGGCCCAGC CCATCTCTGA CAGTTTCAGA GCCAGGGTCC AATCTAGGCT CGCTTACAGC GAGGAAGGAG AAGCAGTCCC AAGTCAAGAG GAAACCACCG GGTGTCGAAG GCGTGGGTCG CCCAAACAAA AGACCACGGA CAGAGACGAC CGCTCACGAT AACAATGTGC CCGACGAGGA CTACGACGCA GTATTCCCAA AGCTCAGAGA GTATCGCCGA GAGACTTTGC CATCCTTGAG CAAGCCAAAA TTCTCCAGAG TTCATGCAGC CTCGTCATCA CCGAAAGACC CTGGCGGAGA CGGTGACGTG TCCCGGGTGA GAGCCATTCC TTCTCCCGCC AGAGGGCAGA ACGTGACACC AGGATCGGCC GTGGCATCAC GAACCTCCTC CTCGACACCA CTCACCCGCA TGTCCACATA TAATGAAATC GAACAGACGG AGGTCAGGAC TCTACGGCGT GAATCCGATT CCGCAATATC AGATCTTTCT TCTCGTGGCC AGGAGATGTT GTTTTTCGAT TTCAAGTCCG CTTACCCTGA TTATGAGGGA ACTATCAAGG ATTTTACTGG ATCATGCCGC GTGCTCAGCA AGATGATGAC TTGTGGTCAA GTGCTGCATC CGTCTCTTTA CGATGATGCC ATCTTCCATC ATTACCACAG CTACCGACGG TATCTGAGTG AGGAGGCGTT GAATTGCGCC GTGCCCCTAC CATTCTATGA CTTCTACAAT GAGCGCGTTG ACGAGCCATC TCACTCGCAA AGGATAGTGA CCAGATCAGC TCTTCATTAT ATGCTAGGGA GTGGTGGGCC CTCTGATGGT GCCCTCAACA ACATGCGAGA GCGGGGTGTT TTCCATCCTA GCACTTCGCC AGAGGTGGCT AGGGCAGAAT CAAAGACGAG TAAAGGGAGG GTTTCTTCCA CTCTCAGGCG TACCTCGGGA CAAGATGTAC GCGACGTTGA TACACCTCAT CGGCCCAGGG ATGCTGTGGA GGAATGGCGT CAAGACGCTT GGGGAACAGC ATCCCCTGAG CTTGGAACGC CTGACATTGA CCGAAGCTTG TCGGATATCC CTGTTCTAGA CATATCGGTC GACGACAACC AGAGTCCAGC ATCTGGATCC GCACCTGCAT CTGCATCAAT GGGCATAGGA ACGGGCATGG GTCCACCGCG AGGGTCCAAG AAACGCAGTC TTCCGTGGGA TCCGAAGGTG GTGGAATCAA AGGGAATGCC CAAGAGCAGA AGCTCATTGG CATCGACGCC TCATGTTTCT AAACGACCAA GACTCTCAGC TAGTCCGTTT GTGAGACCGG CAAAACCAGC GGCGGCCACG GTCAAAGCAC AATCACAGCA CAGGGAGAAA TCTCAGTCAG GTGTAGGGGC AGGGACAGGG GCAGGAGGAG CGACGAAGAT GGGACCAAAT TGGTGGAAGG ACACAGACAC GCCATTCAAG AGATTTATGG ATGGTTATTC CCGGTTGAAA TCCAACAAAC AAGAGTTCAG TTGGGATGCC ATTGGACTTG AGAAGCCCCG GGTTGGAGGG ATCGACCTTT TTGCTTGGAG GAGGTGA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq |
XP_007736893.1 |
CDS | 1..3777 |
Translation | |
Target ORF information:
RefSeq Version | XM_007738703.1 |
Organism | Capronia epimyces CBS 606.96 |
Definition | Capronia epimyces CBS 606.96 hypothetical protein partial mRNA. |
Target ORF information:
Epitope | DYKDDDDK |
Bacterial selection | AMPR |
Mammalian selection | NeoR |
Vector | pcDNA3.1+/C-(K)DYK |
|
XM_007738703.1 |
ORF Insert Sequence:
1 61 121 181 241 301 361 421 481 541 601 661 721 781 841 901 961 1021 1081 1141 1201 1261 1321 1381 1441 1501 1561 1621 1681 1741 1801 1861 1921 1981 2041 2101 2161 2221 2281 2341 2401 2461 2521 2581 2641 2701 2761 2821 2881 2941 3001 3061 3121 3181 3241 3301 3361 3421 3481 3541 3601 3661 3721
| ATGCAGCAGC CTCCATCACC ATCACCTCGG TGGCCTAGAA GCAAGGTCTC CGACGGCAAA CACCAGATCC AAGCAATATT CCTGGAAGGC GCCGCTGCAA TCATTTCACG AATCTACTCG CAATCGACCT CCGATGGCGG CCGAATAGTG GCTATCCGAG TCAAGGACCC TCTCATCAAC ATTACTGTCC ATTGCGATCC TCCGAAGGCT GAATTACATA TCAATTCGGT TGAGATTGTG AACATCGGGA ACGATACAAC CGGCACACTA CCTGTTGGCT CAACAGTCCT CGAAGACAAG GTAGTCAGAC GCACTCTAGC TCAATACGGA CTTTTCAAGT CGGACCGCGG GAGGGACGGG ATTACAATGG CGAGTAGCCC TCAGTCCATC AAATCGCAGG CAGGATGCAG TCCGATCCAG GATAGGAACA TCGCACTTCA GGATGACATA CCACCGTCTC AATCGCAATT CTGGACCCAA ATTCACGGTG CAGCACGGCG AACTGAACAT GATTCAGCAA CTACCGTTGT GACCAGTGAC AACACTCCTC TTCTAAAGTT GTTGAAGGCT CCAACGCTAA AGGATGCGGC AGCAAAACCC ACCCTCTTTA CTAGCCAGGC CCAAGATGAG GATGAGAATT CACTAGCTTC GCTAGCAGGA GTAGAGAAAC CTGAAGAGCT AGTTCCAATC GCTCCAGAAG TATCCTTCAA AACCGCCACC CCTATCGTTT CTGCACCTCT TCCCGATCCT TTGATAAATC AGGCAAAGGA TGAAGGAATC GAATTGGTCT CAAATCACAC TATTTCTGGA ACAAAGTCCA AGTCCCATCA GTTGCAGCCG CCAGAGTTAA GCGGTACTTC AACCCACCCA CAGCAAAACA TCTCTCCAGC TGTTTCAAAT GAACAGTTCC GGCATTTTCA GCGGTGGCGC CAGCAGGCAA GAGCAGGAAA ATACGTGCCG AGATACATTC AGATGATTCC CAAGGATCAG GAGAAACTCT TAGTATCTAG CGATAGCTGG CAACCGCCTC TTGTTGGCCA CCCGATAATA CCGGGACAAG TACCGACGCT TCTTCTGGAA CGCCTGACCG ATGCTGCTGA TAACCCAGAG GCTGATAACC CAGAGGAAGC GGGTGTCATT CCGGAACCTC CGCCGAGTTC ACACGGTAAT GAGGACCAAA CAAACACCGA CAATGATGCA AGTAACGATG GCCCATCTGA CAGCGAGGCG GAAGAAAACT CCAGCGAGAC TGACGCATCG CCTGTTTCAT GGTCTCCAAG TCCTACACCT GAACAACGTA GGATGGCATT GCCTCCAGAT AGTCCACCGG TGCTTCTGCA CCAGCTGAAT CGAAACATGA AAGACCTAGG CCCTCCTTCC CGGCAGGTTG ACGAGTCAGG CACACTCGAA AAACAATCAA TGGCTCGTGC TGGTGACTCT ATGGATGCTG ACTGCAAACC CGGTGGTCAA GTTTGCGATC TAAACGAATC TTCATTAGAA ACACCGCTGG CCAGTATGGA ACAAATCGGC TCCGATCCCC TGGGTCAGCA GATCCGACCA CACACGCAAC CGGTCCAGGA AGCCGGGGAT GATGAAATGG ACGCTGGCCA ACTGGACGAG CTTGCTGCTC TCCCGACGAA CCCAGTACTA GTCTCCAGTG CGAAGGTGGT GCAGGTTGAG CAGACACCAT ATTTCCGGAG AGGATTCAGC CATGAGCGAC TCGAATCCGC ACTCACGCAT AGTAGATCAC AAGATGCACT GCTAAGCAAC GATCACTGGA TATCATCAAG CTTCATTCCA GGATCTGTCG ACGAAACAGC GCCTGTGGGT TATCTACCTT CGACAAAAGG GTTTAACCTC CGTGGAATGG CCCAAGGACA TATGCCGGAA CTGGGGAGAA TAGATGCTAC TGGTAGGGAC AGCGAACCAG ATCTCAGGGC GGACCGAAGT CAGACTATAC ATGCAGTTGG GACTTTGGAG CTCGTCAATT GTGAGGATCA ATCTACGACA TACCTGGAAG AGCAGACAAA CTCCGATGGC CGTACGAATG GTTCCAAAAA GCTCGATGTC CGAGATCGTC CAGCGGAGGC CCCTGGGACC ACATCAGGAC ACCACGGTGA TTCTGTTCTC AAATCTGGGG ACAAGGACAG TCTCCAGCGT CGCGGGCTTT CAGTGGACTT GGATCCACAA CCACTGAACG AGGGGCTCCG AAGGCCCAGC CCATCTCTGA CAGTTTCAGA GCCAGGGTCC AATCTAGGCT CGCTTACAGC GAGGAAGGAG AAGCAGTCCC AAGTCAAGAG GAAACCACCG GGTGTCGAAG GCGTGGGTCG CCCAAACAAA AGACCACGGA CAGAGACGAC CGCTCACGAT AACAATGTGC CCGACGAGGA CTACGACGCA GTATTCCCAA AGCTCAGAGA GTATCGCCGA GAGACTTTGC CATCCTTGAG CAAGCCAAAA TTCTCCAGAG TTCATGCAGC CTCGTCATCA CCGAAAGACC CTGGCGGAGA CGGTGACGTG TCCCGGGTGA GAGCCATTCC TTCTCCCGCC AGAGGGCAGA ACGTGACACC AGGATCGGCC GTGGCATCAC GAACCTCCTC CTCGACACCA CTCACCCGCA TGTCCACATA TAATGAAATC GAACAGACGG AGGTCAGGAC TCTACGGCGT GAATCCGATT CCGCAATATC AGATCTTTCT TCTCGTGGCC AGGAGATGTT GTTTTTCGAT TTCAAGTCCG CTTACCCTGA TTATGAGGGA ACTATCAAGG ATTTTACTGG ATCATGCCGC GTGCTCAGCA AGATGATGAC TTGTGGTCAA GTGCTGCATC CGTCTCTTTA CGATGATGCC ATCTTCCATC ATTACCACAG CTACCGACGG TATCTGAGTG AGGAGGCGTT GAATTGCGCC GTGCCCCTAC CATTCTATGA CTTCTACAAT GAGCGCGTTG ACGAGCCATC TCACTCGCAA AGGATAGTGA CCAGATCAGC TCTTCATTAT ATGCTAGGGA GTGGTGGGCC CTCTGATGGT GCCCTCAACA ACATGCGAGA GCGGGGTGTT TTCCATCCTA GCACTTCGCC AGAGGTGGCT AGGGCAGAAT CAAAGACGAG TAAAGGGAGG GTTTCTTCCA CTCTCAGGCG TACCTCGGGA CAAGATGTAC GCGACGTTGA TACACCTCAT CGGCCCAGGG ATGCTGTGGA GGAATGGCGT CAAGACGCTT GGGGAACAGC ATCCCCTGAG CTTGGAACGC CTGACATTGA CCGAAGCTTG TCGGATATCC CTGTTCTAGA CATATCGGTC GACGACAACC AGAGTCCAGC ATCTGGATCC GCACCTGCAT CTGCATCAAT GGGCATAGGA ACGGGCATGG GTCCACCGCG AGGGTCCAAG AAACGCAGTC TTCCGTGGGA TCCGAAGGTG GTGGAATCAA AGGGAATGCC CAAGAGCAGA AGCTCATTGG CATCGACGCC TCATGTTTCT AAACGACCAA GACTCTCAGC TAGTCCGTTT GTGAGACCGG CAAAACCAGC GGCGGCCACG GTCAAAGCAC AATCACAGCA CAGGGAGAAA TCTCAGTCAG GTGTAGGGGC AGGGACAGGG GCAGGAGGAG CGACGAAGAT GGGACCAAAT TGGTGGAAGG ACACAGACAC GCCATTCAAG AGATTTATGG ATGGTTATTC CCGGTTGAAA TCCAACAAAC AAGAGTTCAG TTGGGATGCC ATTGGACTTG AGAAGCCCCG GGTTGGAGGG ATCGACCTTT TTGCTTGGAG GAGGTGA |
The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.