CC1G_15059 cDNA ORF clone, Coprinopsis cinerea okayama7#130(Coprinus cinereus okayama7#130)

Gene
Clones
gRNAs

Summary

Gene Symbol	CC1G_15059
Entrez Gene ID	9378116
Full Name	PIF1 protein
Gene Type	protein-coding
Organism	Coprinopsis cinerea okayama7#130(Coprinus cinereus okayama7#130)

mRNA and Protein(s)

mRNA	Protein	Name
XM_002910679.1	XP_002910725.1	PIF1 protein

Pathways from BioSystems
Gene Ontology
Bibliography

Related articles in PubMed

Insights into evolution of multicellular fungi from the assembled chromosomes of the mushroom Coprinopsis cinerea (Coprinus cinereus).
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
Proceedings of the National Academy of Sciences of the United States of America107(26)11889-94(2010 Jun)

GeneRIFs: Gene References Into Functions What's a GeneRIF?

The following CC1G_15059 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CC1G_15059 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
OCj11268	XM_002910679.1 Latest version!	Coprinopsis cinerea okayama7#130 PIF1 protein (CC1G_15059), partial mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$951.30 $1359.00

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Next-day Shipping ORF Clones ( in default vector with tag)
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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)

CC1G_15059 ( XM_002910679.1 ) cDNA ORF clone, Coprinopsis cinerea okayama7#130(Coprinus cinereus okayama7#130) -> XP_002910725.1 Coprinopsis cinerea okayama7#130 PIF1 protein (CC1G_15059), partial mRNA.

Price & Availability↑

CloneID	OCj11268
Clone ID Related Accession (Same CDS sequence)	XM_002910679.1
Accession Version	XM_002910679.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5430bp) 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	1503763200000
Organism	Coprinopsis cinerea okayama7#130(Coprinus cinereus okayama7#130)
Product	PIF1 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_003307537). COMPLETENESS: incomplete on both ends.

ATGAGTAAGA CAATTCCAAA GAACAATAGA AAAGCAAAGG ATGAAGTCGT AGAGAAGCAC 
AGAGGGTCAC ATGCAGAATC TGGGCGCCTA GAGGGCGGTT ACGAGGTTTC TCCGCACGGT 
CCGCACCGGC CCTCAGTTGC GGGCCGTGTC GGTCCGCTGG TACTTGCGGG CTGCGGACTT 
GCGGATGCGG ACATCCATAG AGCGGACACA TGCGGGGAGT CCGCATGTGC AGGAGTGGGA 
TGGAGGTGCG GAGATGTGGG AGATGCGGGA TGCGGAGAGA TGATGGCGAG TGCGGGGATG 
CGCGGGGTCA TGCGGGATCA TGTGGGACTG TGCGGGGGGT GTGGGTCAAG GCTGCTCAAC 
ACTCACGTTG CATACGCCGC CCTTGAAGTC GCCGTAACAA AACTTGACGT CGTATCGCAT 
TCCAAAGCGT TGTTACGAAA ATGCGCATTT TCTTTACTAA GTAACCAAGA GCTTTCCGCC 
CAACAAGTGA TGAGTTATCT TATGGAATAC GGCGATCATT ATACTAGCCA TACCTTTCGA 
GGATTCTACT GGCCTGCTGC CGTAAAAGAG GTTTCTTCTT CTGATTCTAA CAACGAACAG 
GATACCGACT TTGTTGTAAG CGAAGAGGAG ACGTTCATCG ATGTATCCAA GTCGGGAAAT 
CTTATACAAA AATGTGCTTA CCTTGAAGAT TATATCCACC GCCCTACCAC TCTCCATTCG 
TTCAATTTAT GGGATTTCCT GTCACAATTC GAAAAAATTC GAACTGCTAC TACAGCCGAG 
AAGAAGATGC CAAAATATAA GCGACATCGA TCTATTGCAG TCGATGACGA TGACGTTTCT 
TCAGGCAGTG AATCCGATGA ATCGAGTGAA TACTCCTCCA GCGATATGAG CGACGACGAA 
TTGTGTCCAG CGCCTAGAAG TAATAAGTTT TTCTTCAAAG ACGGACATCG TCAGCATAAT 
ACACATCATC TGAGACGGCG TTCGGAACAT CGTTATGTTA TTCCACAACC AATAGGCCCT 
TCACTGCCTA GAAGAGATAA ACCTGAGATC TTCGATCAAT ACAAATTGAC GATGCTTACA 
TTCTTCGTAC CGTGGCATGA TAGAGGAAGC ATCGACACCC TTTTTTCGCC AGAAAGTACC 
CAATCGTATG ATCTATTTGT TAACAACTGT ACAGACCGAG TGAAATGGTT AATGTGTAAC 
ATGCAGTTGC TACATGAATG CAAGGACAGT AAAGATGACG ATTACGCTCA CCGTCGTGCT 
AGGGAACACA ACACAATGCC CAGAGTTGTA GCACCTGATA ACGCGACTAG CAACGATGAT 
TGCAGTCAGT TAAATATGGA CGAAATCGAA CGAGAACTTG CTTTACAACA CCTTCAAGAA 
TTGGCCGCTA CCACGTCAAA TAACAGGTCG TCTCGTCGCC AAGCCGCGGA CGACGCTTTG 
GAATCAATGA AATCCGGAGG TGTTTATAAC AAACACGTTC AAAGTAGTCC AATCGAAGGC 
AATGAGTATA GGACCACAGA TACATATCAA GAAGATGTAT GGAAAGCAGA GTACGAACAC 
CGTCGACGAA ACTGGAAGCG ATCTGTAGTT GAACAAGCCA AACATACCGC GCATCAAAGT 
AATTCAATTA CCGCGAGCGC TAATCAAAAT CAACTCGACG CTTTTGGTTC GTTATCGACT 
TCTGCGCCCG TACCTACCTA TACATCACTT GACTTGGATC GAATGACATC TAATCAACTA 
TCACAATTAC TACATACGAG AAAAGAAATC ATCGCTTCCA ACTATTGCTT AAATGAAGCA 
CAACAACGAG CTTATTATAA AATTGTTCAG TCCCATATAT TTGCTGTAGA GGGTCGAAAA 
CAGGGTCCCG TTCGTATGTT TTTAACCGGT CCCGGAGGAA CTGGAAAATC GACTGTCATT 
AAGGCGATTA CGGAGTTCTT TCGCTATAAT CTTGAAGAAC CCCATGTTCG TCTATGTGCG 
TATACAGGTG TCGCTGCTAA AAACATCGGT GGTATGACCC TCCACGCTGC TTTAAATTTA 
AATTTAAAAC TGAGTTCTAC ATCTACTACT GTAAATCGAG ACTTAATATC TTTGTGGGAA 
GGTATTGACT ACCTTGTAAT CGATGAAGTA TCAATGATTG GGTGTAACAC ATTACGAAAA 
ATTAGTGATT CTTTATGTGC AGCTAAGCAA TCTAGCGCTC CTTTCGGTGG CATAAACATC 
ATCTTCGCAG GTGATTTTGC GCAGCTACCA CCCATAAAAG AAACACCATT ATATTCACGG 
TTAAAGACTT GGAATGCTGC AAATTCGTGG TCGCAGGACG TTGTTCTTGG TAAACTATTA 
TGGAATTCTA TAGATACCGT CGTTCGACTT GACGAGGTTA TGAGACAGGC TGGTGTTCGT 
CAACAAAGAT TCGTTGAGTT ATTGTCCCGT CTTCGTAAAG GCCAATGCAC CATCGAAGAC 
TACGAATTAC TTCAATCAAG ACGACTTTCT CGGCTACCAA ATGAAGAAAT ACCAAGCGCT 
TTAGACACAG TTACATTAGT CACATCTAAC GAAGAGAAAG ATTTACTTAA TGAGCAAGCA 
GTTAAAGAAT TTAGTCGCAC TACTAACAGA CCTTTACACT GGTACTATGC ATCGGATAAA 
ATAGGCCAAA ATACAGTCCA ATGTTCAAGC GCTGTTACTG CGTCGTTAGT TAAATATTCC 
GGCAGTCAAG TCAAATACCG ACTGACGAAA TTACCTCTTG TAATAGGAAT GCCGATAATG 
CTCGTTCAAA ATTTCGATGT GGCCAGTGGC GTTGTCAATG GAATAATTGG AAAATTGAAA 
AAGATTCGCT ATACGGTTGA TGCGGAAGGA TTTCGTCATT TGACGTCTTG TGTTTTGCAC 
TCTGATAACG CGAATGCATC TGCTATGTCT TCACTAGAAC AATATGATGT TCCATGTTTC 
GAAGACTCGG TGTCCATTTC CTTTAAAAAT TTCTTCAGTG GCAAATCACT GAATGTAAGG 
AGAACTCAAG TACCAATCGT GCCCGCCTTT ACGGTCACAA CCCACAAAGC CCAAGGTCAA 
ACTTTAGACC GCGCTTTTCT CGATTTAAGC GCTTGCACAG GTTCCGAAAA TCCATATGTG 
ATGTTATCGC GAGTGCGAAC TCTAGATGGC GTATTTATCA TAAAGGATTT TCCCTATTCC 
AAGATTACTT CTCGTCTTTC TGAAGACCTT CGGCATGAAT TCAAAAGAAT TGACGTTCTC 
AGCGACTATG GTGCTGGCAT TGTTCATTCA TCTGACGTTA ATGAGTTTCA TTCTCGATTC 
CTTGATCAGT TCAACAAATG CCTTCGACAA ATCGATAACT TTGCATTCGA CCGTGCAAAC 
CATGATTCCT GCTATGTGGA AAAACAAACA TGCCTTCGCA GTATCGAGGA ACGACTTACT 
TCAATACCAC TTCCTTCAAT GCCTGCACTT CGTTCAAATG TTACTGTTCC GCCAAGAATC 
CCCATCAGTG ACGTAATTAA TGCTGGTGAC GCTCCTATGG ATGTCGACCG CCCCGGTGTT 
TCAACACCTG TTTCTCCGCT CCAGCAACCC TCCACTTTCG CTGCGGACAG AACAGAATCG 
TCGTCTATGT TTGGCATCGA CGTGACACCC GCTCTAAAAC GTTCAAGATA CGAAACTTCT 
CACCCCAACA AGCGATCGAT GCCCAATAGA TCTCTAACTC TGCTGCTGCG TTCTCAGCCA 
TTATTCTTCC CTCGAACTCG TCTTCACTTA TCCATTCAGT GGCAACTGGC GAGAGCTACC 
AAATCTAATT ATCAAGAACA ACTCGGTATA TTATTGCGTC GTATCCACTG CATCATGGCC 
ACCGACATCC CAATGCTCGA CTTTGATCCT AATCAAGAAC GTCATTCGCC TGCCACTACA 
AATGCGACCA CTACGAACGA CGGCAATAAC CATGCCACAT CGGCGTCCGG TTCCTCCAAT 
TTGACTAGAG AGTACGATCC TGGTTATTCA GGCAACGACG ACCCTTACGA AGCCCGAAAC 
TTACCCAACG GTCCGTATGA AACTTTAACC AAATGCATCG CGACCCCAGA AACACAGTCC 
GACTTTATTG CCTCTGGCGT CGTTCGTCCT AACGTCGACT ATCGAGTCAG AGTGCGCCAT 
GCCCGGCGCG CCGGAGGGTG GAACAAGTTC CAGTTCTACA CTCCAAACGG CGACGAGGAA 
GAGTTCCGAA CTTTGCTTTA TGGCGAACTC AGCGATCGTC AAGCCGGTAC TCGTATTGGC 
GCTATGGGCA ATTTTTATAC CGGTGGAAAC GATAGCTCGA AGAAAATCAT CGACGGTACT 
AGCGTTAAGA ACATATATTG TCTTCATCAT CCTTCATCCG CCCCTCCCGC AATTCGAGTA 
GGATTCGACA ATCAACTCAA CGCTTTAAGC GCCATGGCCG ACATGGTTGG CGAGTTATCG 
CACAAAGAAG TTGGTCCCGT CTCTGCTACT GCCCCCGATG GACATACTCC CATCATCAAA 
TGTTCCGGCC CTCAAGTTTA CAAGGACATG GGTTGGGCTG ACCCTGTGGG TTGGTGGGTA 
TGGGTCAGGT GGGTGTGGGT GTGGGTCACT TCTGCGGCAC CCACACCTAA CCCACCTGAC 
CCACGGGTTA CTGGAGTCTC AAGTGCCAAT GGGAAAAATG CTTCTTTAAA TATTTATGTC 
CAATATCTAT TTGTACTCCA ATCACTCACA ATTCCACTCT ACCCATGCTT CCAAAACCCA 
TGGGTTTCAG ACCCACACCC ACACCCACAT AAACCCACGG AAACCCACAC CCACACTCAT 
GGGTATGGGT TTTGCCTCCA AAGCTGTTCT TCCGCAAACA GAAACGATAA GGAGGATAAA 
ACACGCGACA CCGCTAATAT CGAAGAGGGG GCTTTATATC CTTGCCATTT CCTGCCTGAC 
CACACTGGCA ATCGATTCGA TCATGTCTCT TCGGTTGTTC CCCAACCTCT TGTGTACGAC 
ATCAACGACG ACCTCGTACC ACCATGGTTG CTGTATACCG TTTTGAAGCC GGGAGTATTG 
GTCATGATCG AAGGCGTCCC AAGCGCCTGG GACATTCCTG GAGTCAAAAC GACTCTTCAA 
TTTAACGTCG ATTCTGTCAA AGTCATAGGT TATTCAAACA CGTCACCTCA AGAGCCTCCC 
ATTATCCCAA TTGGCCCTAT GGAGGACAAT AAACCACTGA CAACTACCCA AAAACGAAGC 
TCCCATTTCG ACGCTTTTAA CAAGACCACC AAAAAACCCC GCGTCGAGGA TAGCCCTGCC 
ACCAATCGCC GATCAAATCT TCAAACCAAC AGCGCCTTCT CCACTACGTC ATCATCATCC 
AATTCTATCG CTTCCGCTTC GAACTCGACT GTTACTTCCA ATAAGCCTTC AACCACGAAA 
GGAAAATCGA AAGCAGTTTC CCGAAAGTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_002910725.1
CDS	1..5430
Translation	MSKTIPKNNRKAKDEVVEKHRGSHAESGRLEGGYEVSPHGPHRPSVAGRVGPLVLAGCGLADADIHRADTCGESACAGVGWRCGDVGDAGCGEMMASAGMRGVMRDHVGLCGGCGSRLLNTHVAYAALEVAVTKLDVVSHSKALLRKCAFSLLSNQELSAQQVMSYLMEYGDHYTSHTFRGFYWPAAVKEVSSSDSNNEQDTDFVVSEEETFIDVSKSGNLIQKCAYLEDYIHRPTTLHSFNLWDFLSQFEKIRTATTAEKKMPKYKRHRSIAVDDDDVSSGSESDESSEYSSSDMSDDELCPAPRSNKFFFKDGHRQHNTHHLRRRSEHRYVIPQPIGPSLPRRDKPEIFDQYKLTMLTFFVPWHDRGSIDTLFSPESTQSYDLFVNNCTDRVKWLMCNMQLLHECKDSKDDDYAHRRAREHNTMPRVVAPDNATSNDDCSQLNMDEIERELALQHLQELAATTSNNRSSRRQAADDALESMKSGGVYNKHVQSSPIEGNEYRTTDTYQEDVWKAEYEHRRRNWKRSVVEQAKHTAHQSNSITASANQNQLDAFGSLSTSAPVPTYTSLDLDRMTSNQLSQLLHTRKEIIASNYCLNEAQQRAYYKIVQSHIFAVEGRKQGPVRMFLTGPGGTGKSTVIKAITEFFRYNLEEPHVRLCAYTGVAAKNIGGMTLHAALNLNLKLSSTSTTVNRDLISLWEGIDYLVIDEVSMIGCNTLRKISDSLCAAKQSSAPFGGINIIFAGDFAQLPPIKETPLYSRLKTWNAANSWSQDVVLGKLLWNSIDTVVRLDEVMRQAGVRQQRFVELLSRLRKGQCTIEDYELLQSRRLSRLPNEEIPSALDTVTLVTSNEEKDLLNEQAVKEFSRTTNRPLHWYYASDKIGQNTVQCSSAVTASLVKYSGSQVKYRLTKLPLVIGMPIMLVQNFDVASGVVNGIIGKLKKIRYTVDAEGFRHLTSCVLHSDNANASAMSSLEQYDVPCFEDSVSISFKNFFSGKSLNVRRTQVPIVPAFTVTTHKAQGQTLDRAFLDLSACTGSENPYVMLSRVRTLDGVFIIKDFPYSKITSRLSEDLRHEFKRIDVLSDYGAGIVHSSDVNEFHSRFLDQFNKCLRQIDNFAFDRANHDSCYVEKQTCLRSIEERLTSIPLPSMPALRSNVTVPPRIPISDVINAGDAPMDVDRPGVSTPVSPLQQPSTFAADRTESSSMFGIDVTPALKRSRYETSHPNKRSMPNRSLTLLLRSQPLFFPRTRLHLSIQWQLARATKSNYQEQLGILLRRIHCIMATDIPMLDFDPNQERHSPATTNATTTNDGNNHATSASGSSNLTREYDPGYSGNDDPYEARNLPNGPYETLTKCIATPETQSDFIASGVVRPNVDYRVRVRHARRAGGWNKFQFYTPNGDEEEFRTLLYGELSDRQAGTRIGAMGNFYTGGNDSSKKIIDGTSVKNIYCLHHPSSAPPAIRVGFDNQLNALSAMADMVGELSHKEVGPVSATAPDGHTPIIKCSGPQVYKDMGWADPVGWWVWVRWVWVWVTSAAPTPNPPDPRVTGVSSANGKNASLNIYVQYLFVLQSLTIPLYPCFQNPWVSDPHPHPHKPTETHTHTHGYGFCLQSCSSANRNDKEDKTRDTANIEEGALYPCHFLPDHTGNRFDHVSSVVPQPLVYDINDDLVPPWLLYTVLKPGVLVMIEGVPSAWDIPGVKTTLQFNVDSVKVIGYSNTSPQEPPIIPIGPMEDNKPLTTTQKRSSHFDAFNKTTKKPRVEDSPATNRRSNLQTNSAFSTTSSSSNSIASASNSTVTSNKPSTTKGKSKAVSRK

Target ORF information:

RefSeq Version	XM_002910679.1
Organism	Coprinopsis cinerea okayama7#130(Coprinus cinereus okayama7#130)
Definition	Coprinopsis cinerea okayama7#130 PIF1 protein (CC1G_15059), partial mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_002910679.1

ORF Insert Sequence:

ATGAGTAAGA CAATTCCAAA GAACAATAGA AAAGCAAAGG ATGAAGTCGT AGAGAAGCAC 
AGAGGGTCAC ATGCAGAATC TGGGCGCCTA GAGGGCGGTT ACGAGGTTTC TCCGCACGGT 
CCGCACCGGC CCTCAGTTGC GGGCCGTGTC GGTCCGCTGG TACTTGCGGG CTGCGGACTT 
GCGGATGCGG ACATCCATAG AGCGGACACA TGCGGGGAGT CCGCATGTGC AGGAGTGGGA 
TGGAGGTGCG GAGATGTGGG AGATGCGGGA TGCGGAGAGA TGATGGCGAG TGCGGGGATG 
CGCGGGGTCA TGCGGGATCA TGTGGGACTG TGCGGGGGGT GTGGGTCAAG GCTGCTCAAC 
ACTCACGTTG CATACGCCGC CCTTGAAGTC GCCGTAACAA AACTTGACGT CGTATCGCAT 
TCCAAAGCGT TGTTACGAAA ATGCGCATTT TCTTTACTAA GTAACCAAGA GCTTTCCGCC 
CAACAAGTGA TGAGTTATCT TATGGAATAC GGCGATCATT ATACTAGCCA TACCTTTCGA 
GGATTCTACT GGCCTGCTGC CGTAAAAGAG GTTTCTTCTT CTGATTCTAA CAACGAACAG 
GATACCGACT TTGTTGTAAG CGAAGAGGAG ACGTTCATCG ATGTATCCAA GTCGGGAAAT 
CTTATACAAA AATGTGCTTA CCTTGAAGAT TATATCCACC GCCCTACCAC TCTCCATTCG 
TTCAATTTAT GGGATTTCCT GTCACAATTC GAAAAAATTC GAACTGCTAC TACAGCCGAG 
AAGAAGATGC CAAAATATAA GCGACATCGA TCTATTGCAG TCGATGACGA TGACGTTTCT 
TCAGGCAGTG AATCCGATGA ATCGAGTGAA TACTCCTCCA GCGATATGAG CGACGACGAA 
TTGTGTCCAG CGCCTAGAAG TAATAAGTTT TTCTTCAAAG ACGGACATCG TCAGCATAAT 
ACACATCATC TGAGACGGCG TTCGGAACAT CGTTATGTTA TTCCACAACC AATAGGCCCT 
TCACTGCCTA GAAGAGATAA ACCTGAGATC TTCGATCAAT ACAAATTGAC GATGCTTACA 
TTCTTCGTAC CGTGGCATGA TAGAGGAAGC ATCGACACCC TTTTTTCGCC AGAAAGTACC 
CAATCGTATG ATCTATTTGT TAACAACTGT ACAGACCGAG TGAAATGGTT AATGTGTAAC 
ATGCAGTTGC TACATGAATG CAAGGACAGT AAAGATGACG ATTACGCTCA CCGTCGTGCT 
AGGGAACACA ACACAATGCC CAGAGTTGTA GCACCTGATA ACGCGACTAG CAACGATGAT 
TGCAGTCAGT TAAATATGGA CGAAATCGAA CGAGAACTTG CTTTACAACA CCTTCAAGAA 
TTGGCCGCTA CCACGTCAAA TAACAGGTCG TCTCGTCGCC AAGCCGCGGA CGACGCTTTG 
GAATCAATGA AATCCGGAGG TGTTTATAAC AAACACGTTC AAAGTAGTCC AATCGAAGGC 
AATGAGTATA GGACCACAGA TACATATCAA GAAGATGTAT GGAAAGCAGA GTACGAACAC 
CGTCGACGAA ACTGGAAGCG ATCTGTAGTT GAACAAGCCA AACATACCGC GCATCAAAGT 
AATTCAATTA CCGCGAGCGC TAATCAAAAT CAACTCGACG CTTTTGGTTC GTTATCGACT 
TCTGCGCCCG TACCTACCTA TACATCACTT GACTTGGATC GAATGACATC TAATCAACTA 
TCACAATTAC TACATACGAG AAAAGAAATC ATCGCTTCCA ACTATTGCTT AAATGAAGCA 
CAACAACGAG CTTATTATAA AATTGTTCAG TCCCATATAT TTGCTGTAGA GGGTCGAAAA 
CAGGGTCCCG TTCGTATGTT TTTAACCGGT CCCGGAGGAA CTGGAAAATC GACTGTCATT 
AAGGCGATTA CGGAGTTCTT TCGCTATAAT CTTGAAGAAC CCCATGTTCG TCTATGTGCG 
TATACAGGTG TCGCTGCTAA AAACATCGGT GGTATGACCC TCCACGCTGC TTTAAATTTA 
AATTTAAAAC TGAGTTCTAC ATCTACTACT GTAAATCGAG ACTTAATATC TTTGTGGGAA 
GGTATTGACT ACCTTGTAAT CGATGAAGTA TCAATGATTG GGTGTAACAC ATTACGAAAA 
ATTAGTGATT CTTTATGTGC AGCTAAGCAA TCTAGCGCTC CTTTCGGTGG CATAAACATC 
ATCTTCGCAG GTGATTTTGC GCAGCTACCA CCCATAAAAG AAACACCATT ATATTCACGG 
TTAAAGACTT GGAATGCTGC AAATTCGTGG TCGCAGGACG TTGTTCTTGG TAAACTATTA 
TGGAATTCTA TAGATACCGT CGTTCGACTT GACGAGGTTA TGAGACAGGC TGGTGTTCGT 
CAACAAAGAT TCGTTGAGTT ATTGTCCCGT CTTCGTAAAG GCCAATGCAC CATCGAAGAC 
TACGAATTAC TTCAATCAAG ACGACTTTCT CGGCTACCAA ATGAAGAAAT ACCAAGCGCT 
TTAGACACAG TTACATTAGT CACATCTAAC GAAGAGAAAG ATTTACTTAA TGAGCAAGCA 
GTTAAAGAAT TTAGTCGCAC TACTAACAGA CCTTTACACT GGTACTATGC ATCGGATAAA 
ATAGGCCAAA ATACAGTCCA ATGTTCAAGC GCTGTTACTG CGTCGTTAGT TAAATATTCC 
GGCAGTCAAG TCAAATACCG ACTGACGAAA TTACCTCTTG TAATAGGAAT GCCGATAATG 
CTCGTTCAAA ATTTCGATGT GGCCAGTGGC GTTGTCAATG GAATAATTGG AAAATTGAAA 
AAGATTCGCT ATACGGTTGA TGCGGAAGGA TTTCGTCATT TGACGTCTTG TGTTTTGCAC 
TCTGATAACG CGAATGCATC TGCTATGTCT TCACTAGAAC AATATGATGT TCCATGTTTC 
GAAGACTCGG TGTCCATTTC CTTTAAAAAT TTCTTCAGTG GCAAATCACT GAATGTAAGG 
AGAACTCAAG TACCAATCGT GCCCGCCTTT ACGGTCACAA CCCACAAAGC CCAAGGTCAA 
ACTTTAGACC GCGCTTTTCT CGATTTAAGC GCTTGCACAG GTTCCGAAAA TCCATATGTG 
ATGTTATCGC GAGTGCGAAC TCTAGATGGC GTATTTATCA TAAAGGATTT TCCCTATTCC 
AAGATTACTT CTCGTCTTTC TGAAGACCTT CGGCATGAAT TCAAAAGAAT TGACGTTCTC 
AGCGACTATG GTGCTGGCAT TGTTCATTCA TCTGACGTTA ATGAGTTTCA TTCTCGATTC 
CTTGATCAGT TCAACAAATG CCTTCGACAA ATCGATAACT TTGCATTCGA CCGTGCAAAC 
CATGATTCCT GCTATGTGGA AAAACAAACA TGCCTTCGCA GTATCGAGGA ACGACTTACT 
TCAATACCAC TTCCTTCAAT GCCTGCACTT CGTTCAAATG TTACTGTTCC GCCAAGAATC 
CCCATCAGTG ACGTAATTAA TGCTGGTGAC GCTCCTATGG ATGTCGACCG CCCCGGTGTT 
TCAACACCTG TTTCTCCGCT CCAGCAACCC TCCACTTTCG CTGCGGACAG AACAGAATCG 
TCGTCTATGT TTGGCATCGA CGTGACACCC GCTCTAAAAC GTTCAAGATA CGAAACTTCT 
CACCCCAACA AGCGATCGAT GCCCAATAGA TCTCTAACTC TGCTGCTGCG TTCTCAGCCA 
TTATTCTTCC CTCGAACTCG TCTTCACTTA TCCATTCAGT GGCAACTGGC GAGAGCTACC 
AAATCTAATT ATCAAGAACA ACTCGGTATA TTATTGCGTC GTATCCACTG CATCATGGCC 
ACCGACATCC CAATGCTCGA CTTTGATCCT AATCAAGAAC GTCATTCGCC TGCCACTACA 
AATGCGACCA CTACGAACGA CGGCAATAAC CATGCCACAT CGGCGTCCGG TTCCTCCAAT 
TTGACTAGAG AGTACGATCC TGGTTATTCA GGCAACGACG ACCCTTACGA AGCCCGAAAC 
TTACCCAACG GTCCGTATGA AACTTTAACC AAATGCATCG CGACCCCAGA AACACAGTCC 
GACTTTATTG CCTCTGGCGT CGTTCGTCCT AACGTCGACT ATCGAGTCAG AGTGCGCCAT 
GCCCGGCGCG CCGGAGGGTG GAACAAGTTC CAGTTCTACA CTCCAAACGG CGACGAGGAA 
GAGTTCCGAA CTTTGCTTTA TGGCGAACTC AGCGATCGTC AAGCCGGTAC TCGTATTGGC 
GCTATGGGCA ATTTTTATAC CGGTGGAAAC GATAGCTCGA AGAAAATCAT CGACGGTACT 
AGCGTTAAGA ACATATATTG TCTTCATCAT CCTTCATCCG CCCCTCCCGC AATTCGAGTA 
GGATTCGACA ATCAACTCAA CGCTTTAAGC GCCATGGCCG ACATGGTTGG CGAGTTATCG 
CACAAAGAAG TTGGTCCCGT CTCTGCTACT GCCCCCGATG GACATACTCC CATCATCAAA 
TGTTCCGGCC CTCAAGTTTA CAAGGACATG GGTTGGGCTG ACCCTGTGGG TTGGTGGGTA 
TGGGTCAGGT GGGTGTGGGT GTGGGTCACT TCTGCGGCAC CCACACCTAA CCCACCTGAC 
CCACGGGTTA CTGGAGTCTC AAGTGCCAAT GGGAAAAATG CTTCTTTAAA TATTTATGTC 
CAATATCTAT TTGTACTCCA ATCACTCACA ATTCCACTCT ACCCATGCTT CCAAAACCCA 
TGGGTTTCAG ACCCACACCC ACACCCACAT AAACCCACGG AAACCCACAC CCACACTCAT 
GGGTATGGGT TTTGCCTCCA AAGCTGTTCT TCCGCAAACA GAAACGATAA GGAGGATAAA 
ACACGCGACA CCGCTAATAT CGAAGAGGGG GCTTTATATC CTTGCCATTT CCTGCCTGAC 
CACACTGGCA ATCGATTCGA TCATGTCTCT TCGGTTGTTC CCCAACCTCT TGTGTACGAC 
ATCAACGACG ACCTCGTACC ACCATGGTTG CTGTATACCG TTTTGAAGCC GGGAGTATTG 
GTCATGATCG AAGGCGTCCC AAGCGCCTGG GACATTCCTG GAGTCAAAAC GACTCTTCAA 
TTTAACGTCG ATTCTGTCAA AGTCATAGGT TATTCAAACA CGTCACCTCA AGAGCCTCCC 
ATTATCCCAA TTGGCCCTAT GGAGGACAAT AAACCACTGA CAACTACCCA AAAACGAAGC 
TCCCATTTCG ACGCTTTTAA CAAGACCACC AAAAAACCCC GCGTCGAGGA TAGCCCTGCC 
ACCAATCGCC GATCAAATCT TCAAACCAAC AGCGCCTTCT CCACTACGTC ATCATCATCC 
AATTCTATCG CTTCCGCTTC GAACTCGACT GTTACTTCCA ATAAGCCTTC AACCACGAAA 
GGAAAATCGA AAGCAGTTTC CCGAAAGTAA

The 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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CC1G_15059 cDNA ORF clone, Coprinopsis cinerea okayama7#130(Coprinus cinereus okayama7#130)

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