CHR2118 cDNA ORF clone, [Nectria] haematococca mpVI 77-13-4

Gene
Clones
gRNAs

Summary

Gene Symbol	CHR2118
Entrez Gene ID	9673711
Full Name	SNF2 family DNA-dependent ATPase domain-containing protein
Gene Type	protein-coding
Organism	[Nectria] haematococca mpVI 77-13-4

mRNA and Protein(s)

mRNA	Protein	Name
XM_003051753.1	XP_003051799.1	SNF2 family DNA-dependent ATPase domain-containing protein

Pathways from BioSystems
Gene Ontology
Bibliography

Related articles in PubMed

The genome of Nectria haematococca: contribution of supernumerary chromosomes to gene expansion.
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
PLoS genetics5(8)e1000618(2009 Aug)

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

The following CHR2118 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the CHR2118 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
ONb09305	XM_003051753.1 Latest version!	Nectria haematococca mpVI 77-13-4 SNF2 family DNA-dependent ATPase domain-containing protein (CHR2118), 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)

CHR2118 ( XM_003051753.1 ) cDNA ORF clone, [Nectria] haematococca mpVI 77-13-4 -> XP_003051799.1 Nectria haematococca mpVI 77-13-4 SNF2 family DNA-dependent ATPase domain-containing protein (CHR2118), mRNA.

Price & Availability↑

CloneID	ONb09305
Clone ID Related Accession (Same CDS sequence)	XM_003051753.1
Accession Version	XM_003051753.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5673bp) 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	1281628800000
Organism	[Nectria] haematococca mpVI 77-13-4
Product	SNF2 family DNA-dependent ATPase domain-containing 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_003315879). COMPLETENESS: incomplete on both ends.

ATGGCATCAA GACTCGACAG ATTGGTCACT ATCCTCGAAA CGGGGAGTAC GAGACTAATC 
CGCGACACTG CTGTCAACCA GCTTGCTGAC TGGCAGAAGC AACATCCTGA TGAGTTGTTC 
AACCTTCTTT CCCGCGTTGT CCCCTACCTG AGACACAAGG AATGGGAAAC GCGAAGGACT 
GCAGCTGCGG CCATTGGCAA GATCGTAGAA AATGCGCCCA TCCACGACCC AAATTCCGAA 
GATGCACCAA CTGAGCCCAA GAAGGAGGAA CCCGCTGCCG AGAATGGCCA CATCAAGAAG 
GAGGAGGAAG ACAAGGAGCT CGACATCTCG GGCGACGAGG TATTCCGGCT AGAGTCACTC 
AACGTTGACA TGATTCTCAA GTACGGAAGG GAGCTGCTAC GGGGTGGCGG CATCGAGTAT 
GGGCTTGCGG CTCTCGAACC ACAAGCACGC CTAACCCACC AGAAAAAGAC GTTGAACGGG 
CGGCTTGGCC TCTTGGGGAG GAAGTATGAG GACGAAGAGA TCGCCTATAC TGGCGGTGAC 
AACTTGGCGC CCCCCATGAC CCCGATGGAT GCTACGAACG GCCATGGTCG ACCAGACGGC 
ACTAGTGGTC AAGGCCAACC CACCGAGGAA TCCCAGCTCA GCTCTCGACA ACTCAACGTC 
CTAAAACGAA AGCGCAAGCG AGAAGCTATG AAGGCATCCC AAGGCAAGGG TGGCTTCGGT 
GACCTCTCTG TAAGGCGCTC GTTAACATCG GGCTCGGAAC ATCTTGGAGA AGATTCCCCT 
ATGCCGGACA ATGACTCGAA AAAGAACGGC AAAGTGAATG ACTACTTCAA CCTCGACCGA 
CCAGCGGACG TCGACGAAGA CACCAAGGTA GTCAGCGAGT TCAAGGGTCC CGTCATTCCC 
ATCAAGTCAG AGCTCGAGGC CGAGGACAAC ATGGAGGGCG CCGAGTGGCC CTACGAGCGG 
CTGTGTGACT TTCTCAAGGT GGATTTATTT GATCCGTCTT GGGAAACTCG TCATGGAGCT 
GCGATGGGCC TACGTGAAGT TATCCGTGTA CACGGCGGTG GTGCTGGCAG AGTGCGTTCC 
AAGTCTAGGG AGCAGAACGA TGTTCTCAAC CGCAAGTGGC TTGATGACTT GGCCTGCCGC 
TTATGCTGCG TACTTATGCT TGACCGCTTC ACGGATTACA GTTCGGACAC GTCTGTTGCT 
CCTATCAGAG AGACAATAGG ACAGTCGCTT GGATCTGCCC TTAAACACCT TTCCTCACAA 
TCCGTCTATT CCACCTTCAA AATCTTGTAC AAGATGGTAA TGCAAGACGA CCTTGGCCTC 
GAGCGGCCGG TGTGGTCTGT GTGCCACGGC GGTATGATTG GCTTGAGATA TGTCGTTGCA 
GTCAGGAAGG ATCTTCTCCT CCAGGACAGC GACATGATAG ATGGAATCAT CAGGACTGTG 
ATGAAGGGGC TAGGAGACAT GGATGATGAT GTCAGGTCTG TCAGCGCCGC CACGCTGATC 
CCCATGGCTA AGGAGTTTGT CACATTGCGA CCTGGACAGC TCGATGGCCT TGTCAATATC 
ATCTGGGAAA GTCTGTCGAA CCTCGGAGAC GACCTCAGTG CAAGCACTGG TCGTATCATG 
GACCTTCTTG CCACCCTCTG CAGCTTCCCC GAGGTGTTGG AAGCTATGAA GGCTTCAGCC 
GCCCAAGACG AAGAGCGGTC CTTCACTCTG CTCGTCCCGC GCCTCTACCC CTTCCTGCGC 
CATACCATCA CTTCGGTCCG TGTGGCTGTC TTGAAAGCTT TGTCCACATT TGCCAAGCTC 
GATGCAGAGA CATCACAGGG CTGGCTCACT GGGAGAATTC TTCGGCTCAT CTTCCAAAAT 
ATTCTCGTCG AGAGAGATAA GGAGGCCCTC AATATGTCAC TGGAGCTATG GACGGCTCTC 
GTACAAAGCT TGGCCAAGAA TCCTGCTGTC CTTGCTGATG AGTTTGCTGC TCATATCGAC 
CCCATGATGC AGCTGACGCT TCATCCCATT GGTGTCTCGA GAAACCCGAT ACCGATGAAT 
GCCACACTCT TCCAGAAACC GTCTGGTGGC ACGTACTCTA TGCCTGGTGT TGTTCAGCAC 
ACACCTCGAA AGCCCTCATC ACCCGACGGG TCCGATCGAG CACCCAAGCG CCGACGCAAA 
TCGACCAAGG TTGATGAGGT TCCCACAACG AGCCTTACTC ACGATGTTGA TGGCCATATG 
ATGCAAGGCG ATGTTGATCT CGTCGGTGTA GACGTTCTTA TTCGGTCGCG TGTATCAGCT 
GCGAAGGCCA TGGGTCTCAT CATGTCTCTT GTTCCAGTTG CCAGTTTGGA TGACTACGAC 
GCACTCCTCA TTCCCGGACT TGGATCGGCA TTTTCTTCGA GCCAACTCAC AGCATGCGTC 
ATTATCGACG AGTATGCCAA GAACTGCCAG ACCGCCAGCG ACTCACGATA CCTCGAGAAC 
CTCCAGCGCA TCCTTGATTC CGAACGGCCA GCGGCATATA GAGACTTGGT CAACTTCATC 
CAACGTGTTA GAACACAGTG TCAGCAGCTG ATCCATCTCT TCCGAGATCA CGGCAAGGTC 
TCTCACAGTA AACTCCCGAC TCTGCCTGTC GTGGTGCAGG GAGAAGCTGA AGCCGGCCCT 
AATGCCTTCT CTATCGCAAC TGCTGAGAAA TGTGTAAGCG ATGATTACGA GAAACTGAAG 
AAGGCTATGC CTCCAGGCCA GCGTCTTATT GCGAGCCAGC AGCTTTCTGA TGCTCGCGAT 
GTGACGGTTG CAGCAATTGA AGAGGCCAAG GCCATCAAGA CGGCTCGTGA CGTTCGGATC 
AGGGCCGCAG CAGCATGCGC GATGGTTGCC ATGAAGGTGC TCCCGAAGAA GCCCAGCCCC 
TTGATCAAGG GCATCATGGA CTCCGTCAAG ACGGAGGACA ACCAGCTACT CCAGACTCGC 
TCAGCCGATA CCATCGCTCG ACTTGTCCAG CTGTTTACTG AAAAGGGCCG AAAGGGGCCA 
GCTGACAAGG TGGTGTCCAA CCTGGTCAAG TTCTCCTGTG TTGAAGTCGC AGAGACTCCT 
GAATTCCCCG TTCACGCCGC TAAGACCGAT TGCGTGTTGT CGATGCAAAA GGAGGAAGAC 
CGAGTTGACC ATGCAGATGC CGCTAAATGG GCCCGAGAAG CCAAGGCTGC TCGTATCACG 
AGGCGTGGTG CGAAGGAGGC CCTTGAAATT CTGTCGAGAA CTTATGGGGC CAAGTTGCTC 
GAAATTGTGC CCAGTCTCCG AACCTTCATG GAGGAGCCCC TTATCAGGGC TTTCTCTGAT 
GCTCTCCCTG CCGAAGCCAA GGATCCTGAG GAGACGTTCG GACAGGAAAT CGTGGACGCT 
ATGTCTGTCA TCAGGACTAT GACGCCAACT TTGGACAAGT CATTGCACTC CTTCATTATG 
GAATTGATGC CCCTGGTCAT CAAGGCCCTT CACTCCGAGC TCTCCGTCTT CCGCTACATG 
GCCGCCAAGT GCATGGCTAC TATCTGCAGT GTCATTACTG TTGAGGGTAT GACAGCACTT 
GTCGAGAAGG TTCTCCCGTC TATCAACAAC CCTGTCGATC TCAACTTCCG TCAAGGCGCG 
ATCGAGGCTA TTTACCACCT GATCGCTGTA ATGGGCGACT CCATCCTGCC TTATGTCATC 
TTCCTCATCG TGCCAGTTCT GGGACGAATG AGTGATTCCG ACAATGAGAT CCGTTTGATC 
GCCACGACGT CGTTCGCCAC GCTGGTGAAG CTTGTCCCCC TTGAAGCTGG CATTCCCGAC 
CCCCCTGGCT TGTCCGAGGA GCTTCTTAAG GGCAGAGATC GTGAGAGGAC CTTTATCGCC 
CAGCTTCTTG ATCCAAAGAA GGTGGAGCAG TTCCAGATTC CCGTTGCCAT CAAGGCAGAG 
TTGCGATCCT ACCAACAAGA AGGTGTGAAT TGGCTCAACT TCCTCAACAA GTACCACCTC 
CACGGCATTC TCTGCGATGA TATGGGTCTC GGAAAGACTC TCCAGACTAT TTGTATCGTC 
GCAAGTGACC ATCATCAACG TGCCGAGGAG TTTGCCAAGA CCAAGGCGCC TGATGTACGA 
AGGTTGCCAT CTCTCATCGT CTGCCCGCCT ACGCTCTCAG GACATTGGCA ACAAGAGATC 
AAGACGTATG CACCGTTCTT GAGCGTGACC GCATATGTCG GGCCACCAGC GGAAAGAAAG 
GCTATGAAGG ATAGACTGGG CGAAACGGAC ATTGTGGTCA CATCGTACGA CGTCTGTCGC 
AACGACTCGG ACATTCTTGA CAAGCATAGC TGGAACTATG TTGTCCTCGA CGAAGGTCAT 
CTCATCAAGA ACCCCAAGGC CAAGATCACT CAAGCGGTCA AGAGGCTGGC CAGTAACCAC 
CGTCTCATCC TTACTGGCAC ACCCATTCAG AACAACGTCC TGGAGCTGTG GTCCCTGTTT 
GACTTTTTGA TGCCGGGTTT CTTGGGTGCT GAGAAGGTCT TCCTGGATCG ATTCGCAAAG 
CCGATCGCAG CAAGTCGATT TAGCAAGGCT TCGTCCAAGG AGCAAGAGGC GGGAGCTCTC 
GCAATCGAGG CACTTCACAA GCAGGTGCTC CCCTTCCTGC TGCGTCGTCT TAAGGAAGAA 
GTGTTGAACG ACCTCCCGCC CAAGATCTTG CAGAACTACT ACTGCGACCT GAGCGACCTG 
CAGAAGAAGC TCTTTGAGGA CTTTACCAGG AAGCAGGGCA AGAAGATCCA GGCAGAGGCT 
GGTCGGGAGG ACAAGGAAGC GAAGCAGCAT ATCTTCCAGG CGCTACAGTA CATGCGCAAG 
CTGTGCAACT CTCCTGCCAT GGTCATGAAA CCAGGAACCC CCTTCTACGA TGACACGCAA 
AGAATCCTGA ACAAGAAGGG CACATCGATC GAAGATACCC AGCATGCACC CAAGTTGACT 
GCCCTGAGAG ACCTTTTGGT GGACTGCGGC ATTGGTGTCG AAGGCAACGA ATCCAACGAC 
CCTCTGTACC AGCCTATCAA ACCCCATCGA GCACTCATCT TCTGTCAGAT GAAGGAGATG 
CTTGACATGG TACAGAACAA GGTCTTGAAG GAGTTGCTGC CTTCGGTGTC GCACCTGCGA 
CTCGATGGCT CAGTCGAGGC GAACAAGAGA CAGGACATTG TCAACAAGTT CAATAGCGAC 
CCGTCATACG ATGTCCTTCT ATTGACGACA AGTGTGGGTG GTCTTGGTCT CAACCTGACA 
GGAGCCGACA CTGTCATTTT CGTCGAGCAT GATTGGAACC CGCAAAAGGA CTTGCAGGCC 
ATGGACCGAG CGCATCGCAT CGGTCAGAAG AAGGTGGTCA ACGTGTACCG ACTTATCACG 
CGTGGAACAC TCGAGGAGAA GATTTTGAAC CTCCAGCGAT TCAAGATCGA TGTGGCATCG 
ACAGTTGTCA ACCAACAGAA TGCGGGTCTT TCAACAATGG ATACAGATCA GATCCTGGAC 
CTGTTCAATG TGGGCGATGC TGCACCGAAC CTCATATCGG ACAAGGAAAA GAACAACATT 
GAAGGAAGGG AAGAAGACAT GGTGGATATC GAAACAGGCG ATGTGCGCGC GCCCGGAAAG 
AAGGCATGGC TGGATGATCT AGGGGAGCTA TGGGACAACA AGCAGTACGA GGAGAGCTTC 
GACTTGGACG ACTTTATGAA GACCATGTCG TGA

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

RefSeq	XP_003051799.1
CDS	1..5673
Translation	MASRLDRLVTILETGSTRLIRDTAVNQLADWQKQHPDELFNLLSRVVPYLRHKEWETRRTAAAAIGKIVENAPIHDPNSEDAPTEPKKEEPAAENGHIKKEEEDKELDISGDEVFRLESLNVDMILKYGRELLRGGGIEYGLAALEPQARLTHQKKTLNGRLGLLGRKYEDEEIAYTGGDNLAPPMTPMDATNGHGRPDGTSGQGQPTEESQLSSRQLNVLKRKRKREAMKASQGKGGFGDLSVRRSLTSGSEHLGEDSPMPDNDSKKNGKVNDYFNLDRPADVDEDTKVVSEFKGPVIPIKSELEAEDNMEGAEWPYERLCDFLKVDLFDPSWETRHGAAMGLREVIRVHGGGAGRVRSKSREQNDVLNRKWLDDLACRLCCVLMLDRFTDYSSDTSVAPIRETIGQSLGSALKHLSSQSVYSTFKILYKMVMQDDLGLERPVWSVCHGGMIGLRYVVAVRKDLLLQDSDMIDGIIRTVMKGLGDMDDDVRSVSAATLIPMAKEFVTLRPGQLDGLVNIIWESLSNLGDDLSASTGRIMDLLATLCSFPEVLEAMKASAAQDEERSFTLLVPRLYPFLRHTITSVRVAVLKALSTFAKLDAETSQGWLTGRILRLIFQNILVERDKEALNMSLELWTALVQSLAKNPAVLADEFAAHIDPMMQLTLHPIGVSRNPIPMNATLFQKPSGGTYSMPGVVQHTPRKPSSPDGSDRAPKRRRKSTKVDEVPTTSLTHDVDGHMMQGDVDLVGVDVLIRSRVSAAKAMGLIMSLVPVASLDDYDALLIPGLGSAFSSSQLTACVIIDEYAKNCQTASDSRYLENLQRILDSERPAAYRDLVNFIQRVRTQCQQLIHLFRDHGKVSHSKLPTLPVVVQGEAEAGPNAFSIATAEKCVSDDYEKLKKAMPPGQRLIASQQLSDARDVTVAAIEEAKAIKTARDVRIRAAAACAMVAMKVLPKKPSPLIKGIMDSVKTEDNQLLQTRSADTIARLVQLFTEKGRKGPADKVVSNLVKFSCVEVAETPEFPVHAAKTDCVLSMQKEEDRVDHADAAKWAREAKAARITRRGAKEALEILSRTYGAKLLEIVPSLRTFMEEPLIRAFSDALPAEAKDPEETFGQEIVDAMSVIRTMTPTLDKSLHSFIMELMPLVIKALHSELSVFRYMAAKCMATICSVITVEGMTALVEKVLPSINNPVDLNFRQGAIEAIYHLIAVMGDSILPYVIFLIVPVLGRMSDSDNEIRLIATTSFATLVKLVPLEAGIPDPPGLSEELLKGRDRERTFIAQLLDPKKVEQFQIPVAIKAELRSYQQEGVNWLNFLNKYHLHGILCDDMGLGKTLQTICIVASDHHQRAEEFAKTKAPDVRRLPSLIVCPPTLSGHWQQEIKTYAPFLSVTAYVGPPAERKAMKDRLGETDIVVTSYDVCRNDSDILDKHSWNYVVLDEGHLIKNPKAKITQAVKRLASNHRLILTGTPIQNNVLELWSLFDFLMPGFLGAEKVFLDRFAKPIAASRFSKASSKEQEAGALAIEALHKQVLPFLLRRLKEEVLNDLPPKILQNYYCDLSDLQKKLFEDFTRKQGKKIQAEAGREDKEAKQHIFQALQYMRKLCNSPAMVMKPGTPFYDDTQRILNKKGTSIEDTQHAPKLTALRDLLVDCGIGVEGNESNDPLYQPIKPHRALIFCQMKEMLDMVQNKVLKELLPSVSHLRLDGSVEANKRQDIVNKFNSDPSYDVLLLTTSVGGLGLNLTGADTVIFVEHDWNPQKDLQAMDRAHRIGQKKVVNVYRLITRGTLEEKILNLQRFKIDVASTVVNQQNAGLSTMDTDQILDLFNVGDAAPNLISDKEKNNIEGREEDMVDIETGDVRAPGKKAWLDDLGELWDNKQYEESFDLDDFMKTMS

Target ORF information:

RefSeq Version	XM_003051753.1
Organism	[Nectria] haematococca mpVI 77-13-4
Definition	Nectria haematococca mpVI 77-13-4 SNF2 family DNA-dependent ATPase domain-containing protein (CHR2118), mRNA.

Target ORF information:

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

XM_003051753.1

ORF Insert Sequence:

ATGGCATCAA GACTCGACAG ATTGGTCACT ATCCTCGAAA CGGGGAGTAC GAGACTAATC 
CGCGACACTG CTGTCAACCA GCTTGCTGAC TGGCAGAAGC AACATCCTGA TGAGTTGTTC 
AACCTTCTTT CCCGCGTTGT CCCCTACCTG AGACACAAGG AATGGGAAAC GCGAAGGACT 
GCAGCTGCGG CCATTGGCAA GATCGTAGAA AATGCGCCCA TCCACGACCC AAATTCCGAA 
GATGCACCAA CTGAGCCCAA GAAGGAGGAA CCCGCTGCCG AGAATGGCCA CATCAAGAAG 
GAGGAGGAAG ACAAGGAGCT CGACATCTCG GGCGACGAGG TATTCCGGCT AGAGTCACTC 
AACGTTGACA TGATTCTCAA GTACGGAAGG GAGCTGCTAC GGGGTGGCGG CATCGAGTAT 
GGGCTTGCGG CTCTCGAACC ACAAGCACGC CTAACCCACC AGAAAAAGAC GTTGAACGGG 
CGGCTTGGCC TCTTGGGGAG GAAGTATGAG GACGAAGAGA TCGCCTATAC TGGCGGTGAC 
AACTTGGCGC CCCCCATGAC CCCGATGGAT GCTACGAACG GCCATGGTCG ACCAGACGGC 
ACTAGTGGTC AAGGCCAACC CACCGAGGAA TCCCAGCTCA GCTCTCGACA ACTCAACGTC 
CTAAAACGAA AGCGCAAGCG AGAAGCTATG AAGGCATCCC AAGGCAAGGG TGGCTTCGGT 
GACCTCTCTG TAAGGCGCTC GTTAACATCG GGCTCGGAAC ATCTTGGAGA AGATTCCCCT 
ATGCCGGACA ATGACTCGAA AAAGAACGGC AAAGTGAATG ACTACTTCAA CCTCGACCGA 
CCAGCGGACG TCGACGAAGA CACCAAGGTA GTCAGCGAGT TCAAGGGTCC CGTCATTCCC 
ATCAAGTCAG AGCTCGAGGC CGAGGACAAC ATGGAGGGCG CCGAGTGGCC CTACGAGCGG 
CTGTGTGACT TTCTCAAGGT GGATTTATTT GATCCGTCTT GGGAAACTCG TCATGGAGCT 
GCGATGGGCC TACGTGAAGT TATCCGTGTA CACGGCGGTG GTGCTGGCAG AGTGCGTTCC 
AAGTCTAGGG AGCAGAACGA TGTTCTCAAC CGCAAGTGGC TTGATGACTT GGCCTGCCGC 
TTATGCTGCG TACTTATGCT TGACCGCTTC ACGGATTACA GTTCGGACAC GTCTGTTGCT 
CCTATCAGAG AGACAATAGG ACAGTCGCTT GGATCTGCCC TTAAACACCT TTCCTCACAA 
TCCGTCTATT CCACCTTCAA AATCTTGTAC AAGATGGTAA TGCAAGACGA CCTTGGCCTC 
GAGCGGCCGG TGTGGTCTGT GTGCCACGGC GGTATGATTG GCTTGAGATA TGTCGTTGCA 
GTCAGGAAGG ATCTTCTCCT CCAGGACAGC GACATGATAG ATGGAATCAT CAGGACTGTG 
ATGAAGGGGC TAGGAGACAT GGATGATGAT GTCAGGTCTG TCAGCGCCGC CACGCTGATC 
CCCATGGCTA AGGAGTTTGT CACATTGCGA CCTGGACAGC TCGATGGCCT TGTCAATATC 
ATCTGGGAAA GTCTGTCGAA CCTCGGAGAC GACCTCAGTG CAAGCACTGG TCGTATCATG 
GACCTTCTTG CCACCCTCTG CAGCTTCCCC GAGGTGTTGG AAGCTATGAA GGCTTCAGCC 
GCCCAAGACG AAGAGCGGTC CTTCACTCTG CTCGTCCCGC GCCTCTACCC CTTCCTGCGC 
CATACCATCA CTTCGGTCCG TGTGGCTGTC TTGAAAGCTT TGTCCACATT TGCCAAGCTC 
GATGCAGAGA CATCACAGGG CTGGCTCACT GGGAGAATTC TTCGGCTCAT CTTCCAAAAT 
ATTCTCGTCG AGAGAGATAA GGAGGCCCTC AATATGTCAC TGGAGCTATG GACGGCTCTC 
GTACAAAGCT TGGCCAAGAA TCCTGCTGTC CTTGCTGATG AGTTTGCTGC TCATATCGAC 
CCCATGATGC AGCTGACGCT TCATCCCATT GGTGTCTCGA GAAACCCGAT ACCGATGAAT 
GCCACACTCT TCCAGAAACC GTCTGGTGGC ACGTACTCTA TGCCTGGTGT TGTTCAGCAC 
ACACCTCGAA AGCCCTCATC ACCCGACGGG TCCGATCGAG CACCCAAGCG CCGACGCAAA 
TCGACCAAGG TTGATGAGGT TCCCACAACG AGCCTTACTC ACGATGTTGA TGGCCATATG 
ATGCAAGGCG ATGTTGATCT CGTCGGTGTA GACGTTCTTA TTCGGTCGCG TGTATCAGCT 
GCGAAGGCCA TGGGTCTCAT CATGTCTCTT GTTCCAGTTG CCAGTTTGGA TGACTACGAC 
GCACTCCTCA TTCCCGGACT TGGATCGGCA TTTTCTTCGA GCCAACTCAC AGCATGCGTC 
ATTATCGACG AGTATGCCAA GAACTGCCAG ACCGCCAGCG ACTCACGATA CCTCGAGAAC 
CTCCAGCGCA TCCTTGATTC CGAACGGCCA GCGGCATATA GAGACTTGGT CAACTTCATC 
CAACGTGTTA GAACACAGTG TCAGCAGCTG ATCCATCTCT TCCGAGATCA CGGCAAGGTC 
TCTCACAGTA AACTCCCGAC TCTGCCTGTC GTGGTGCAGG GAGAAGCTGA AGCCGGCCCT 
AATGCCTTCT CTATCGCAAC TGCTGAGAAA TGTGTAAGCG ATGATTACGA GAAACTGAAG 
AAGGCTATGC CTCCAGGCCA GCGTCTTATT GCGAGCCAGC AGCTTTCTGA TGCTCGCGAT 
GTGACGGTTG CAGCAATTGA AGAGGCCAAG GCCATCAAGA CGGCTCGTGA CGTTCGGATC 
AGGGCCGCAG CAGCATGCGC GATGGTTGCC ATGAAGGTGC TCCCGAAGAA GCCCAGCCCC 
TTGATCAAGG GCATCATGGA CTCCGTCAAG ACGGAGGACA ACCAGCTACT CCAGACTCGC 
TCAGCCGATA CCATCGCTCG ACTTGTCCAG CTGTTTACTG AAAAGGGCCG AAAGGGGCCA 
GCTGACAAGG TGGTGTCCAA CCTGGTCAAG TTCTCCTGTG TTGAAGTCGC AGAGACTCCT 
GAATTCCCCG TTCACGCCGC TAAGACCGAT TGCGTGTTGT CGATGCAAAA GGAGGAAGAC 
CGAGTTGACC ATGCAGATGC CGCTAAATGG GCCCGAGAAG CCAAGGCTGC TCGTATCACG 
AGGCGTGGTG CGAAGGAGGC CCTTGAAATT CTGTCGAGAA CTTATGGGGC CAAGTTGCTC 
GAAATTGTGC CCAGTCTCCG AACCTTCATG GAGGAGCCCC TTATCAGGGC TTTCTCTGAT 
GCTCTCCCTG CCGAAGCCAA GGATCCTGAG GAGACGTTCG GACAGGAAAT CGTGGACGCT 
ATGTCTGTCA TCAGGACTAT GACGCCAACT TTGGACAAGT CATTGCACTC CTTCATTATG 
GAATTGATGC CCCTGGTCAT CAAGGCCCTT CACTCCGAGC TCTCCGTCTT CCGCTACATG 
GCCGCCAAGT GCATGGCTAC TATCTGCAGT GTCATTACTG TTGAGGGTAT GACAGCACTT 
GTCGAGAAGG TTCTCCCGTC TATCAACAAC CCTGTCGATC TCAACTTCCG TCAAGGCGCG 
ATCGAGGCTA TTTACCACCT GATCGCTGTA ATGGGCGACT CCATCCTGCC TTATGTCATC 
TTCCTCATCG TGCCAGTTCT GGGACGAATG AGTGATTCCG ACAATGAGAT CCGTTTGATC 
GCCACGACGT CGTTCGCCAC GCTGGTGAAG CTTGTCCCCC TTGAAGCTGG CATTCCCGAC 
CCCCCTGGCT TGTCCGAGGA GCTTCTTAAG GGCAGAGATC GTGAGAGGAC CTTTATCGCC 
CAGCTTCTTG ATCCAAAGAA GGTGGAGCAG TTCCAGATTC CCGTTGCCAT CAAGGCAGAG 
TTGCGATCCT ACCAACAAGA AGGTGTGAAT TGGCTCAACT TCCTCAACAA GTACCACCTC 
CACGGCATTC TCTGCGATGA TATGGGTCTC GGAAAGACTC TCCAGACTAT TTGTATCGTC 
GCAAGTGACC ATCATCAACG TGCCGAGGAG TTTGCCAAGA CCAAGGCGCC TGATGTACGA 
AGGTTGCCAT CTCTCATCGT CTGCCCGCCT ACGCTCTCAG GACATTGGCA ACAAGAGATC 
AAGACGTATG CACCGTTCTT GAGCGTGACC GCATATGTCG GGCCACCAGC GGAAAGAAAG 
GCTATGAAGG ATAGACTGGG CGAAACGGAC ATTGTGGTCA CATCGTACGA CGTCTGTCGC 
AACGACTCGG ACATTCTTGA CAAGCATAGC TGGAACTATG TTGTCCTCGA CGAAGGTCAT 
CTCATCAAGA ACCCCAAGGC CAAGATCACT CAAGCGGTCA AGAGGCTGGC CAGTAACCAC 
CGTCTCATCC TTACTGGCAC ACCCATTCAG AACAACGTCC TGGAGCTGTG GTCCCTGTTT 
GACTTTTTGA TGCCGGGTTT CTTGGGTGCT GAGAAGGTCT TCCTGGATCG ATTCGCAAAG 
CCGATCGCAG CAAGTCGATT TAGCAAGGCT TCGTCCAAGG AGCAAGAGGC GGGAGCTCTC 
GCAATCGAGG CACTTCACAA GCAGGTGCTC CCCTTCCTGC TGCGTCGTCT TAAGGAAGAA 
GTGTTGAACG ACCTCCCGCC CAAGATCTTG CAGAACTACT ACTGCGACCT GAGCGACCTG 
CAGAAGAAGC TCTTTGAGGA CTTTACCAGG AAGCAGGGCA AGAAGATCCA GGCAGAGGCT 
GGTCGGGAGG ACAAGGAAGC GAAGCAGCAT ATCTTCCAGG CGCTACAGTA CATGCGCAAG 
CTGTGCAACT CTCCTGCCAT GGTCATGAAA CCAGGAACCC CCTTCTACGA TGACACGCAA 
AGAATCCTGA ACAAGAAGGG CACATCGATC GAAGATACCC AGCATGCACC CAAGTTGACT 
GCCCTGAGAG ACCTTTTGGT GGACTGCGGC ATTGGTGTCG AAGGCAACGA ATCCAACGAC 
CCTCTGTACC AGCCTATCAA ACCCCATCGA GCACTCATCT TCTGTCAGAT GAAGGAGATG 
CTTGACATGG TACAGAACAA GGTCTTGAAG GAGTTGCTGC CTTCGGTGTC GCACCTGCGA 
CTCGATGGCT CAGTCGAGGC GAACAAGAGA CAGGACATTG TCAACAAGTT CAATAGCGAC 
CCGTCATACG ATGTCCTTCT ATTGACGACA AGTGTGGGTG GTCTTGGTCT CAACCTGACA 
GGAGCCGACA CTGTCATTTT CGTCGAGCAT GATTGGAACC CGCAAAAGGA CTTGCAGGCC 
ATGGACCGAG CGCATCGCAT CGGTCAGAAG AAGGTGGTCA ACGTGTACCG ACTTATCACG 
CGTGGAACAC TCGAGGAGAA GATTTTGAAC CTCCAGCGAT TCAAGATCGA TGTGGCATCG 
ACAGTTGTCA ACCAACAGAA TGCGGGTCTT TCAACAATGG ATACAGATCA GATCCTGGAC 
CTGTTCAATG TGGGCGATGC TGCACCGAAC CTCATATCGG ACAAGGAAAA GAACAACATT 
GAAGGAAGGG AAGAAGACAT GGTGGATATC GAAACAGGCG ATGTGCGCGC GCCCGGAAAG 
AAGGCATGGC TGGATGATCT AGGGGAGCTA TGGGACAACA AGCAGTACGA GGAGAGCTTC 
GACTTGGACG ACTTTATGAA GACCATGTCG TGA

The 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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CHR2118 cDNA ORF clone, [Nectria] haematococca mpVI 77-13-4

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