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A1O3_08606 cDNA ORF clone, Capronia epimyces CBS 606.96

Summary

Gene Symbol A1O3_08606
Entrez Gene ID 19172693
Full Name hypothetical protein
Gene Type protein-coding
Organism Capronia epimyces CBS 606.96

Reference Sequences (RefSeq)

mRNA and Protein(s)

mRNA Protein Name
XM_007738703.1 XP_007736893.1 hypothetical protein

Pathways from BioSystems


Gene Ontology

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.

***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
OCa470734 XM_007738703.1
Latest version!		 Capronia epimyces CBS 606.96 hypothetical protein partial mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00

ORF Online Only Promotion

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

Reference Sequences (Refseq)


CloneID OCa470734
Clone ID Related Accession (Same CDS sequence) XM_007738703.1
Accession Version XM_007738703.1 Latest version! Documents for ORF clone product in default vector
Sequence Information ORF Nucleotide Sequence (Length: 3777bp)
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 2014-12-21
Organism Capronia epimyces CBS 606.96
Product hypothetical protein
Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. This record is derived from an annotated genomic sequence (NW_006912911). COMPLETENESS: incomplete on both ends. 

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
CDS1..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.

PubMed