| Gene Symbol | CHR2109 |
| Entrez Gene ID | 9671209 |
| Full Name | hypothetical protein |
| Gene Type | protein-coding |
| Organism | [Nectria] haematococca mpVI 77-13-4 |
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CHR2109 cDNA ORF clone, [Nectria] haematococca mpVI 77-13-4
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Gene
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Clones
gRNAs
The following CHR2109 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CHR2109 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 ONb06994 Clone ID Related Accession (Same CDS sequence) XM_003053129.1 Accession Version XM_003053129.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3435bp)
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_003315880). 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
3421ATGGCTGACA CCGATGGCGC TTCCATGAGC ATCGACGAGA TCAACGAGGA GTTGACCATT
CAAAAGGTCA TCCTCGACTC GCTCTCCGAC CAAGATCTCG AAACTGGTGA GGAAATGAGA
GAAGATGCCC GCCAGGAGAT TGCTCGACTA AAGAAGCTCC TCCACGCCGC CAAGAAGAAG
CAGCAGCCGC AAGAGTCTAC GCCTCAATAT CGAAAGCCTG AGAATCGCCA AGCCATGTAC
ACACCCTCAA GAAACAACCA GAGCTTCAGC GAGCTCGGAT CATACTCGTT GCCTAACCGG
AAACGAGGTG TTGATTCCGC TCGTCTCTCT ACTCATGGAA CACAGCCCAA GACACGCAGG
ATGTCTCCGA TGCCGCCTGG AGACCCCTTT TCTACCGCTC CAGCTCCAAT GGACTTTAGC
CAAATAGACT TCATCGACCT TACTGGGGAC GACGACGATA TCGGCTCTGA AATCGTTGCT
CAGCAAATCA AGGCTGAGAG GCAACGAGAC CAGGAAAAGG CAGACCTGGA GTATGCGCTG
ATGCTCTCCC AAGGATCTCC AGGCCAAGCT TCGACTAACT TGTCTCCTCC TAACAACGCT
TTCACAAGAA TCATGAACAG CCAGCCACCC GCTGCCAGCT CACAGGGCTT TGACTTCGAC
TTTATACCAA AAGTTGAGGA TCCCGGCCTC TTCATCCCGG GTGCATATGA TGCGAGCTGG
GATGATCCGT TTGCCTCAGG GCCCTCAACC AGCTCCACTG CGAGAAGCAA TGGAGTTCAC
AGCTCAGCAG GAACCGGCCC CCCGAACACG CCTTATGGGA ACGTCCAAGG AGGTCGACCT
ATTAAGAATG AGTCGGCACA TATGGCAGAC TTCGCTAATA GTGTTGCGAT GGCTGAAGCT
GCCCGTCTCG GTCTAAGTGT CCCCCAACCC GGGTTTCTTG GCTTTGGACA CCCCAACGGC
AGTTATTCTA ATGGAATTCC ACACCGTGGC GCCCCCTTTT CCGGTATTCC AAATGTTCCC
GGTCCGTCCT CGGGGCATGC GTCGTCCCTT GCTGATATCA TCACCAAAAC GAACATGTTC
GACTACACCA GCGGCATGGA TGCCTACGGG AACCCATTGC CGGAGCGACT CTCGGATTTT
ATCCAAGATG CCTATCATGA CCCCAGAATG ACTGAAAAGG ACCTGGACAA TCTCCTCCAG
AACATTCGAC CTGACATGGA CATCCCGGAG ATGAATCGCG ACGGTACACC GGCTGGATTG
AAGAGACCAC TGTACCCCCA TCAGGAGCTC GCTCTCACCT GGATGAAGAA GATGGAGCAG
GGTTCGAACA AAGGCGGCAT TCTTGCTGAC GACATGGGTC TGGGAAAGAC CATCTCAACC
CTTGCGCTGC TTCTGTCTCG CCCAGCAACC ACTCGCCCCA AGACAACCTT GATCGTCGGA
CCTGTGGCAC TCATTCGGCA GTGGGAGGAA GAGATCGCCA CCAAAACGAA ACTATCCCAT
CGCCTTTCGG TCTTTGTGTA CCACAACCGC AAGACTACAA CTGACGAGCT GCTCAAGTAC
GACGTGGTCT TGACTACTTA TGGTACAGTT GCGCAGGAAC TCAAGAAACT TGACAAGTAC
ATGGAGGACA ACCGTGGTCG AAACATTGAC ATGAACGACA AGACCTTACT CGTCAAGTGC
CCTCTGCTGC ACCCAGCAAA GGCAAAGTTT TACCGCATTG TCCTCGACGA GGCGCAGTGC
ATCAAGAACA AGGACACGAA AACTGCCAAG GCGTGTACCC AACTGCGAGC AACGTACCGA
TGGTGTCTCA CAGGAACCCC CATGATGAAC GGAGTCCTGG AGCTCTACTC GCTGCTGAAC
TTCCTCAGGA TCAAGCCGTA CAGTCAGTGG GAGGAGTTTC GCCAGGCGTT TGGTATTCTC
TTTGGTCGGA ACGGCGATCC GAAGAGCGTT GCAATGAAGA GACTGCGAGC GCTTCTCCAG
GCCATCATGC TTCGACGCAA GAAGAATTCA GAACTCGATG GGAAACCCAT CCTGAAGCTC
CCCGAGAAGA CTGAAGAAAT TGTCTATGCG GAACTGTCGC CCGAGGAACG TGACTTCTAC
GACCAGCTGG AAAAGAATGC CCAGGTGCAG TTCAGCAAGT ACCTCCGCGC TGGAAGCATT
GGAAAGAATT ACTCGAACAT CCTGGTCCTC TTGCTGCGAA TGCGTCAGGC ATGTTGCCAC
CCACATCTCA ATCTCGATGT GGACGACGCG GCCCCAAACT CGACCATCTC AAACGAGGAG
AAGGAAGAGT TGGTCAGATC TCTGGATCGG GCCATCGTGG AGCGAATCAA GGGTATTGAG
GGCTTCGAAT GCCCCATTTG CTATGATGCT GTCCCGTGTC CCAGCTTCTT CATCCCTTGC
GGACACGACA GCTGTAGCGA ATGTCTTGTT CGCATTGCCG AGAATGCCTC AACCCTTAAT
CTGCAGGAAG GGAGTGAGAG TAGCCGGGCT AAGTGCCCCG TGTGCCGCGG CCCATTCGAC
CCCAGCAAAT GCTTCTCCTA CGACGTCTTT CAGAAGATTC ACATGCCCGA ATCAGTCAAG
GAGAAGCCTG ACGAAGAGGG TCAAGACGAG GACGACTCAT CAGATGATTC TTCAGAATCA
GAATCGGATT ATTCCTCAGA TGATGAGATC GACCACAAGG GAAACCTGAG GGATTTCATC
GTTAACGACG AGTTCTCGGA CGAGGAAGAT ACCAAGAAAC CAGCAAAGGC CAAAAAGAAG
AGCAAAGATA AGGGCAAGGG CAAAGGAAAA GGCAAGAAGA AGGCATCTGA TATCAAGCCT
TCGATGCTCA AGACCCTTCG CAAGGAGGCT TCCAAGAACC GTGATGCGTA CAAAAAGTAC
ATGCGATACT TGCGCAAGAC GTGGGAGCCG GCGGCCAAGG TGACGGCATG CATGGATCTG
CTGAAGCAGA TCAACGAAAC AGGAGAGAAG ACGATCGTCT TTTCCCAGTG GACTCTGTTG
CTCGATCTCC TTCAGGTGGC CATGTCTCAC GAGAAGCTGG AAAAGCCAGA GAGATACGAC
GGGTCCATGT CGGCCACGCA TCGCAACATC GCAGCCCGCA ACTTCCGGGA TCGAAAGGAC
GTCAAGGTGA TGCTGGTGTC TCTCCGAGCT GGCAATGCAG GTCTGAACCT GACGGCAGCA
TCACGAGTCA TCATCATGGA CCCCTTCTGG AACCCGTACA TTGAGATGCA GGCGGTTGAC
CGTGCCTACC GAATCGGCCA GCAGAAGGAG GTCAAGGTGT ACCGCATTTT GACAAAGAAG
ACAGTCGAGG ACCGAATTGT GGCCCTACAG AACCAGAAAA AGGAGATTGT TGAAGCAGCC
CTTGACGAGA ACGAGGGCAG ACAGATCGCG CGTCTGGGTA CGAACGAGCT CAAGTTCCTC
TTTAATACGC GCTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_003053175.1 CDS 1..3435 Translation 
Target ORF information:
RefSeq Version XM_003053129.1 Organism [Nectria] haematococca mpVI 77-13-4 Definition Nectria haematococca mpVI 77-13-4 hypothetical protein (CHR2109), mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_003053129.1
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
3421ATGGCTGACA CCGATGGCGC TTCCATGAGC ATCGACGAGA TCAACGAGGA GTTGACCATT
CAAAAGGTCA TCCTCGACTC GCTCTCCGAC CAAGATCTCG AAACTGGTGA GGAAATGAGA
GAAGATGCCC GCCAGGAGAT TGCTCGACTA AAGAAGCTCC TCCACGCCGC CAAGAAGAAG
CAGCAGCCGC AAGAGTCTAC GCCTCAATAT CGAAAGCCTG AGAATCGCCA AGCCATGTAC
ACACCCTCAA GAAACAACCA GAGCTTCAGC GAGCTCGGAT CATACTCGTT GCCTAACCGG
AAACGAGGTG TTGATTCCGC TCGTCTCTCT ACTCATGGAA CACAGCCCAA GACACGCAGG
ATGTCTCCGA TGCCGCCTGG AGACCCCTTT TCTACCGCTC CAGCTCCAAT GGACTTTAGC
CAAATAGACT TCATCGACCT TACTGGGGAC GACGACGATA TCGGCTCTGA AATCGTTGCT
CAGCAAATCA AGGCTGAGAG GCAACGAGAC CAGGAAAAGG CAGACCTGGA GTATGCGCTG
ATGCTCTCCC AAGGATCTCC AGGCCAAGCT TCGACTAACT TGTCTCCTCC TAACAACGCT
TTCACAAGAA TCATGAACAG CCAGCCACCC GCTGCCAGCT CACAGGGCTT TGACTTCGAC
TTTATACCAA AAGTTGAGGA TCCCGGCCTC TTCATCCCGG GTGCATATGA TGCGAGCTGG
GATGATCCGT TTGCCTCAGG GCCCTCAACC AGCTCCACTG CGAGAAGCAA TGGAGTTCAC
AGCTCAGCAG GAACCGGCCC CCCGAACACG CCTTATGGGA ACGTCCAAGG AGGTCGACCT
ATTAAGAATG AGTCGGCACA TATGGCAGAC TTCGCTAATA GTGTTGCGAT GGCTGAAGCT
GCCCGTCTCG GTCTAAGTGT CCCCCAACCC GGGTTTCTTG GCTTTGGACA CCCCAACGGC
AGTTATTCTA ATGGAATTCC ACACCGTGGC GCCCCCTTTT CCGGTATTCC AAATGTTCCC
GGTCCGTCCT CGGGGCATGC GTCGTCCCTT GCTGATATCA TCACCAAAAC GAACATGTTC
GACTACACCA GCGGCATGGA TGCCTACGGG AACCCATTGC CGGAGCGACT CTCGGATTTT
ATCCAAGATG CCTATCATGA CCCCAGAATG ACTGAAAAGG ACCTGGACAA TCTCCTCCAG
AACATTCGAC CTGACATGGA CATCCCGGAG ATGAATCGCG ACGGTACACC GGCTGGATTG
AAGAGACCAC TGTACCCCCA TCAGGAGCTC GCTCTCACCT GGATGAAGAA GATGGAGCAG
GGTTCGAACA AAGGCGGCAT TCTTGCTGAC GACATGGGTC TGGGAAAGAC CATCTCAACC
CTTGCGCTGC TTCTGTCTCG CCCAGCAACC ACTCGCCCCA AGACAACCTT GATCGTCGGA
CCTGTGGCAC TCATTCGGCA GTGGGAGGAA GAGATCGCCA CCAAAACGAA ACTATCCCAT
CGCCTTTCGG TCTTTGTGTA CCACAACCGC AAGACTACAA CTGACGAGCT GCTCAAGTAC
GACGTGGTCT TGACTACTTA TGGTACAGTT GCGCAGGAAC TCAAGAAACT TGACAAGTAC
ATGGAGGACA ACCGTGGTCG AAACATTGAC ATGAACGACA AGACCTTACT CGTCAAGTGC
CCTCTGCTGC ACCCAGCAAA GGCAAAGTTT TACCGCATTG TCCTCGACGA GGCGCAGTGC
ATCAAGAACA AGGACACGAA AACTGCCAAG GCGTGTACCC AACTGCGAGC AACGTACCGA
TGGTGTCTCA CAGGAACCCC CATGATGAAC GGAGTCCTGG AGCTCTACTC GCTGCTGAAC
TTCCTCAGGA TCAAGCCGTA CAGTCAGTGG GAGGAGTTTC GCCAGGCGTT TGGTATTCTC
TTTGGTCGGA ACGGCGATCC GAAGAGCGTT GCAATGAAGA GACTGCGAGC GCTTCTCCAG
GCCATCATGC TTCGACGCAA GAAGAATTCA GAACTCGATG GGAAACCCAT CCTGAAGCTC
CCCGAGAAGA CTGAAGAAAT TGTCTATGCG GAACTGTCGC CCGAGGAACG TGACTTCTAC
GACCAGCTGG AAAAGAATGC CCAGGTGCAG TTCAGCAAGT ACCTCCGCGC TGGAAGCATT
GGAAAGAATT ACTCGAACAT CCTGGTCCTC TTGCTGCGAA TGCGTCAGGC ATGTTGCCAC
CCACATCTCA ATCTCGATGT GGACGACGCG GCCCCAAACT CGACCATCTC AAACGAGGAG
AAGGAAGAGT TGGTCAGATC TCTGGATCGG GCCATCGTGG AGCGAATCAA GGGTATTGAG
GGCTTCGAAT GCCCCATTTG CTATGATGCT GTCCCGTGTC CCAGCTTCTT CATCCCTTGC
GGACACGACA GCTGTAGCGA ATGTCTTGTT CGCATTGCCG AGAATGCCTC AACCCTTAAT
CTGCAGGAAG GGAGTGAGAG TAGCCGGGCT AAGTGCCCCG TGTGCCGCGG CCCATTCGAC
CCCAGCAAAT GCTTCTCCTA CGACGTCTTT CAGAAGATTC ACATGCCCGA ATCAGTCAAG
GAGAAGCCTG ACGAAGAGGG TCAAGACGAG GACGACTCAT CAGATGATTC TTCAGAATCA
GAATCGGATT ATTCCTCAGA TGATGAGATC GACCACAAGG GAAACCTGAG GGATTTCATC
GTTAACGACG AGTTCTCGGA CGAGGAAGAT ACCAAGAAAC CAGCAAAGGC CAAAAAGAAG
AGCAAAGATA AGGGCAAGGG CAAAGGAAAA GGCAAGAAGA AGGCATCTGA TATCAAGCCT
TCGATGCTCA AGACCCTTCG CAAGGAGGCT TCCAAGAACC GTGATGCGTA CAAAAAGTAC
ATGCGATACT TGCGCAAGAC GTGGGAGCCG GCGGCCAAGG TGACGGCATG CATGGATCTG
CTGAAGCAGA TCAACGAAAC AGGAGAGAAG ACGATCGTCT TTTCCCAGTG GACTCTGTTG
CTCGATCTCC TTCAGGTGGC CATGTCTCAC GAGAAGCTGG AAAAGCCAGA GAGATACGAC
GGGTCCATGT CGGCCACGCA TCGCAACATC GCAGCCCGCA ACTTCCGGGA TCGAAAGGAC
GTCAAGGTGA TGCTGGTGTC TCTCCGAGCT GGCAATGCAG GTCTGAACCT GACGGCAGCA
TCACGAGTCA TCATCATGGA CCCCTTCTGG AACCCGTACA TTGAGATGCA GGCGGTTGAC
CGTGCCTACC GAATCGGCCA GCAGAAGGAG GTCAAGGTGT ACCGCATTTT GACAAAGAAG
ACAGTCGAGG ACCGAATTGT GGCCCTACAG AACCAGAAAA AGGAGATTGT TGAAGCAGCC
CTTGACGAGA ACGAGGGCAG ACAGATCGCG CGTCTGGGTA CGAACGAGCT CAAGTTCCTC
TTTAATACGC GCTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
-
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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