| Gene Symbol | CC1G_07225 |
| Entrez Gene ID | 6017142 |
| Full Name | hypothetical protein |
| Gene Type | protein-coding |
| Organism | Coprinopsis cinerea okayama7#130(Coprinus cinereus okayama7#130) |
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CC1G_07225 cDNA ORF clone, Coprinopsis cinerea okayama7#130(Coprinus cinereus okayama7#130)
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Gene
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Clones
gRNAs
The following CC1G_07225 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CC1G_07225 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 OCj10386 Clone ID Related Accession (Same CDS sequence) XM_001840443.2 Accession Version XM_001840443.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 5418bp)
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 1503763200000 Organism Coprinopsis cinerea okayama7#130(Coprinus cinereus okayama7#130) 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_003307539). On Jun 25, 2010 this sequence version replaced XM_001840443.1. 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
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281
5341
5401ATGGGCAACC TGGTTTCGCC TTCGATGAGA AGGTTAAAGC GTGCTTTGCA CGCCTTTTTG
TCAAACGGCG AGCCTCCGCA AGGCACTGAC CATTCAGCAC CCAAAACCGA CCCGCCATCA
TCCAACATCG AAAATACGAC AGTGCAGCGC GTCTTTCCAT CGCAAACTGC AGTACCAGCA
CCACCACCCA TCCAATCGTC AATCGTTTCG CCGATCTCAG TCGCATTTCC TCAGCAGCAT
CCCATTCCGT TTGCGATCCA TCCTCCCAGT TTTTCTCTGC CATACTACGG GCCCCCACAC
CCATTCATTG CGCAACCCGC CATTCCACCT ATGGCAATTC TGCCGAACAC GATGCATTCG
GTCCCAGGTG GAGGATACAC CGTAACAACG AGCCAGAATC CCATGATATA CCCCACCACT
GGTGCATTAC ATCCGCAGCA GATGGTCCCT TCGCTTAACG CGAATCTTCC TGCTGTTCAG
GCGAACATGG ACTCGCCTGA AGCCCAACAG CCTGCTACAG CTGTTCCAAA TCCTCCCCGG
TCGCTTGAAC AGCCTTCAGC GCCATCTGGG CCCGCCGAAA CTACCCAAAA CCAACCCGCT
GTTGTTAATC CAACGGCCGA TGATCAGTTC AACGCCTCGA CCGATTCAGA TGGTCTTGAT
TGGCCAAATG GCGACGTGCA GAGGATGTAT CCTGACGGGG AACAGCCACC TGGGTGGTCG
GGTTCGAAGT GGGTATGGCG GAATCGAGGA GACCGAAAGC ATCGCGGGGT TACGGCATCT
ATGAGCGAGT GCCTGGGCTA TCTCGTCTGC TCTAATGCGC GTTGTTCCAT TCCCGTGCGA
CCAGCAACAC AGATTGGAAG CCAGGACCGA CAGTTCGAAA AGGGTTGTGA CTACTGTAAA
GCCAACCTCA ACCAGATTAA ATGCAGCGCC AAAACCTATC GATACAAGAC TGTACGAGGC
GACACTGTCT TCCATCACTG GGACCATGTT GGCCAACACA ACCATCCCCG CCCACCAGCC
GGTTCAATAC TGACGCCTCG CGAAAAGCAA GCAGTCGATG CCCAGGTCCT CCGGCGACCA
GACGCCAAAC CACTCCAACT TCGAGCGGGA GACCTTGGTC CAGGTTCACA GCCATTGGGA
TCGATTCATC CACGGCTCGA AAACGCGCGG GCAGCCCAGT ATCACCAAAA GCAGAGCAAG
GAAAGGCTAG GACTTACCTC ATCCGGTTCT CGTGGAGACA CCTCGCTCAT CAAGTCACTG
TATGGTCTAA ACGAGGAGCT CGGGGAGGTG TTTCTCATCG ACTCAAGCCT TCACAACCAA
GCTTATTTGG TCTTCAAAAC GAAATGGATG GACGAGGTGC TTCAAGACTC AGTTGACGAG
TGGGGGAGTT TGGATCCCAT CATGGAGGAA CGACACGGGT TTGTGACGGA TGGGAACCAT
TCCTACTTCA AGGAGGGTAT CTTGTTGACG AGCAGTGCTT TCAACTCTCT TCTGCGCGAA
TGGGTTCCTG TTGTTTACAC CTGGATTCTT GGAGAAGATA TTGAACATCA TCGCCCTCAT
TTTCGACACC TATTCAAGCC AATAATAGGG AAGGTGAAAC GAGATGGGAT ACCGTTCAGG
TCAAAATATC TCCTGAATGT TTTCGATTTC TCTGCCGCCC AACGGAGCGC ACATGCGGAG
GAGTATGCCA GAGCAGTTAT CACCACGATT CCTGGGTTCG AAGGTGAACG GATCGCCCCA
AACGCGATTG AAGCGCAACT ATCAGCCCTT CGAGATGAAG CGCAAGGTGT AGAGGTCGGA
TGTCAGTTTC ACTTCCTCAC CCAAGCACAG AGGGTCAAAG GAACGGCATC CTACGTATTG
CCGGAACGAA AGGACGACTT TGAGTCCATT ATCCGCAAAA TGATTTCGCC GAACACCACC
GAGAGCCAGT TCAACGATCT GACTATGCGA TTCTCGACCG AGTTCCCTGG CGCCCGGGGG
TGGCTCAATT GGTGGCTCCA GCCCAATATC ATCGGAATGG CCTTTCCAGC AAAGAGCCAT
ATCGATCCAG CTGTCGCTTC AACAGTTCCC AAAACTTCGA GCGTTGGGGA GGGGCTTCAC
TCCCATCTCA ATTCTGCAAT GGGTACAAAC AACGAGCTGT TGGAAGGTAT CCGGAAGCTA
CACCTGTATG TTGGCATGAT AGAGCGAAAG TATGCTTCGG TGAAAGCTGG ATACAACACC
CCTGCAGGGC CCCGAGAGAA TCGCCCACCC AAACGAGCTG TTTTCTTCGA GAACGACGGT
CGTGCTCCTG ATACTCTCGA GGCCTTAGAG GCCTTGAACT CTACAAGCGA TCTCTCTAAC
AAGGCCCTCT TCCTTCACGC GTACAAGTGG CAGGAACCGA ACTCGTGCTT CTTTGACAAT
GGTCTGGAGG TGTGGTTCCG TGCGTGGTGC GCTTGGAAGG AGGATGATAG AGCTCAACTC
CGCACCCTTC TCCCAACTGG AAGCTACCTT GCGTCACTCG TCAGTCACTA TGATCGCCGG
CTTCGTCTCA TTGCTACCAC CCCAAAGGTT ACGAAGAAGG TTCAATCAAC GATGAAGACA
ATGTTTGAGA CTACTCAAGC TATTCTACGA TGCAAAATCT TCGACAAATG GATGCCTGAA
CTTGATAAAA CAGGCCACCA CCCAGCGGCT ATCTGGCTTG ACGCAGCAGT CAAGGATGGA
GAGACATGCC GCGAAGCTCA CAGCTACTTT GGAGTCGACT ATCGCATTCA GTTCGCTTGC
AAATCCGGCC ACAACCTGGA GTACTACGCT TTCATGGATT CTCCAAACGC TGTCACAGAC
CTTCGAATTG ATTATATCGA CACTTTGTAC GAGGAACACG GGGAGCTTGT GGGTCTAGGG
GACTATTTCT CGAAGCTGGT TCTCTTCGAC AGCGGGAATC AGCTCATCAC CAAACTTGAA
TCTCGCTCTC TGTGCTCCTT GGGTGGATGT ACTCATGAGT CGGCCCCAAA AACGGTCACC
GCATATTGGC CACGCACTCT GACACTCCGT TCTGACTACA CCAATGGGAC GACTCCATCG
CACGTGAAGT TTACCAATAA CTTTGTTGTC GATTCGGACA CAAACTCATC ATCGGTTGAG
TACCGGATCA TCGGACGCGT TCTCAAGGCG AAGAACAAGG AGCATTTCAT CTCGCAGTTC
AACCTCAAAT CCGCTTGTTA CAGCTACAAC GACGTCAATG GAACACTAAA GAAAGCAAAA
ACTATGACCC TTCTCGACTC TCGCAGCCCC AACGAGGCTT ACTATGTCTA TTGCCTCGCT
TCATCGAACT CCAAGACCAT TCACTCCGTT GATAGAATGA AAGAACTATA CAAGAAATTC
GACCTTAGAA ACCCGACGGG GCGTAAAGAT AACCCCTTGG AAGTTGAATC GGACACGGAT
TCCAACTTGG GTGAAAGCCG TTCCACGAAG CGATCCGAAG CACTCCCGAA AAAGCCCCAA
ACTCGACCTC CAATGGACAA TCTGGATTCG GACGACGACC TGGATGGAGA TTTCGACATC
AGGTCTTTGT TCGACTTCGA TGAACCAGTT CCCCACAGTG ATCCTTCTGG CTCTGAATTT
ACGCCAGATG GCGAGCCCGG GAACCAAGAT ACAGGCCAAG TTACGACGAT TAAAACTCGG
TCATCCGCAG AAACAAGCAA ATCCGCAAGC AAGCGTCTCT TTAACGCTTC CACAGCCATC
CAAAAATCGG GTGGAACGAC TACCAACACT CCAAAAGCTG TGTTCCCATC GTGCTCGACG
TGTACTGTGA CTGGACCAGC TGCAAAAAAT ATGGTTCAAT GCATTATCTG CACGTTGAAG
TACCACTATG CCTGTGTCAA GGAAAGTCTT CCACCAGACT TCGACGTCTT TCCACACTTG
AAGGAGGAAT GGTGCTGCCC CAGGTGCATC AACGAGGGAC TTTGGGATAA TGTCATGACA
GGCACGTTCA TTCTGGTCAA CATGAACCAA CTATCTACCC TGCACGGGGA ACGGATGGCG
CTGCGATATC CTGCGAAGAT CATATCAAGG GAGGGGAGTA TGGTGACTCT GCGATGGCAT
GAGTTCAATT GCTGGGGCCC GAAGGCTCGA GTAATGGAGC CCACATTCAC CCTCACAATT
CACGAGTGTC TCAAGATACG AAACCTGCAA TACTCCAAAG AAGACAAGGC TTCCTTTGGA
GCCATTGAAT GGCCACTCGA GCTCGTTTCC GACTTCATGA CGGGTGAACA GCTGGCCTCC
ATTGACAAAC ACAACCTCGT CGCTGCGATT CAAGATGCTC TCCCATCAGC AGTTCACTTT
GTCAAAGGTA CACGCCTGCA CCCTATTCGG AAGCTCATAG AAAAGCATCT GAACAGAAGG
TCGAGTTCAT TGGGATGGAA AGAACGAAAG GAATACCTCA TTTCGTTCTC CAGTTATTTC
TCCGTTCCCA TTTTCCCTGG ACACCGATTG CTTTTGGTCG AGGAGATGAA GGACATACAG
TTTGGGGAGG GAGACGAAGG CGAGATACAG ATGGTGGCTG TTACGGTCCT CCTCGAGCTC
GTCATTATCA GGCAATACCT CAAGATGTCT CCAGAACAGG ATGGGGCAAT CTACGAGCTT
AGCCGAATCT TGACGCAGGA GGAATACGAC TTCACCACCG AGCAAGATGT CGCCTTACGA
GGCCGCCTCT TCCGAAACCT GACCGACCAT GAAAAGGCGT TCAACTGTGT GGATTCTTCG
ATGGTCCCTT TGAATGCCGT TGCCCGGGAC TCGAAGGAAT CTACAAGTAG TGCCCTCTTC
ACCGGATTGC ACCTCACTCG CCGCCTCCCT TCTAGTCCAT CTCAAAACAT CGCAATTGGT
GACCCTGCTG ATCTCATACA GATCTTCACT GAAGACGGAA ACCCATACAT CTTTGGGACC
TGTGTTCCGG AGGACCACTT CTCTATGATG CTCACCCAAG GCACCGGGGT CACTCCTACT
ATAACCACAG TTCCAGGTAG CCCTGCTGAA GCCGTTATGG ACGTTTCGCC CAAACTAGCC
GCCACTTCCC TTCCAGAAAC TACTCCGCCT ATCAATGAAT TCCGGATCAT CGAATGCGCC
AACCAGCCTC TGAAGTACAC CCCCTCCCCT CCACCATTGG CTCTCACCAC CACCACCACG
GGCGATGTAG AGGCTTCCGA AGACATCAAG ACGACTCCAA CTATCGACCT CGCCAACAAG
AAGCCTAGAT TTGCCCCAAG GCCCGTCAAC AAGCACGCAT TATTGAAGCA GACAACACTC
ACCAATGTGG GCTTCCGTCG CCGCTCTGAA AGGCAGGCTG CTATTGCGGC TAGCGCAGAG
CCTTCTACTG GCGAAAAGAG GCCCAGTAGT GGCACTAAAG ATAGTATTAA GCGCCATAGT
AAGCGCGCTC GAAAATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_001840495.2 CDS 1..5418 Translation 
Target ORF information:
RefSeq Version XM_001840443.2 Organism Coprinopsis cinerea okayama7#130(Coprinus cinereus okayama7#130) Definition Coprinopsis cinerea okayama7#130 hypothetical protein (CC1G_07225), partial mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_001840443.2
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
3781
3841
3901
3961
4021
4081
4141
4201
4261
4321
4381
4441
4501
4561
4621
4681
4741
4801
4861
4921
4981
5041
5101
5161
5221
5281
5341
5401ATGGGCAACC TGGTTTCGCC TTCGATGAGA AGGTTAAAGC GTGCTTTGCA CGCCTTTTTG
TCAAACGGCG AGCCTCCGCA AGGCACTGAC CATTCAGCAC CCAAAACCGA CCCGCCATCA
TCCAACATCG AAAATACGAC AGTGCAGCGC GTCTTTCCAT CGCAAACTGC AGTACCAGCA
CCACCACCCA TCCAATCGTC AATCGTTTCG CCGATCTCAG TCGCATTTCC TCAGCAGCAT
CCCATTCCGT TTGCGATCCA TCCTCCCAGT TTTTCTCTGC CATACTACGG GCCCCCACAC
CCATTCATTG CGCAACCCGC CATTCCACCT ATGGCAATTC TGCCGAACAC GATGCATTCG
GTCCCAGGTG GAGGATACAC CGTAACAACG AGCCAGAATC CCATGATATA CCCCACCACT
GGTGCATTAC ATCCGCAGCA GATGGTCCCT TCGCTTAACG CGAATCTTCC TGCTGTTCAG
GCGAACATGG ACTCGCCTGA AGCCCAACAG CCTGCTACAG CTGTTCCAAA TCCTCCCCGG
TCGCTTGAAC AGCCTTCAGC GCCATCTGGG CCCGCCGAAA CTACCCAAAA CCAACCCGCT
GTTGTTAATC CAACGGCCGA TGATCAGTTC AACGCCTCGA CCGATTCAGA TGGTCTTGAT
TGGCCAAATG GCGACGTGCA GAGGATGTAT CCTGACGGGG AACAGCCACC TGGGTGGTCG
GGTTCGAAGT GGGTATGGCG GAATCGAGGA GACCGAAAGC ATCGCGGGGT TACGGCATCT
ATGAGCGAGT GCCTGGGCTA TCTCGTCTGC TCTAATGCGC GTTGTTCCAT TCCCGTGCGA
CCAGCAACAC AGATTGGAAG CCAGGACCGA CAGTTCGAAA AGGGTTGTGA CTACTGTAAA
GCCAACCTCA ACCAGATTAA ATGCAGCGCC AAAACCTATC GATACAAGAC TGTACGAGGC
GACACTGTCT TCCATCACTG GGACCATGTT GGCCAACACA ACCATCCCCG CCCACCAGCC
GGTTCAATAC TGACGCCTCG CGAAAAGCAA GCAGTCGATG CCCAGGTCCT CCGGCGACCA
GACGCCAAAC CACTCCAACT TCGAGCGGGA GACCTTGGTC CAGGTTCACA GCCATTGGGA
TCGATTCATC CACGGCTCGA AAACGCGCGG GCAGCCCAGT ATCACCAAAA GCAGAGCAAG
GAAAGGCTAG GACTTACCTC ATCCGGTTCT CGTGGAGACA CCTCGCTCAT CAAGTCACTG
TATGGTCTAA ACGAGGAGCT CGGGGAGGTG TTTCTCATCG ACTCAAGCCT TCACAACCAA
GCTTATTTGG TCTTCAAAAC GAAATGGATG GACGAGGTGC TTCAAGACTC AGTTGACGAG
TGGGGGAGTT TGGATCCCAT CATGGAGGAA CGACACGGGT TTGTGACGGA TGGGAACCAT
TCCTACTTCA AGGAGGGTAT CTTGTTGACG AGCAGTGCTT TCAACTCTCT TCTGCGCGAA
TGGGTTCCTG TTGTTTACAC CTGGATTCTT GGAGAAGATA TTGAACATCA TCGCCCTCAT
TTTCGACACC TATTCAAGCC AATAATAGGG AAGGTGAAAC GAGATGGGAT ACCGTTCAGG
TCAAAATATC TCCTGAATGT TTTCGATTTC TCTGCCGCCC AACGGAGCGC ACATGCGGAG
GAGTATGCCA GAGCAGTTAT CACCACGATT CCTGGGTTCG AAGGTGAACG GATCGCCCCA
AACGCGATTG AAGCGCAACT ATCAGCCCTT CGAGATGAAG CGCAAGGTGT AGAGGTCGGA
TGTCAGTTTC ACTTCCTCAC CCAAGCACAG AGGGTCAAAG GAACGGCATC CTACGTATTG
CCGGAACGAA AGGACGACTT TGAGTCCATT ATCCGCAAAA TGATTTCGCC GAACACCACC
GAGAGCCAGT TCAACGATCT GACTATGCGA TTCTCGACCG AGTTCCCTGG CGCCCGGGGG
TGGCTCAATT GGTGGCTCCA GCCCAATATC ATCGGAATGG CCTTTCCAGC AAAGAGCCAT
ATCGATCCAG CTGTCGCTTC AACAGTTCCC AAAACTTCGA GCGTTGGGGA GGGGCTTCAC
TCCCATCTCA ATTCTGCAAT GGGTACAAAC AACGAGCTGT TGGAAGGTAT CCGGAAGCTA
CACCTGTATG TTGGCATGAT AGAGCGAAAG TATGCTTCGG TGAAAGCTGG ATACAACACC
CCTGCAGGGC CCCGAGAGAA TCGCCCACCC AAACGAGCTG TTTTCTTCGA GAACGACGGT
CGTGCTCCTG ATACTCTCGA GGCCTTAGAG GCCTTGAACT CTACAAGCGA TCTCTCTAAC
AAGGCCCTCT TCCTTCACGC GTACAAGTGG CAGGAACCGA ACTCGTGCTT CTTTGACAAT
GGTCTGGAGG TGTGGTTCCG TGCGTGGTGC GCTTGGAAGG AGGATGATAG AGCTCAACTC
CGCACCCTTC TCCCAACTGG AAGCTACCTT GCGTCACTCG TCAGTCACTA TGATCGCCGG
CTTCGTCTCA TTGCTACCAC CCCAAAGGTT ACGAAGAAGG TTCAATCAAC GATGAAGACA
ATGTTTGAGA CTACTCAAGC TATTCTACGA TGCAAAATCT TCGACAAATG GATGCCTGAA
CTTGATAAAA CAGGCCACCA CCCAGCGGCT ATCTGGCTTG ACGCAGCAGT CAAGGATGGA
GAGACATGCC GCGAAGCTCA CAGCTACTTT GGAGTCGACT ATCGCATTCA GTTCGCTTGC
AAATCCGGCC ACAACCTGGA GTACTACGCT TTCATGGATT CTCCAAACGC TGTCACAGAC
CTTCGAATTG ATTATATCGA CACTTTGTAC GAGGAACACG GGGAGCTTGT GGGTCTAGGG
GACTATTTCT CGAAGCTGGT TCTCTTCGAC AGCGGGAATC AGCTCATCAC CAAACTTGAA
TCTCGCTCTC TGTGCTCCTT GGGTGGATGT ACTCATGAGT CGGCCCCAAA AACGGTCACC
GCATATTGGC CACGCACTCT GACACTCCGT TCTGACTACA CCAATGGGAC GACTCCATCG
CACGTGAAGT TTACCAATAA CTTTGTTGTC GATTCGGACA CAAACTCATC ATCGGTTGAG
TACCGGATCA TCGGACGCGT TCTCAAGGCG AAGAACAAGG AGCATTTCAT CTCGCAGTTC
AACCTCAAAT CCGCTTGTTA CAGCTACAAC GACGTCAATG GAACACTAAA GAAAGCAAAA
ACTATGACCC TTCTCGACTC TCGCAGCCCC AACGAGGCTT ACTATGTCTA TTGCCTCGCT
TCATCGAACT CCAAGACCAT TCACTCCGTT GATAGAATGA AAGAACTATA CAAGAAATTC
GACCTTAGAA ACCCGACGGG GCGTAAAGAT AACCCCTTGG AAGTTGAATC GGACACGGAT
TCCAACTTGG GTGAAAGCCG TTCCACGAAG CGATCCGAAG CACTCCCGAA AAAGCCCCAA
ACTCGACCTC CAATGGACAA TCTGGATTCG GACGACGACC TGGATGGAGA TTTCGACATC
AGGTCTTTGT TCGACTTCGA TGAACCAGTT CCCCACAGTG ATCCTTCTGG CTCTGAATTT
ACGCCAGATG GCGAGCCCGG GAACCAAGAT ACAGGCCAAG TTACGACGAT TAAAACTCGG
TCATCCGCAG AAACAAGCAA ATCCGCAAGC AAGCGTCTCT TTAACGCTTC CACAGCCATC
CAAAAATCGG GTGGAACGAC TACCAACACT CCAAAAGCTG TGTTCCCATC GTGCTCGACG
TGTACTGTGA CTGGACCAGC TGCAAAAAAT ATGGTTCAAT GCATTATCTG CACGTTGAAG
TACCACTATG CCTGTGTCAA GGAAAGTCTT CCACCAGACT TCGACGTCTT TCCACACTTG
AAGGAGGAAT GGTGCTGCCC CAGGTGCATC AACGAGGGAC TTTGGGATAA TGTCATGACA
GGCACGTTCA TTCTGGTCAA CATGAACCAA CTATCTACCC TGCACGGGGA ACGGATGGCG
CTGCGATATC CTGCGAAGAT CATATCAAGG GAGGGGAGTA TGGTGACTCT GCGATGGCAT
GAGTTCAATT GCTGGGGCCC GAAGGCTCGA GTAATGGAGC CCACATTCAC CCTCACAATT
CACGAGTGTC TCAAGATACG AAACCTGCAA TACTCCAAAG AAGACAAGGC TTCCTTTGGA
GCCATTGAAT GGCCACTCGA GCTCGTTTCC GACTTCATGA CGGGTGAACA GCTGGCCTCC
ATTGACAAAC ACAACCTCGT CGCTGCGATT CAAGATGCTC TCCCATCAGC AGTTCACTTT
GTCAAAGGTA CACGCCTGCA CCCTATTCGG AAGCTCATAG AAAAGCATCT GAACAGAAGG
TCGAGTTCAT TGGGATGGAA AGAACGAAAG GAATACCTCA TTTCGTTCTC CAGTTATTTC
TCCGTTCCCA TTTTCCCTGG ACACCGATTG CTTTTGGTCG AGGAGATGAA GGACATACAG
TTTGGGGAGG GAGACGAAGG CGAGATACAG ATGGTGGCTG TTACGGTCCT CCTCGAGCTC
GTCATTATCA GGCAATACCT CAAGATGTCT CCAGAACAGG ATGGGGCAAT CTACGAGCTT
AGCCGAATCT TGACGCAGGA GGAATACGAC TTCACCACCG AGCAAGATGT CGCCTTACGA
GGCCGCCTCT TCCGAAACCT GACCGACCAT GAAAAGGCGT TCAACTGTGT GGATTCTTCG
ATGGTCCCTT TGAATGCCGT TGCCCGGGAC TCGAAGGAAT CTACAAGTAG TGCCCTCTTC
ACCGGATTGC ACCTCACTCG CCGCCTCCCT TCTAGTCCAT CTCAAAACAT CGCAATTGGT
GACCCTGCTG ATCTCATACA GATCTTCACT GAAGACGGAA ACCCATACAT CTTTGGGACC
TGTGTTCCGG AGGACCACTT CTCTATGATG CTCACCCAAG GCACCGGGGT CACTCCTACT
ATAACCACAG TTCCAGGTAG CCCTGCTGAA GCCGTTATGG ACGTTTCGCC CAAACTAGCC
GCCACTTCCC TTCCAGAAAC TACTCCGCCT ATCAATGAAT TCCGGATCAT CGAATGCGCC
AACCAGCCTC TGAAGTACAC CCCCTCCCCT CCACCATTGG CTCTCACCAC CACCACCACG
GGCGATGTAG AGGCTTCCGA AGACATCAAG ACGACTCCAA CTATCGACCT CGCCAACAAG
AAGCCTAGAT TTGCCCCAAG GCCCGTCAAC AAGCACGCAT TATTGAAGCA GACAACACTC
ACCAATGTGG GCTTCCGTCG CCGCTCTGAA AGGCAGGCTG CTATTGCGGC TAGCGCAGAG
CCTTCTACTG GCGAAAAGAG GCCCAGTAGT GGCACTAAAG ATAGTATTAA GCGCCATAGT
AAGCGCGCTC GAAAATAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
-
PubMed
Insights into evolution of multicellular fungi from the assembled chromosomes of the mushroom Coprinopsis cinerea (Coprinus cinereus).
Proceedings of the National Academy of Sciences of the United States of America107(26)11889-94(2010 Jun)
Stajich JE,Wilke SK,Ahrén D,Au CH,Birren BW,Borodovsky M,Burns C,Canbäck B,Casselton LA,Cheng CK,Deng J,Dietrich FS,Fargo DC,Farman ML,Gathman AC,Goldberg J,Guigó R,Hoegger PJ,Hooker JB,Huggins A,James TY,Kamada T,Kilaru S,Kodira C,Kües U,Kupfer D,Kwan HS,Lomsadze A,Li W,Lilly WW,Ma LJ,Mackey AJ,Manning G,Martin F,Muraguchi H,Natvig DO,Palmerini H,Ramesh MA,Rehmeyer CJ,Roe BA,Shenoy N,Stanke M,Ter-Hovhannisyan V,Tunlid A,Velagapudi R,Vision TJ,Zeng Q,Zolan ME,Pukkila PJ
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