| Gene Symbol | NECHADRAFT_74720 |
| Entrez Gene ID | 9664304 |
| Full Name | hypothetical protein |
| Gene Type | protein-coding |
| Organism | [Nectria] haematococca mpVI 77-13-4 |
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NECHADRAFT_74720 cDNA ORF clone, [Nectria] haematococca mpVI 77-13-4
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Gene
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Clones
gRNAs
The following NECHADRAFT_74720 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the NECHADRAFT_74720 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 ONb00683 Clone ID Related Accession (Same CDS sequence) XM_003053456.1 Accession Version XM_003053456.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3420bp)
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_003315881). 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
3361ATGGGGAGCG TTCTCGATAA AAACTCCTCT CAAGTGAGGA AGCGCATTGA ATCTCACACC
TTTGATGATG AAGGCGGAGA GGAGTACGAT GCCAGTTCCT TCAATGGTTT CGGCGACTAC
TTTAGGCGCA AGAAGATCAA ACTCCAAAAT CTAGATGCCG ACATCCGCGA GTCATCAGAC
AAGCCTCAGA TCTTCAAAGG CATCGTCGCA CACGTCACTG GCTACACTCA ACCACCTTTG
CATGTTCTTC ATCGCGAGAT TGTGCAGCAT GGCGGTGGAT TCCTTCAATA TTTGGACTCC
AAGACTATGG CAACTCATAT CATTGCCTCA ACACTGCCTC CCAAAAAGTC CGTCGACTTT
AGTCGATACC GGATTGTCAA GCCCACATGG ATCATGGAGT CAATCGAGGC CGGGCAGCTC
CTCCCTTGGT CAAATTATCG TGTCCTGGAC GAAGGACCTA GACAAAAGGT ACTCAAGTTC
GACAGCAGTA GCGGTCTCAC GCAATCAACT CCCCGTCCAA AACAGGGCTA CCGGGAACAG
ACGGACGGCA GCTTTTACAC CAACCAGCTT AAAGCCGCAT CACTACCCAG CCAGGCGCTC
AGTGAGCTTG CCGAAAAGGC GCAAACTCCA GTACGGCCAC CAGCCGGTGT TCCGCCTATT
ACGCCAAACA CAATGGATAC CGATAGTCCA TCTTCTGAGA GGCTAAGCAC GCCTCTGGGG
CGATTATCAC GAGAAGCGTT GCCACCAGGG TCGAAAGATG CTGGGTTTGC TGAAGAGGAC
CTAGGTGCGG CGGTAGCAGA CAGTCCCTCT GTGTCTGCAA AGCAAACCAA AGCCCCAGAC
ACATCAAAAC CAATGACTTC AGAGGAGCAC AATGCATGGT TGCTGTCTGA TCCTCGGTTA
CGAAAGTCGT CAACCGCCAA CCCCGATTTC TTGAAACAGT TCTATTCGGA GAGCCGGTTA
CACCATCTCT CCACCTGGAA AGCAGAGCTA AAGTCGAAGA TGCAGCGGCT CGCTGCAGAA
AAGGGTCTTT CAGGTGTCAA GGTCAAGAGA CGGCCTGGCT CAAGACGATA TGTAATGCAT
GTCGACTTTG ACAGCTTCTT CTGTGCGGTT TCCCTCAAAA AGAACCCCGA GTACATCGAT
AAACCGACAG TTGTCGCACA CAGCACAGGA TCAGGATCCG AAATCGCAAG CTGCAACTAT
CCAGCCAGAG AATTCGGTGT CAAGAATGGC ATGTGGATGA AGTCGGCGCT TGAAAAGTGC
CCCAACTTGA AGGTCCTGCC ATACGACTTT CCAGCGTACG AAGAAGCAAG CCGCCAGTTC
TATGAATCGA TCATGAGCGT AGGCGGCTTG GTACAAAGCG TCAGCATTGA TGAAGCTCTA
GTCGATATCA CTTCCATCGT AATGACGAAT ACCGGTTCTC AAGGCACTGG ACAAGACGGT
GGGAACATCG GCAGAGAACG AGATATGGCA GACAGCCTTG CCAGAGACCT TCGTGAAAAG
GTCAAGTCGC AGACGGGCTG TCATGTTTCC GTTGGAATTG GCGCAAATAT CCTACAAGCC
AAAGTAGCTC TGAGGAAAGC GAAACCCGCA GGGCAGTACC AAGTGAAACC GGAGGAGCTG
CTTGATCTGA TTGGAGACCT GAAAGTTGAG CAGCTCCCTG GAGTCGCTCG GAGTATTGGT
GGGAAACTCG AAGAAATCGG TATCGTTCAC GTCAAAGACA TGCGAGATTT ATCAAAAGAG
CGTCTAACAA CAGTGCTTGG CCCAAAGACG GGCGAAAAGC TCTGGGAATA CGCCCGTGGT
ATCGACCAAA CGGAGGTCGG AGAGCAACCA CCACGCAAAT CGGTTTCAGC AGAAGTCAGC
TGGGGCATTC GATTTGTCAA CCAAGCAGAG GCCGAGGAGT TTATATATAA CCTCTGCAAA
GAACTCGAAA GGCGACTCTT GAACGAGCAG GTCAAGGGCA AGCAGTTGAC CATGAAGATC
ATGAGAAGGT CGATGGATGC GCCTCTTGAT CCAGCCAAGC ATCTAGGTCA CGGCAAATGC
GATACCTTCA ACAAAAGCAT CACCTTTGGT GTTCCCACCA ACAACTATCA AACCATTGGC
AAGGAAGCCA TTGCAGTACT GCGGTCCTTC AAGTTCAGTC CCGGTGATCT TCGTGGGCTC
GGAGTACAAA TGACGAAACT CGAAGCTATC AAAGCGAATG CAGGGGCACC GGATGGAAGT
CAGAAGAAGC TTGTCTTTGC TACTTTTGCA AAACCGTCTC CGGCCAGGAA GCCTTCTACG
ACAGAGCAGA TTGATGAGAT GGACAGCCCA GAGAAGCCAA AGAGTACACC AAGTCGCGAG
GTCCACCTGG ACCCGATTGC GGATGATCCC TTGACACCTC GAAAGCAAAG GATACACCCT
GCCATGGCCC TTGCGAGGGC CAGTCAAGAT GATGCGAAAG CAAAGACTCC TCTCAATATT
TCCGGGACTC AGTTTATCAT CCCAAGCAAC GCAGATCCCT CGATCCTTGC GGAGCTGCCG
AGTGACATCC GCAGTAAACT CATGGCACAA AAGTCTAGAA CAGCCGAGGT TCGCGCTGAG
TCTCCCGCAT CGAAGTCGAG GTCCCAGAGC CCGATGCCGC TCGACATGAT GCCATCCCAA
GTCGATCCTG AGGTGTTCAA TGCACTGCCC GATGATATGA AGGCTGAGGT TCTCGCTACC
TTCGGGCAAC AGCCAAGGCA GACCACGCCA CGTCAGTCCC CCAGGAAGGA CCGCACTGTC
CAGCCAAAGA AGCCCAGTAC ACCTACGAAA CGAGGTGGTG CGAGAGGCTT GTTTAGCAAG
GCTCAGCGGC AAAAGGATGT CCAAGCTGGT CTGATGCAGA CCAACCCCCG AGCTGCGGCT
TCTGTGGGTG ACGCTTTCGA GGAGGAAATC GAAGAACTCG ACCCAGAGTT CCTCTCGGAA
CTACCAGAAG ACGTGCGAAA AGAAGTAATT GCTGATCATC GGCGCCGGAA ACTGGCCCAA
CAATCAGGGC TTGATGCTCC TTCGCGGATG CACAATACTC CCGACCCTGA GGGGCTACTA
CCAGGTGGCC AGCGTAGAAT TCAGTTCGCC CCAGTGCCAC GCAAGGTCAC GTTTCCAGGT
TTAGGGGTGA GTTCTACTCG AGAGGTCAAA GACATGCTAG ACGCATGGCA TGGCGAGACG
AGGAAGGAAG GGCCTCACCG GAGAGATGTT GAAGTTCTGG AAAAGTTTCT TGTGCGAGTG
ATTCAGGAAG AGCGCGACTT GGAGAAGGCA ACCAAGTTGG TCAAGTGGTT GGATGTGATT
GTGGAACAAG ATGGCCGAGA TGGAAGAGGC CAGGAGTCTT GGAGACGGTC AGTTCAGAGT
GTCAAGGATG CTGTTCAGGG TGCAGTCAAG CAGCGAGGCA TGGCTCCTCT GAAGTTGTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_003053502.1 CDS 1..3420 Translation 
Target ORF information:
RefSeq Version XM_003053456.1 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_003053456.1
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
3361ATGGGGAGCG TTCTCGATAA AAACTCCTCT CAAGTGAGGA AGCGCATTGA ATCTCACACC
TTTGATGATG AAGGCGGAGA GGAGTACGAT GCCAGTTCCT TCAATGGTTT CGGCGACTAC
TTTAGGCGCA AGAAGATCAA ACTCCAAAAT CTAGATGCCG ACATCCGCGA GTCATCAGAC
AAGCCTCAGA TCTTCAAAGG CATCGTCGCA CACGTCACTG GCTACACTCA ACCACCTTTG
CATGTTCTTC ATCGCGAGAT TGTGCAGCAT GGCGGTGGAT TCCTTCAATA TTTGGACTCC
AAGACTATGG CAACTCATAT CATTGCCTCA ACACTGCCTC CCAAAAAGTC CGTCGACTTT
AGTCGATACC GGATTGTCAA GCCCACATGG ATCATGGAGT CAATCGAGGC CGGGCAGCTC
CTCCCTTGGT CAAATTATCG TGTCCTGGAC GAAGGACCTA GACAAAAGGT ACTCAAGTTC
GACAGCAGTA GCGGTCTCAC GCAATCAACT CCCCGTCCAA AACAGGGCTA CCGGGAACAG
ACGGACGGCA GCTTTTACAC CAACCAGCTT AAAGCCGCAT CACTACCCAG CCAGGCGCTC
AGTGAGCTTG CCGAAAAGGC GCAAACTCCA GTACGGCCAC CAGCCGGTGT TCCGCCTATT
ACGCCAAACA CAATGGATAC CGATAGTCCA TCTTCTGAGA GGCTAAGCAC GCCTCTGGGG
CGATTATCAC GAGAAGCGTT GCCACCAGGG TCGAAAGATG CTGGGTTTGC TGAAGAGGAC
CTAGGTGCGG CGGTAGCAGA CAGTCCCTCT GTGTCTGCAA AGCAAACCAA AGCCCCAGAC
ACATCAAAAC CAATGACTTC AGAGGAGCAC AATGCATGGT TGCTGTCTGA TCCTCGGTTA
CGAAAGTCGT CAACCGCCAA CCCCGATTTC TTGAAACAGT TCTATTCGGA GAGCCGGTTA
CACCATCTCT CCACCTGGAA AGCAGAGCTA AAGTCGAAGA TGCAGCGGCT CGCTGCAGAA
AAGGGTCTTT CAGGTGTCAA GGTCAAGAGA CGGCCTGGCT CAAGACGATA TGTAATGCAT
GTCGACTTTG ACAGCTTCTT CTGTGCGGTT TCCCTCAAAA AGAACCCCGA GTACATCGAT
AAACCGACAG TTGTCGCACA CAGCACAGGA TCAGGATCCG AAATCGCAAG CTGCAACTAT
CCAGCCAGAG AATTCGGTGT CAAGAATGGC ATGTGGATGA AGTCGGCGCT TGAAAAGTGC
CCCAACTTGA AGGTCCTGCC ATACGACTTT CCAGCGTACG AAGAAGCAAG CCGCCAGTTC
TATGAATCGA TCATGAGCGT AGGCGGCTTG GTACAAAGCG TCAGCATTGA TGAAGCTCTA
GTCGATATCA CTTCCATCGT AATGACGAAT ACCGGTTCTC AAGGCACTGG ACAAGACGGT
GGGAACATCG GCAGAGAACG AGATATGGCA GACAGCCTTG CCAGAGACCT TCGTGAAAAG
GTCAAGTCGC AGACGGGCTG TCATGTTTCC GTTGGAATTG GCGCAAATAT CCTACAAGCC
AAAGTAGCTC TGAGGAAAGC GAAACCCGCA GGGCAGTACC AAGTGAAACC GGAGGAGCTG
CTTGATCTGA TTGGAGACCT GAAAGTTGAG CAGCTCCCTG GAGTCGCTCG GAGTATTGGT
GGGAAACTCG AAGAAATCGG TATCGTTCAC GTCAAAGACA TGCGAGATTT ATCAAAAGAG
CGTCTAACAA CAGTGCTTGG CCCAAAGACG GGCGAAAAGC TCTGGGAATA CGCCCGTGGT
ATCGACCAAA CGGAGGTCGG AGAGCAACCA CCACGCAAAT CGGTTTCAGC AGAAGTCAGC
TGGGGCATTC GATTTGTCAA CCAAGCAGAG GCCGAGGAGT TTATATATAA CCTCTGCAAA
GAACTCGAAA GGCGACTCTT GAACGAGCAG GTCAAGGGCA AGCAGTTGAC CATGAAGATC
ATGAGAAGGT CGATGGATGC GCCTCTTGAT CCAGCCAAGC ATCTAGGTCA CGGCAAATGC
GATACCTTCA ACAAAAGCAT CACCTTTGGT GTTCCCACCA ACAACTATCA AACCATTGGC
AAGGAAGCCA TTGCAGTACT GCGGTCCTTC AAGTTCAGTC CCGGTGATCT TCGTGGGCTC
GGAGTACAAA TGACGAAACT CGAAGCTATC AAAGCGAATG CAGGGGCACC GGATGGAAGT
CAGAAGAAGC TTGTCTTTGC TACTTTTGCA AAACCGTCTC CGGCCAGGAA GCCTTCTACG
ACAGAGCAGA TTGATGAGAT GGACAGCCCA GAGAAGCCAA AGAGTACACC AAGTCGCGAG
GTCCACCTGG ACCCGATTGC GGATGATCCC TTGACACCTC GAAAGCAAAG GATACACCCT
GCCATGGCCC TTGCGAGGGC CAGTCAAGAT GATGCGAAAG CAAAGACTCC TCTCAATATT
TCCGGGACTC AGTTTATCAT CCCAAGCAAC GCAGATCCCT CGATCCTTGC GGAGCTGCCG
AGTGACATCC GCAGTAAACT CATGGCACAA AAGTCTAGAA CAGCCGAGGT TCGCGCTGAG
TCTCCCGCAT CGAAGTCGAG GTCCCAGAGC CCGATGCCGC TCGACATGAT GCCATCCCAA
GTCGATCCTG AGGTGTTCAA TGCACTGCCC GATGATATGA AGGCTGAGGT TCTCGCTACC
TTCGGGCAAC AGCCAAGGCA GACCACGCCA CGTCAGTCCC CCAGGAAGGA CCGCACTGTC
CAGCCAAAGA AGCCCAGTAC ACCTACGAAA CGAGGTGGTG CGAGAGGCTT GTTTAGCAAG
GCTCAGCGGC AAAAGGATGT CCAAGCTGGT CTGATGCAGA CCAACCCCCG AGCTGCGGCT
TCTGTGGGTG ACGCTTTCGA GGAGGAAATC GAAGAACTCG ACCCAGAGTT CCTCTCGGAA
CTACCAGAAG ACGTGCGAAA AGAAGTAATT GCTGATCATC GGCGCCGGAA ACTGGCCCAA
CAATCAGGGC TTGATGCTCC TTCGCGGATG CACAATACTC CCGACCCTGA GGGGCTACTA
CCAGGTGGCC AGCGTAGAAT TCAGTTCGCC CCAGTGCCAC GCAAGGTCAC GTTTCCAGGT
TTAGGGGTGA GTTCTACTCG AGAGGTCAAA GACATGCTAG ACGCATGGCA TGGCGAGACG
AGGAAGGAAG GGCCTCACCG GAGAGATGTT GAAGTTCTGG AAAAGTTTCT TGTGCGAGTG
ATTCAGGAAG AGCGCGACTT GGAGAAGGCA ACCAAGTTGG TCAAGTGGTT GGATGTGATT
GTGGAACAAG ATGGCCGAGA TGGAAGAGGC CAGGAGTCTT GGAGACGGTC AGTTCAGAGT
GTCAAGGATG CTGTTCAGGG TGCAGTCAAG CAGCGAGGCA TGGCTCCTCT GAAGTTGTAAThe 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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