CC1G_03004 cDNA ORF clone, Coprinopsis cinerea okayama7#130(Coprinus cinereus okayama7#130)

Gene
Clones
gRNAs

Summary

Gene Symbol	CC1G_03004
Entrez Gene ID	6012453
Full Name	hypothetical protein
Gene Type	protein-coding
Organism	Coprinopsis cinerea okayama7#130(Coprinus cinereus okayama7#130)

mRNA and Protein(s)

mRNA	Protein	Name
XM_001835864.2	XP_001835916.2	hypothetical 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_03004 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CC1G_03004 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
OCj06514	XM_001835864.2 Latest version!	Coprinopsis cinerea okayama7#130 hypothetical protein (CC1G_03004), partial mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$951.30 $1359.00

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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_03004 ( XM_001835864.2 ) cDNA ORF clone, Coprinopsis cinerea okayama7#130(Coprinus cinereus okayama7#130) -> XP_001835916.2 Coprinopsis cinerea okayama7#130 hypothetical protein (CC1G_03004), partial mRNA.

Price & Availability↑

CloneID	OCj06514
Clone ID Related Accession (Same CDS sequence)	XM_001835864.2
Accession Version	XM_001835864.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5475bp) 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	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_003307537). On Jun 25, 2010 this sequence version replaced XM_001835864.1. COMPLETENESS: incomplete on both ends.

ATGGATGAGC TCAGGGCTGA ATACGATAGA ACCCAAGTGG AGCTCGAGCA GGCCCTTTCC 
GAGAAGGAGG CTTTGAACAA CGACTCCCTT GCGAAACAGA CCTCTATGCA AGAGGAGAAT 
GCGAAGCTGA AGGACCAACA CGATAAACTA GCTGAAGACA ACGTTGCTCT GAAAGCACAA 
ATATCCACCC TTTCGGAATC GCAAAGCTCG TCCTCGTCCG AAGTTCAGTC TCTGAAGCAG 
CAATTGGGCG ATGCGGAGCG GGAGAAGCGT GATCTCATGA GTGTCATTAG TCGTTCGAAG 
CAGGAAGAGG CTCAGCGTGA AGAGGAGTTG CAAAGTTTGC GCTCCAGCTT GAAAGAAGCG 
CGTCAAGAAC ATCTGAGACT CGAATCGCAA ATACGGGAAC TCCGCTCTCA GGAAACGTCT 
ACCAAGTTCA AACTCGACAC CTTGACGCAA CAACTCCAAC TCGCACAAAC GGAAGCTGAG 
CGATCCAATG CCGAACTTAC GACCAAGACG GAGGAATTCG CCAAATACCG ACGGACCAAG 
CACGCGGAAA TGCTCAATCT CCAATCTTCA TACGATTCTC TTTCTCAAGA ACTCACCTCG 
TCCAAGGCAT CTCTCAAGGC TCTTCAATCG GCACATAGCG CCCAAACCAC CCAGTTGACG 
CAAGCGCTCT CGAAGATTCA ATCCTTGAAT GGCCAAATAG CCGAACAAGA AGCCAAGTAT 
GCCAGCGAGG CGAACGGTCT CAAACGGTTG GTTCAGATGA TGGAGGAGAG GGAGAAGCAG 
GCGAAGGAGA TTGTGGAGAA CATCGAGAGT CAATGGGCTA CAGTAGGCGA GAAGGCAGAG 
AGGAGGGAGA ATCAACTGAA GGACCAACTG CAGCACGAAG CCAAACGTCG AGAAGAGGCC 
GAGAAACGCG TCGACCAACT CGAAAAGGTT TTGCATCGCA TGGGCCGTGG CGAACTCCCA 
GTCCCTGGCA CACCCCTTCG AACACCTGGC ACTCCCGGAA ACGGCACCGA CTTCGACGGC 
ATGCTTGGTC TTAGTCCCAC AGTGGCTCTG GCAAGCAAGT CTCAGCGCAG CGGGAAGACA 
TTCACGGAGG TCTACACCGA CTATGTTCGT CTTCAGGAAG AGTACGCCAA GAAGTGTGCT 
GAACATGACC AAATGGACCG CACCTTGACC GCTGTCTTGG CCGAAATCGA AGAGCGGGCG 
CCACTTCTCA CCCAACAACG AATTGAGTAT GAGAGAGTCA CTGCGGAGGC CACAGAGCTA 
TCCGCGCAAC TCTCGCATGC CCTTGCTGAT AGAGAAGCTC AAGCCAAGCT CGCTGAAACG 
CAGACGCAGA AACTGGTGAA GTCCACTCGA GAGAACGCCC TTTTGCAACA GCAACTTTCA 
GATCTTGGAC GTCAAGTGCA AACCTTGCTT AAGGAAATAG CTCGTCGTGA CGACCCCACC 
ATCCCAACCG ACGAAGAAAT GGAGAGCGTG CCGTTCGTAC CCGCTAACGA TGTCAACACC 
ATCATCACCA ACAACCTCGT ACTGTTCCGA AGCATCGAGT CTTTGCAGGA ACAGAATCAG 
AAGCTGTTGA GGATCACGAG GGAATTGGGA GAGAAGATGG AGGCGGAGGA GAAGGAATAC 
AAGGCTGCGA TGGAACAGGA ACAAGCTGAA GCCATTCGTG AAGCGCACGA AGCTATGCAG 
GAGTTGGCAG CGCAGTTGGA GACACAGAAG AAGAACAGCG ACACCCTCAT TCAGTCATAT 
GTCAAGGAGC GCGACGCACT TAAGGCCATG CTCTCGCGAG CAGAGGCTGC AGCATCTCGC 
GCCGGCATCA GCATTGACGT TGGCCAGGCA CCACCTTCCG CAGAGACCTC AGCTCCAGTC 
ATGCCAGACT CCGAAGTTGC CAGGGAACTT GCTGAGGTTC AGCAGCAGTT CGATGCATAC 
AGGACGGAGA TGGGCCATGA CGCTACTCGC TTGCGGGATG AGCTCACGTC TGCGCAGCGA 
GAAGTACATG AACTCACCAC CAGTCTTGCA AAGGCTAATG CAAAGATCGA ATATCTCAAC 
GAGCGTCACC GAGTCCACGC TGAGCAATAT CAACTCACCA GCCGCGATTT GGAAGAGATC 
ACGAAGCGCA ACCAGGCCCT CTTCGATCAG TGGACAAGAG CGGATGTTGA ATGTTCAAGA 
CTTTCCGAAG ACTTGCACGT CGCGAATGCT CGCCTTGAGC AACTCAGGAA TGAGTCTGCC 
AATCTCCGTG CCGAGAAACA GATCTGGGAA GGTGTACAGG CCCGACTGTT GGATGAGAAC 
AAGACTCTGG CCATGGAGCG ATCGCACCTC TCGGATCTGA TGGCGAACAT TCAGAAGATG 
CACAACGACC TTGAACGTTC GGGAGAGAAC GACCGCCGTC GTCTCGAAAA CCAACTGCAG 
ATGCTGGAAG CTCAAAGTCA GGATCTGAGA ACCCAATTGT CTCGCGAGCG CGACTCCCTT 
CGCCATGTCA CCACGCAGAA GGACCTCGAG TCTAAGGACC TCCAGAGCCG GTTGGACAAG 
GCTAACCTCG AGTTGTCGAA GACCCGGGAG ACCCTTGTCG GTGCTGAAAC TAGCAAGCAA 
CATCTCGAGC AGCGGGTTGA AGACCTTACG AAGCAGTTGC ACGGCCTTGA AGAGAAGCTC 
GGTGTCTACG AGGGTCGTCC TTCAACCGCG ATTGCAGCAC CAGCACCTTC TGTTGACCCC 
AACATGAGTC GCGAGCAGCA ACTCGAGCAA GAAGTTGCGG AGCTCAGATC CGCTCTTAAG 
GTTGCAGAGG TCGATTTGGC TAGTGCCAAG GGGCACGTCG AACAATTCAA GGAGATCAGT 
CAAGCTAACG AAGTCGCTCT TGCCAACCTC AACTCCACGT TCGACGAGTA CAAGTCCTCT 
ACAGAGAGCC AAATCGCAAG ACAAGAAGCT GAGTACAAGG CATTGGAAGC GAAACTCGAG 
GCCGCCAGCG CCGAGTTGGC TCGACTCCGT GAACAATACA ATGCCTCTCA GAAGGCTTTC 
GAGGAGGAGC GAACTGCCCT TAAGAACGAC AAGAAGATCT TGGAGGACAC TATTGTCGAC 
ATGACTACTT CTGAGAAACA CTTGGAGAGT GATCGTTCGT CGAGAGAACA GGAGATCAAG 
CTCGTTGAGG AACGGGCCAA GGCCGCTGAA GAACGCTATT CCAAGGAGGT TGTCGCTCAT 
GCTGAGTCCA TCAAGACCAT TGAACAACTC CGCCGCGATC TTTCCGATGC TCAGAACAAG 
GCCCGTGAAA ATCAAGCTGC TTCGGAGACT GCTGTCGCGA AGTTGGCTGC TTCTGAGCAG 
AGCTGGAAGC AACAGAAAGA GACCCTTGAT AAAGAGATTT CTGATCTCAA CGCTCGATGC 
CAGGATCTTT CGTCGCAAAA TACGCTCCTC CATCAGCACC TTGAATCGGT CAGCTCGCAG 
GCTGCACGCA TTAGACAAGC AGCGAACGAC TCTGCTTCTA CTCCTGCAAC CGAGGGAGAT 
GGATCAGAAG ATGCTGCCAA GGAACTGGAG AACCTTCGCC CTGTGGTCTC TTACCTAAGG 
AAGGAGAAGG AGATTGTGGA GTTGCAGCTT GAACTTGGCA AGCAGGAGAA TGCGCGATTG 
AAGTCTCAGA TTGAACACCT CTCGCAGTCA TTGGAAGAGG CTAGGACGAC GATCTCCGAG 
GAACGCGAAC GCGCTGTACA GAGCGCTGCG TCGGCCGCCC AACATGCTGA ACTCGTGGAG 
AAGATGCAAC AGATTAATGT TCTCCGCGAG AGCAATAGTC TGCTCCGTGC CGAGTGCTCA 
AGCAACGCGA AGAAAGCCAG CGATTTGGAG ACCAAGTTAG CGCAACTCAG TGCTGAAGTG 
GAACCTGCCA AGGAACAGGC GCGCGTCGCG CAGGCTGAAC TCGAGGCCGC CAAAGGACAG 
GTACAACGGC TTGAGCAGGA AAGCCGTGGC TGGCAAGAGA GGAACAGTCG TCTGCTCTCC 
AAGTATCAGC GAGTGGATGC CTCTGAAGTT CAAGCTCTGA AGGAAGAGGT CGAGAAACTC 
AAGGCTGAAA TAGAGGAACA CGCAGTCGCT AAGAAGAAGG CAGAAGATGC CGTTAAGAAA 
TCCTCTGACA ACGTGGAACG TCTGAATAAC GCGATCGAGA TGCAGCGCAA ACGATTAATT 
GAGGAGAGGA ATGAATCGAG GGCCACGATC GCTAAGCTAG AGGCCAAAAT CGCTACTTTG 
TCATCGCAAG ACGAAATCAA GAACTTGCAG CAAAGTGTGG CTACTTTGCA GACCGAGAAA 
GCCACCTTGT TGGCTGAAAA GGAGGCGTTG GAGAAAGCTG CCAGCGCGGC GGTCCCAGCG 
GCAGCATCGA GTGCACCTGC ACCTAATTGG GAGGCTGAAA AGGCTGAAAT AATCAAGGCG 
CGTGACGAGG CCGTCCAGCA AATTAAGGAA TTGGTGGAAG AGAAACGAGG CTTGAAGATG 
CAGAATGAGA ACTTCCAGAA AAGACTTGCT GATACGACGA AATTACGCCG CGCCGACCAA 
GAGCGACATG TGGTCGCAGT TGAGAAGGCA GTCGAGCAGA CGAAGACTGA AATGCAAGTC 
GCGAAAGAAC AGGAGATCAA GGCGATGGAG AAACAGCATG CAGAAGCGTT GGAAAGCTTG 
CGAAAGGAGC TGGAGGCCAA GCAAAGAGCC GAGATCAAGC CCGACCCACA GGCTACCGTC 
AAATCAGAGC CTGCGGATCA ACAGGCTGCA ATCGAAGCTG CCTTGGCCGC TGAAAGGGCA 
TCCTTCGAGC AGCAGATCAA CAGTGCGCGG GACAGTGGTC GGAAGGAAGC CGAAATGAAG 
TTGCGCGTCG TCCAGAAGCA ATGTGAAAAG GCCAAACGGC GAGTTAAGGA TCTCGAGCAG 
AATATCCACG AGTGGGAAGC TTCTGGCTTG TTACCTGCCG GCAGCCTTGC CAGCATTCCT 
CCTCCGGTAG TACCAGATGC TAAGGCTGTA GCTTCTTCAG CGCCGCCTCC TGCAACTCCC 
GCTGCACCCA CGGAAACTCA GCCTGCTGCC AAACCTGAGG CAAAACCTGC CACTGCCGCT 
CAGCCTACCC AAACACCTCC TGCTACGACC GCTGCAGCAC AAAATACGCC CGCTGCAAAA 
CCTGCTGCCC CAGTCCGGAG TCAGCCTGCT CCAAAACCTG CTGCTCCCGC TACCATCCAA 
GGTCAACGAC CTGCCACCAC CGCTGCCGCG ACGACTGCTG CTGCTGGTGC CCCAGTGCGA 
CGGCAAGCTC CTGCCGGCGC TGCTCCCCGA GGAGGGGCCG CAGTACGTGG GCGTGGTGTG 
CCGTTGGGTC GTGTTGCTCC TTCGCGTCCA CTGCCAACGA AGCCAGCCGC CCCGGGAGGC 
CTTTCGATTG CTGGTGCTGC TGCAGCAGCA GCAGCTTCCA CTGCAGGACC CAAACGACCT 
CGGGACGAAT CGGATAATAC TGGTCAAAGC GACTCTCTTG CGAAGCGGTT GAAACCCGCT 
GATGAATTTT TGTAA

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

RefSeq	XP_001835916.2
CDS	1..5475
Translation	MDELRAEYDRTQVELEQALSEKEALNNDSLAKQTSMQEENAKLKDQHDKLAEDNVALKAQISTLSESQSSSSSEVQSLKQQLGDAEREKRDLMSVISRSKQEEAQREEELQSLRSSLKEARQEHLRLESQIRELRSQETSTKFKLDTLTQQLQLAQTEAERSNAELTTKTEEFAKYRRTKHAEMLNLQSSYDSLSQELTSSKASLKALQSAHSAQTTQLTQALSKIQSLNGQIAEQEAKYASEANGLKRLVQMMEEREKQAKEIVENIESQWATVGEKAERRENQLKDQLQHEAKRREEAEKRVDQLEKVLHRMGRGELPVPGTPLRTPGTPGNGTDFDGMLGLSPTVALASKSQRSGKTFTEVYTDYVRLQEEYAKKCAEHDQMDRTLTAVLAEIEERAPLLTQQRIEYERVTAEATELSAQLSHALADREAQAKLAETQTQKLVKSTRENALLQQQLSDLGRQVQTLLKEIARRDDPTIPTDEEMESVPFVPANDVNTIITNNLVLFRSIESLQEQNQKLLRITRELGEKMEAEEKEYKAAMEQEQAEAIREAHEAMQELAAQLETQKKNSDTLIQSYVKERDALKAMLSRAEAAASRAGISIDVGQAPPSAETSAPVMPDSEVARELAEVQQQFDAYRTEMGHDATRLRDELTSAQREVHELTTSLAKANAKIEYLNERHRVHAEQYQLTSRDLEEITKRNQALFDQWTRADVECSRLSEDLHVANARLEQLRNESANLRAEKQIWEGVQARLLDENKTLAMERSHLSDLMANIQKMHNDLERSGENDRRRLENQLQMLEAQSQDLRTQLSRERDSLRHVTTQKDLESKDLQSRLDKANLELSKTRETLVGAETSKQHLEQRVEDLTKQLHGLEEKLGVYEGRPSTAIAAPAPSVDPNMSREQQLEQEVAELRSALKVAEVDLASAKGHVEQFKEISQANEVALANLNSTFDEYKSSTESQIARQEAEYKALEAKLEAASAELARLREQYNASQKAFEEERTALKNDKKILEDTIVDMTTSEKHLESDRSSREQEIKLVEERAKAAEERYSKEVVAHAESIKTIEQLRRDLSDAQNKARENQAASETAVAKLAASEQSWKQQKETLDKEISDLNARCQDLSSQNTLLHQHLESVSSQAARIRQAANDSASTPATEGDGSEDAAKELENLRPVVSYLRKEKEIVELQLELGKQENARLKSQIEHLSQSLEEARTTISEERERAVQSAASAAQHAELVEKMQQINVLRESNSLLRAECSSNAKKASDLETKLAQLSAEVEPAKEQARVAQAELEAAKGQVQRLEQESRGWQERNSRLLSKYQRVDASEVQALKEEVEKLKAEIEEHAVAKKKAEDAVKKSSDNVERLNNAIEMQRKRLIEERNESRATIAKLEAKIATLSSQDEIKNLQQSVATLQTEKATLLAEKEALEKAASAAVPAAASSAPAPNWEAEKAEIIKARDEAVQQIKELVEEKRGLKMQNENFQKRLADTTKLRRADQERHVVAVEKAVEQTKTEMQVAKEQEIKAMEKQHAEALESLRKELEAKQRAEIKPDPQATVKSEPADQQAAIEAALAAERASFEQQINSARDSGRKEAEMKLRVVQKQCEKAKRRVKDLEQNIHEWEASGLLPAGSLASIPPPVVPDAKAVASSAPPPATPAAPTETQPAAKPEAKPATAAQPTQTPPATTAAAQNTPAAKPAAPVRSQPAPKPAAPATIQGQRPATTAAATTAAAGAPVRRQAPAGAAPRGGAAVRGRGVPLGRVAPSRPLPTKPAAPGGLSIAGAAAAAAASTAGPKRPRDESDNTGQSDSLAKRLKPADEFL

Target ORF information:

RefSeq Version	XM_001835864.2
Organism	Coprinopsis cinerea okayama7#130(Coprinus cinereus okayama7#130)
Definition	Coprinopsis cinerea okayama7#130 hypothetical protein (CC1G_03004), partial mRNA.

Target ORF information:

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

XM_001835864.2

ORF Insert Sequence:

ATGGATGAGC TCAGGGCTGA ATACGATAGA ACCCAAGTGG AGCTCGAGCA GGCCCTTTCC 
GAGAAGGAGG CTTTGAACAA CGACTCCCTT GCGAAACAGA CCTCTATGCA AGAGGAGAAT 
GCGAAGCTGA AGGACCAACA CGATAAACTA GCTGAAGACA ACGTTGCTCT GAAAGCACAA 
ATATCCACCC TTTCGGAATC GCAAAGCTCG TCCTCGTCCG AAGTTCAGTC TCTGAAGCAG 
CAATTGGGCG ATGCGGAGCG GGAGAAGCGT GATCTCATGA GTGTCATTAG TCGTTCGAAG 
CAGGAAGAGG CTCAGCGTGA AGAGGAGTTG CAAAGTTTGC GCTCCAGCTT GAAAGAAGCG 
CGTCAAGAAC ATCTGAGACT CGAATCGCAA ATACGGGAAC TCCGCTCTCA GGAAACGTCT 
ACCAAGTTCA AACTCGACAC CTTGACGCAA CAACTCCAAC TCGCACAAAC GGAAGCTGAG 
CGATCCAATG CCGAACTTAC GACCAAGACG GAGGAATTCG CCAAATACCG ACGGACCAAG 
CACGCGGAAA TGCTCAATCT CCAATCTTCA TACGATTCTC TTTCTCAAGA ACTCACCTCG 
TCCAAGGCAT CTCTCAAGGC TCTTCAATCG GCACATAGCG CCCAAACCAC CCAGTTGACG 
CAAGCGCTCT CGAAGATTCA ATCCTTGAAT GGCCAAATAG CCGAACAAGA AGCCAAGTAT 
GCCAGCGAGG CGAACGGTCT CAAACGGTTG GTTCAGATGA TGGAGGAGAG GGAGAAGCAG 
GCGAAGGAGA TTGTGGAGAA CATCGAGAGT CAATGGGCTA CAGTAGGCGA GAAGGCAGAG 
AGGAGGGAGA ATCAACTGAA GGACCAACTG CAGCACGAAG CCAAACGTCG AGAAGAGGCC 
GAGAAACGCG TCGACCAACT CGAAAAGGTT TTGCATCGCA TGGGCCGTGG CGAACTCCCA 
GTCCCTGGCA CACCCCTTCG AACACCTGGC ACTCCCGGAA ACGGCACCGA CTTCGACGGC 
ATGCTTGGTC TTAGTCCCAC AGTGGCTCTG GCAAGCAAGT CTCAGCGCAG CGGGAAGACA 
TTCACGGAGG TCTACACCGA CTATGTTCGT CTTCAGGAAG AGTACGCCAA GAAGTGTGCT 
GAACATGACC AAATGGACCG CACCTTGACC GCTGTCTTGG CCGAAATCGA AGAGCGGGCG 
CCACTTCTCA CCCAACAACG AATTGAGTAT GAGAGAGTCA CTGCGGAGGC CACAGAGCTA 
TCCGCGCAAC TCTCGCATGC CCTTGCTGAT AGAGAAGCTC AAGCCAAGCT CGCTGAAACG 
CAGACGCAGA AACTGGTGAA GTCCACTCGA GAGAACGCCC TTTTGCAACA GCAACTTTCA 
GATCTTGGAC GTCAAGTGCA AACCTTGCTT AAGGAAATAG CTCGTCGTGA CGACCCCACC 
ATCCCAACCG ACGAAGAAAT GGAGAGCGTG CCGTTCGTAC CCGCTAACGA TGTCAACACC 
ATCATCACCA ACAACCTCGT ACTGTTCCGA AGCATCGAGT CTTTGCAGGA ACAGAATCAG 
AAGCTGTTGA GGATCACGAG GGAATTGGGA GAGAAGATGG AGGCGGAGGA GAAGGAATAC 
AAGGCTGCGA TGGAACAGGA ACAAGCTGAA GCCATTCGTG AAGCGCACGA AGCTATGCAG 
GAGTTGGCAG CGCAGTTGGA GACACAGAAG AAGAACAGCG ACACCCTCAT TCAGTCATAT 
GTCAAGGAGC GCGACGCACT TAAGGCCATG CTCTCGCGAG CAGAGGCTGC AGCATCTCGC 
GCCGGCATCA GCATTGACGT TGGCCAGGCA CCACCTTCCG CAGAGACCTC AGCTCCAGTC 
ATGCCAGACT CCGAAGTTGC CAGGGAACTT GCTGAGGTTC AGCAGCAGTT CGATGCATAC 
AGGACGGAGA TGGGCCATGA CGCTACTCGC TTGCGGGATG AGCTCACGTC TGCGCAGCGA 
GAAGTACATG AACTCACCAC CAGTCTTGCA AAGGCTAATG CAAAGATCGA ATATCTCAAC 
GAGCGTCACC GAGTCCACGC TGAGCAATAT CAACTCACCA GCCGCGATTT GGAAGAGATC 
ACGAAGCGCA ACCAGGCCCT CTTCGATCAG TGGACAAGAG CGGATGTTGA ATGTTCAAGA 
CTTTCCGAAG ACTTGCACGT CGCGAATGCT CGCCTTGAGC AACTCAGGAA TGAGTCTGCC 
AATCTCCGTG CCGAGAAACA GATCTGGGAA GGTGTACAGG CCCGACTGTT GGATGAGAAC 
AAGACTCTGG CCATGGAGCG ATCGCACCTC TCGGATCTGA TGGCGAACAT TCAGAAGATG 
CACAACGACC TTGAACGTTC GGGAGAGAAC GACCGCCGTC GTCTCGAAAA CCAACTGCAG 
ATGCTGGAAG CTCAAAGTCA GGATCTGAGA ACCCAATTGT CTCGCGAGCG CGACTCCCTT 
CGCCATGTCA CCACGCAGAA GGACCTCGAG TCTAAGGACC TCCAGAGCCG GTTGGACAAG 
GCTAACCTCG AGTTGTCGAA GACCCGGGAG ACCCTTGTCG GTGCTGAAAC TAGCAAGCAA 
CATCTCGAGC AGCGGGTTGA AGACCTTACG AAGCAGTTGC ACGGCCTTGA AGAGAAGCTC 
GGTGTCTACG AGGGTCGTCC TTCAACCGCG ATTGCAGCAC CAGCACCTTC TGTTGACCCC 
AACATGAGTC GCGAGCAGCA ACTCGAGCAA GAAGTTGCGG AGCTCAGATC CGCTCTTAAG 
GTTGCAGAGG TCGATTTGGC TAGTGCCAAG GGGCACGTCG AACAATTCAA GGAGATCAGT 
CAAGCTAACG AAGTCGCTCT TGCCAACCTC AACTCCACGT TCGACGAGTA CAAGTCCTCT 
ACAGAGAGCC AAATCGCAAG ACAAGAAGCT GAGTACAAGG CATTGGAAGC GAAACTCGAG 
GCCGCCAGCG CCGAGTTGGC TCGACTCCGT GAACAATACA ATGCCTCTCA GAAGGCTTTC 
GAGGAGGAGC GAACTGCCCT TAAGAACGAC AAGAAGATCT TGGAGGACAC TATTGTCGAC 
ATGACTACTT CTGAGAAACA CTTGGAGAGT GATCGTTCGT CGAGAGAACA GGAGATCAAG 
CTCGTTGAGG AACGGGCCAA GGCCGCTGAA GAACGCTATT CCAAGGAGGT TGTCGCTCAT 
GCTGAGTCCA TCAAGACCAT TGAACAACTC CGCCGCGATC TTTCCGATGC TCAGAACAAG 
GCCCGTGAAA ATCAAGCTGC TTCGGAGACT GCTGTCGCGA AGTTGGCTGC TTCTGAGCAG 
AGCTGGAAGC AACAGAAAGA GACCCTTGAT AAAGAGATTT CTGATCTCAA CGCTCGATGC 
CAGGATCTTT CGTCGCAAAA TACGCTCCTC CATCAGCACC TTGAATCGGT CAGCTCGCAG 
GCTGCACGCA TTAGACAAGC AGCGAACGAC TCTGCTTCTA CTCCTGCAAC CGAGGGAGAT 
GGATCAGAAG ATGCTGCCAA GGAACTGGAG AACCTTCGCC CTGTGGTCTC TTACCTAAGG 
AAGGAGAAGG AGATTGTGGA GTTGCAGCTT GAACTTGGCA AGCAGGAGAA TGCGCGATTG 
AAGTCTCAGA TTGAACACCT CTCGCAGTCA TTGGAAGAGG CTAGGACGAC GATCTCCGAG 
GAACGCGAAC GCGCTGTACA GAGCGCTGCG TCGGCCGCCC AACATGCTGA ACTCGTGGAG 
AAGATGCAAC AGATTAATGT TCTCCGCGAG AGCAATAGTC TGCTCCGTGC CGAGTGCTCA 
AGCAACGCGA AGAAAGCCAG CGATTTGGAG ACCAAGTTAG CGCAACTCAG TGCTGAAGTG 
GAACCTGCCA AGGAACAGGC GCGCGTCGCG CAGGCTGAAC TCGAGGCCGC CAAAGGACAG 
GTACAACGGC TTGAGCAGGA AAGCCGTGGC TGGCAAGAGA GGAACAGTCG TCTGCTCTCC 
AAGTATCAGC GAGTGGATGC CTCTGAAGTT CAAGCTCTGA AGGAAGAGGT CGAGAAACTC 
AAGGCTGAAA TAGAGGAACA CGCAGTCGCT AAGAAGAAGG CAGAAGATGC CGTTAAGAAA 
TCCTCTGACA ACGTGGAACG TCTGAATAAC GCGATCGAGA TGCAGCGCAA ACGATTAATT 
GAGGAGAGGA ATGAATCGAG GGCCACGATC GCTAAGCTAG AGGCCAAAAT CGCTACTTTG 
TCATCGCAAG ACGAAATCAA GAACTTGCAG CAAAGTGTGG CTACTTTGCA GACCGAGAAA 
GCCACCTTGT TGGCTGAAAA GGAGGCGTTG GAGAAAGCTG CCAGCGCGGC GGTCCCAGCG 
GCAGCATCGA GTGCACCTGC ACCTAATTGG GAGGCTGAAA AGGCTGAAAT AATCAAGGCG 
CGTGACGAGG CCGTCCAGCA AATTAAGGAA TTGGTGGAAG AGAAACGAGG CTTGAAGATG 
CAGAATGAGA ACTTCCAGAA AAGACTTGCT GATACGACGA AATTACGCCG CGCCGACCAA 
GAGCGACATG TGGTCGCAGT TGAGAAGGCA GTCGAGCAGA CGAAGACTGA AATGCAAGTC 
GCGAAAGAAC AGGAGATCAA GGCGATGGAG AAACAGCATG CAGAAGCGTT GGAAAGCTTG 
CGAAAGGAGC TGGAGGCCAA GCAAAGAGCC GAGATCAAGC CCGACCCACA GGCTACCGTC 
AAATCAGAGC CTGCGGATCA ACAGGCTGCA ATCGAAGCTG CCTTGGCCGC TGAAAGGGCA 
TCCTTCGAGC AGCAGATCAA CAGTGCGCGG GACAGTGGTC GGAAGGAAGC CGAAATGAAG 
TTGCGCGTCG TCCAGAAGCA ATGTGAAAAG GCCAAACGGC GAGTTAAGGA TCTCGAGCAG 
AATATCCACG AGTGGGAAGC TTCTGGCTTG TTACCTGCCG GCAGCCTTGC CAGCATTCCT 
CCTCCGGTAG TACCAGATGC TAAGGCTGTA GCTTCTTCAG CGCCGCCTCC TGCAACTCCC 
GCTGCACCCA CGGAAACTCA GCCTGCTGCC AAACCTGAGG CAAAACCTGC CACTGCCGCT 
CAGCCTACCC AAACACCTCC TGCTACGACC GCTGCAGCAC AAAATACGCC CGCTGCAAAA 
CCTGCTGCCC CAGTCCGGAG TCAGCCTGCT CCAAAACCTG CTGCTCCCGC TACCATCCAA 
GGTCAACGAC CTGCCACCAC CGCTGCCGCG ACGACTGCTG CTGCTGGTGC CCCAGTGCGA 
CGGCAAGCTC CTGCCGGCGC TGCTCCCCGA GGAGGGGCCG CAGTACGTGG GCGTGGTGTG 
CCGTTGGGTC GTGTTGCTCC TTCGCGTCCA CTGCCAACGA AGCCAGCCGC CCCGGGAGGC 
CTTTCGATTG CTGGTGCTGC TGCAGCAGCA GCAGCTTCCA CTGCAGGACC CAAACGACCT 
CGGGACGAAT CGGATAATAC TGGTCAAAGC GACTCTCTTG CGAAGCGGTT GAAACCCGCT 
GATGAATTTT TGTAA

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_03004 cDNA ORF clone, Coprinopsis cinerea okayama7#130(Coprinus cinereus okayama7#130)

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