| Gene Symbol | NECHADRAFT_81606 |
| Entrez Gene ID | 9673233 |
| Full Name | hypothetical protein |
| Gene Type | protein-coding |
| Organism | [Nectria] haematococca mpVI 77-13-4 |
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NECHADRAFT_81606 cDNA ORF clone, [Nectria] haematococca mpVI 77-13-4
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Gene
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Clones
gRNAs
The following NECHADRAFT_81606 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the NECHADRAFT_81606 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 ONb08860 Clone ID Related Accession (Same CDS sequence) XM_003045101.1 Accession Version XM_003045101.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3423bp)
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 1281628800000 Organism [Nectria] haematococca mpVI 77-13-4 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_003315865). 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
3421ATGGATGACC CTCTTATCAA TGACGCGGAT TATTCTTCCT GGTTGGAGAC GATCATTGGA
GAGTTAGGCC TCGTGCAATC CGATGCCTCG AAGTCGTCTT CAGACGCTGC CGAAGCTCTT
TTTCTCGATC GCCTCGCCAC AAACGCGGCA AGAAGAAGGC TCCGTCGGAA CGATGAACTC
GGGAATAAGC TTAATGATCA AGAGATTGAT CTAAGACTTC ATGCAGTGGA TGTATCGCCG
CTACTTGACC CCGAACTGGC ATGGAGGCGG TTGTTGGCAG CGGATACTCT CCTAGAACGC
TACGAGACGC GCAGTCGAGA CATGCTGGAT CTGGAACAGT TGATTTCTCT TCTGGAAAGT
GCTAGCTCAC TTATAGAGGA GGGGAATGAG CTTTTCCCGG ATTACCTCGT GGTATACGGG
CGCGCTCATC GGTGTCACTT CGATGTGACT CAAGACCCTT TAGAGCTTGG AAGGATCATC
CAGACCCTCG CCTCATTCCT GCACGTGGTT GATGGGAACC CAATGCTGCT ACAGGTCTAT
TCGAGTCTCT TGATGAATCA GTTCAAGTTT TCGGCAAGGC AGCAGGATCT CCATGCGGCC
ATTGAGCGGG CAGAGGCTGT TCGAAACCAT GTCAATGCTG GGGTTGACAC TCGGATATTC
GCCCTTTCAA ACCTAGCAGA GTGTCTCCCA GACTTGCCAG ACTTTCAGAT TGGTGATGGG
GGCACGCATC TGGATCGTGC GGTGTCAAGG GGATTGGAGG CGAGGGAATT GGCTAAGCGG
CCAGACCACC CCGTTGCAGA TGTCGCCTTT GTATATGGAA GTCTCTCGTA CGCGCACTAT
CGTCGTTATG TGCATTCAAG AAGACCTGCA GATTTACAAC AGGCGCTTGA AAACGGAAAG
AGAGCGGTGG AACTTTGTGG AGACGGCCAT CCCGACAAGG CCCGATGGAC AAACCACCTT
GGACTGGTCT ACATAGCCCA CTTCCACCAC CTGGCAGACA GATCCAGCCT GGAGAACGCC
ACCAGTTTAT TCCAGGAGGC CATTGAACTC TCTTCGGAGC ATGGGCAAAT CCGTGGGCTA
GCACTCAGCA ACCTAGCAGA TGCGTTGGCG TCCAGGTTCG ACCTAACTGG GGAGACCGAA
GCTCTGGATA TTGCCGTCCT CAAGTACCGG GCCGCAGCCA AACAAATCAA CCCGCACGTC
GTCAAGTCGG CTAGCAACCT ACAAAACCTT GGAAGTATCT TGATCACTGC GTACTACCGC
CACTTGGCAA GCGAGTATCT GGATGAAGCT GTGGACGTCC TCAACCGAGC TCTGCAAAGA
TACCCCGTCG GTCATGTGGA TATCGGATTT ACTCACTCTT TGCTCTGCAA GGCACTAACC
GACAAGCACA AACACGTGGA ATCTGGTCGA CAAGAAAACA TTCAGAGTGC CATAGACCAT
GGAACGAAGT CGATACTACT GGCTGGGAAA AATGATCCAC GCATGCATCT TTTTCTACAA
ACCCTTTCTG CGGCCTATCT AACCAAGTGG AAAGAGAACC GCGAAGAAAA AGCGGACTTG
GAGAAAGCGA TCGAGTTTTC AAGAAGATGC CTTCATGCGA CACCGCAGGA TTCTTCGGAG
AGAGCAAGAC TCCTCGGTTG GCTCAGCAGC CTGCTTGTTG AACAGCTATT TGACAACGAT
CCAGACGCCG ATGGTTCTAC CTTCACTGAA CCCCTCAGTC TCTATACAGA AGCAGTAAAT
TTACCAAATG GCTCGCCGCT GATGCGAATA CACGCGGCTC GAAAGGCGGT CAGAATCCTC
ACAAACCAGC ACAGGTGGGA AGCGGCAAAA CCAATCAGCT TGGCAGCCAT GCAGCTGCTA
CCCCAAGTCT GCGGCAGATA CCAGTCTTTG CAAGACCAGC AGCAGGTTGT TTCGCAAACT
TCAGGCCTTG CATCCGAAGT TTGCTCCGTG TTGCTACAGC TGGGGGAACC CGATGAAGCC
CTCACACAGC TCGAAGCAGG CAGAGCCATG ATATTGGGTT TTTCCATGGA CAACACTGAT
GAAGTATCGG AGCTACAAGA AACCGACAAG GGCCTTGCAA AGGAGTTTTT GGACATCAAG
GCGAAGTTGC ACATCCCATC CGATCTTCAA AGCTCCAGTC TTGGAGAGGT TAGGCTACAA
GAAAGGAGGG CTGCTGAAGC AGACCTTGTC AACTGCCTCG AAAAGATCAG AAATCTTGAT
GGTCATCAAG ACTTCCTTCG TGAGCCTCCT GTTGATCGCT TGAAATCGTG CACTAAGGAG
GGCATCGTCG TCTTGGTGAA CACCAGTTAC TTGAGAAGTG ACGCCATCAT TCTCGTCGGC
TCTCACACAC TGGTTGTGCC GCTTCCAGGG CTCGAGCTGC AGAAGGTAGT GGATTTCCGC
GTGCAGTTGA TTTCAGGATT TTCCACTGTG GATTTTCCTG TGAAGCGAGC TATCCAGATC
GTCTCGAAGA AGGTTCCCAA ACAGGCGAGA CAGCCCTCGC CAGGCCTTGC AGGCTGGCTG
TGGGACAACT GTGTACAACC CGTCTTTGAC GAGTTGAGGC GGTACGGCAC CATGCCTAGT
GATGGCAAAC CGCCTCGGAT TTGGTGGATA GGATCCGGTA GCGCCGCAGG ATTTCCTTTC
CACGCGGCTG CATCGGAGAT TCAGCCTGAC CAGGACGCAT TATCTCTGTC AGTTTCATCG
TACACACCAT CCATCAAGGC CCTGCTGTAT GCCAAGCACC GTTCTGACCG GTCTCGGGCG
CTGAGGATGA AGACAGATCA GGAAGAACTG GAGTTGACCA TCATCACAAT GGAAACAACA
CCCGGGAATC ACGCCCCCCT TCCAGCAGTG CGGAAGGAGA AGGAAGTCAT TGCAGATCTC
ACCAATGGCA AATGGAAATG CACACACCTA CCTCAGCCAA CATCGAATCT CGCTTTACAG
GCCGTTGCCA TGAGTGACAT TGTCCACTTC GCTTGTCATG GTGTGGCAGA TAGGGGCGAC
CCGTCACAGA GTCATCTTGT CCTCGAGAAG CCCACCAAAG ATGGCAGCAC CAAGGAAGCT
GATGAACTCA CGGTTCCCCA GCTTCTCGCC CTAAACAATC TCCAAAAACC CTGGATAGCG
TTCCTCTCTG CCTGCACCAC AGCTTCCATG GGGACCTTTC GCCTCGGGGA CGAGGGCTTA
CATATGTCTG GGGCCTTGCA GATTGCTGGA TTCTCTCATG TCATTGGATC CTTGTGGCCG
GTGGAAGACG AGGTCGGCGT CGAAATTGCT CGTGCCTTTT ACGAGAATCT GATTGGCGTT
ACACCCGATT CTGTTGATGA TGAAATCGTG GCTTTCGCCC TGAGGGAGGC AGTGATCAAG
GTCCGACAAC ATTATCCATG TTCTTGGACT AAATGGGCGG CTTATATTCA CTCAGGAGCT
TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_003045147.1 CDS 1..3423 Translation 
Target ORF information:
RefSeq Version XM_003045101.1 Organism [Nectria] haematococca mpVI 77-13-4 Definition Nectria haematococca mpVI 77-13-4 hypothetical protein, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_003045101.1
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
3421ATGGATGACC CTCTTATCAA TGACGCGGAT TATTCTTCCT GGTTGGAGAC GATCATTGGA
GAGTTAGGCC TCGTGCAATC CGATGCCTCG AAGTCGTCTT CAGACGCTGC CGAAGCTCTT
TTTCTCGATC GCCTCGCCAC AAACGCGGCA AGAAGAAGGC TCCGTCGGAA CGATGAACTC
GGGAATAAGC TTAATGATCA AGAGATTGAT CTAAGACTTC ATGCAGTGGA TGTATCGCCG
CTACTTGACC CCGAACTGGC ATGGAGGCGG TTGTTGGCAG CGGATACTCT CCTAGAACGC
TACGAGACGC GCAGTCGAGA CATGCTGGAT CTGGAACAGT TGATTTCTCT TCTGGAAAGT
GCTAGCTCAC TTATAGAGGA GGGGAATGAG CTTTTCCCGG ATTACCTCGT GGTATACGGG
CGCGCTCATC GGTGTCACTT CGATGTGACT CAAGACCCTT TAGAGCTTGG AAGGATCATC
CAGACCCTCG CCTCATTCCT GCACGTGGTT GATGGGAACC CAATGCTGCT ACAGGTCTAT
TCGAGTCTCT TGATGAATCA GTTCAAGTTT TCGGCAAGGC AGCAGGATCT CCATGCGGCC
ATTGAGCGGG CAGAGGCTGT TCGAAACCAT GTCAATGCTG GGGTTGACAC TCGGATATTC
GCCCTTTCAA ACCTAGCAGA GTGTCTCCCA GACTTGCCAG ACTTTCAGAT TGGTGATGGG
GGCACGCATC TGGATCGTGC GGTGTCAAGG GGATTGGAGG CGAGGGAATT GGCTAAGCGG
CCAGACCACC CCGTTGCAGA TGTCGCCTTT GTATATGGAA GTCTCTCGTA CGCGCACTAT
CGTCGTTATG TGCATTCAAG AAGACCTGCA GATTTACAAC AGGCGCTTGA AAACGGAAAG
AGAGCGGTGG AACTTTGTGG AGACGGCCAT CCCGACAAGG CCCGATGGAC AAACCACCTT
GGACTGGTCT ACATAGCCCA CTTCCACCAC CTGGCAGACA GATCCAGCCT GGAGAACGCC
ACCAGTTTAT TCCAGGAGGC CATTGAACTC TCTTCGGAGC ATGGGCAAAT CCGTGGGCTA
GCACTCAGCA ACCTAGCAGA TGCGTTGGCG TCCAGGTTCG ACCTAACTGG GGAGACCGAA
GCTCTGGATA TTGCCGTCCT CAAGTACCGG GCCGCAGCCA AACAAATCAA CCCGCACGTC
GTCAAGTCGG CTAGCAACCT ACAAAACCTT GGAAGTATCT TGATCACTGC GTACTACCGC
CACTTGGCAA GCGAGTATCT GGATGAAGCT GTGGACGTCC TCAACCGAGC TCTGCAAAGA
TACCCCGTCG GTCATGTGGA TATCGGATTT ACTCACTCTT TGCTCTGCAA GGCACTAACC
GACAAGCACA AACACGTGGA ATCTGGTCGA CAAGAAAACA TTCAGAGTGC CATAGACCAT
GGAACGAAGT CGATACTACT GGCTGGGAAA AATGATCCAC GCATGCATCT TTTTCTACAA
ACCCTTTCTG CGGCCTATCT AACCAAGTGG AAAGAGAACC GCGAAGAAAA AGCGGACTTG
GAGAAAGCGA TCGAGTTTTC AAGAAGATGC CTTCATGCGA CACCGCAGGA TTCTTCGGAG
AGAGCAAGAC TCCTCGGTTG GCTCAGCAGC CTGCTTGTTG AACAGCTATT TGACAACGAT
CCAGACGCCG ATGGTTCTAC CTTCACTGAA CCCCTCAGTC TCTATACAGA AGCAGTAAAT
TTACCAAATG GCTCGCCGCT GATGCGAATA CACGCGGCTC GAAAGGCGGT CAGAATCCTC
ACAAACCAGC ACAGGTGGGA AGCGGCAAAA CCAATCAGCT TGGCAGCCAT GCAGCTGCTA
CCCCAAGTCT GCGGCAGATA CCAGTCTTTG CAAGACCAGC AGCAGGTTGT TTCGCAAACT
TCAGGCCTTG CATCCGAAGT TTGCTCCGTG TTGCTACAGC TGGGGGAACC CGATGAAGCC
CTCACACAGC TCGAAGCAGG CAGAGCCATG ATATTGGGTT TTTCCATGGA CAACACTGAT
GAAGTATCGG AGCTACAAGA AACCGACAAG GGCCTTGCAA AGGAGTTTTT GGACATCAAG
GCGAAGTTGC ACATCCCATC CGATCTTCAA AGCTCCAGTC TTGGAGAGGT TAGGCTACAA
GAAAGGAGGG CTGCTGAAGC AGACCTTGTC AACTGCCTCG AAAAGATCAG AAATCTTGAT
GGTCATCAAG ACTTCCTTCG TGAGCCTCCT GTTGATCGCT TGAAATCGTG CACTAAGGAG
GGCATCGTCG TCTTGGTGAA CACCAGTTAC TTGAGAAGTG ACGCCATCAT TCTCGTCGGC
TCTCACACAC TGGTTGTGCC GCTTCCAGGG CTCGAGCTGC AGAAGGTAGT GGATTTCCGC
GTGCAGTTGA TTTCAGGATT TTCCACTGTG GATTTTCCTG TGAAGCGAGC TATCCAGATC
GTCTCGAAGA AGGTTCCCAA ACAGGCGAGA CAGCCCTCGC CAGGCCTTGC AGGCTGGCTG
TGGGACAACT GTGTACAACC CGTCTTTGAC GAGTTGAGGC GGTACGGCAC CATGCCTAGT
GATGGCAAAC CGCCTCGGAT TTGGTGGATA GGATCCGGTA GCGCCGCAGG ATTTCCTTTC
CACGCGGCTG CATCGGAGAT TCAGCCTGAC CAGGACGCAT TATCTCTGTC AGTTTCATCG
TACACACCAT CCATCAAGGC CCTGCTGTAT GCCAAGCACC GTTCTGACCG GTCTCGGGCG
CTGAGGATGA AGACAGATCA GGAAGAACTG GAGTTGACCA TCATCACAAT GGAAACAACA
CCCGGGAATC ACGCCCCCCT TCCAGCAGTG CGGAAGGAGA AGGAAGTCAT TGCAGATCTC
ACCAATGGCA AATGGAAATG CACACACCTA CCTCAGCCAA CATCGAATCT CGCTTTACAG
GCCGTTGCCA TGAGTGACAT TGTCCACTTC GCTTGTCATG GTGTGGCAGA TAGGGGCGAC
CCGTCACAGA GTCATCTTGT CCTCGAGAAG CCCACCAAAG ATGGCAGCAC CAAGGAAGCT
GATGAACTCA CGGTTCCCCA GCTTCTCGCC CTAAACAATC TCCAAAAACC CTGGATAGCG
TTCCTCTCTG CCTGCACCAC AGCTTCCATG GGGACCTTTC GCCTCGGGGA CGAGGGCTTA
CATATGTCTG GGGCCTTGCA GATTGCTGGA TTCTCTCATG TCATTGGATC CTTGTGGCCG
GTGGAAGACG AGGTCGGCGT CGAAATTGCT CGTGCCTTTT ACGAGAATCT GATTGGCGTT
ACACCCGATT CTGTTGATGA TGAAATCGTG GCTTTCGCCC TGAGGGAGGC AGTGATCAAG
GTCCGACAAC ATTATCCATG TTCTTGGACT AAATGGGCGG CTTATATTCA CTCAGGAGCT
TGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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PubMed
The genome of Nectria haematococca: contribution of supernumerary chromosomes to gene expansion.
PLoS genetics5(8)e1000618(2009 Aug)
Coleman JJ,Rounsley SD,Rodriguez-Carres M,Kuo A,Wasmann CC,Grimwood J,Schmutz J,Taga M,White GJ,Zhou S,Schwartz DC,Freitag M,Ma LJ,Danchin EG,Henrissat B,Coutinho PM,Nelson DR,Straney D,Napoli CA,Barker BM,Gribskov M,Rep M,Kroken S,Molnár I,Rensing C,Kennell JC,Zamora J,Farman ML,Selker EU,Salamov A,Shapiro H,Pangilinan J,Lindquist E,Lamers C,Grigoriev IV,Geiser DM,Covert SF,Temporini E,Vanetten HD
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