NECHADRAFT_82055 cDNA ORF clone, [Nectria] haematococca mpVI 77-13-4

Gene
Clones
gRNAs

Summary

Gene Symbol	NECHADRAFT_82055
Entrez Gene ID	9672148
Full Name	hypothetical protein
Gene Type	protein-coding
Organism	[Nectria] haematococca mpVI 77-13-4

mRNA and Protein(s)

mRNA	Protein	Name
XM_003045322.1	XP_003045368.1	hypothetical 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 NECHADRAFT_82055 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the NECHADRAFT_82055 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
ONb07864	XM_003045322.1 Latest version!	Nectria haematococca mpVI 77-13-4 predicted protein, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$811.30 $1159.00

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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)

NECHADRAFT_82055 ( XM_003045322.1 ) cDNA ORF clone, [Nectria] haematococca mpVI 77-13-4 -> XP_003045368.1 Nectria haematococca mpVI 77-13-4 predicted protein, mRNA.

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CloneID	ONb07864
Clone ID Related Accession (Same CDS sequence)	XM_003045322.1
Accession Version	XM_003045322.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4503bp) 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	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_003315865). COMPLETENESS: incomplete on both ends.

ATGGCATCCA ATTCCCCGGA GGGCACCACC TCCCCTCTAG GAGACACCAA CCTTGACCCA 
ACCGTCACAC AACCAACCAA CCCTGAGACA CATTCCAACA TGGGGACCGA CTCGACTATT 
AATGTCTCGG CATTGAAGGA TACATCTACC GGCCCTGAAG CACGCAAGGA GACCGATACC 
CCGGTACAGA CAAGTACAGA AGATGAAGAT GAGGACTCGG AGCTGGAGCG CAGACACAGC 
ATCGTGCGGG ACTTGGCACG ACAATACACC CACCAGAGCC AGATGTCCTC TGTCAGCGGA 
AACCCCTTTT TGATGGAAGA CGAAGAAAGT CCCCTGAACC CCAGAAGCGA AAAGTTCAAG 
GCCCTCACGT GGGCAAAGTC AGTGGTCAAG CTCCTCCACG ACAATGGTCT TTCATCTCGA 
AAAGCCGGCG TCTGCTACCA GAACCTCAAC GTCTTTGGCT ATGGACAGCC TACCGACTAC 
CAAAAGGATG TTGCGAATAT CTGGTTCGAG GCAGCTAACT GGCCACGGCA GTTGATGGGG 
TATGGAAAGA CCCGCATTGA TATTGTTCGC GACTTTGATG GTATCGTGCG GAATGGAGAG 
ATGTTGGTCG TGCTTGGACC CCCTGGTGCT GGATGCTCGA CGTTTCTCAA GACTATCAGT 
GGAGAGACGA GCGGTATTTA CGTGAACGAT GATGCGTACT TTAATTATCG AGGAATCACG 
GCAGAGGAGA TGCACGTACA GCATCGTGGT GAAGCCATCT ACACCGCCGA AGTTGATGTG 
CACTTCCCGC AACTGAGCGT TGGAGACACC CTGGATTTCG CAGCCCACGC CAGGGCCCCG 
AGGAATGTCC CGGCAGGCAT CGACAAGGAG ACTTTCGTCG GCCATCTCCG TGACGTCGTC 
ATGGCCATGT ACGGCATCAC CCACACGGTC AACACCCGGG TTGGTAACGA ATACGTCCGA 
GGAGTGTCCG GCGGAGAACG CAAGCGAGTT ACCATCGCAG AAGCTTCACT CAGCGGCGCC 
CCCCTACAAT GCTGGGACAA CAGCACCCGA GGTCTCGACT CTGCCAACGC AGTAGAGTTT 
TGCAAGACTT TGCGTCTTCA GACGGAATTA TTCGACACTG CGGCTTTGGT TTCGATTTAT 
CAAGCCCCGC AAGCTGCGTA TGATGTTTTC GACAAGGCGT TGGTTCTATA CGAGGGTCGA 
CAGATTTACT TTGGTCCTAC CAACGAAGCG AAGCATTATT TCATGGAACT CGGATTCGAC 
TGTCCAGCTC GTCAAACTAC GCCCGACTTT TTGACGTCCA TGACAAGTCC CCAGGAACGA 
GTCATTCGAC CGGGCTTTGA AGCTCGCGCC CCGAGAACCC CGGCTGAGTT TGCAGCAGCT 
TGGAAGAATT CTGCCGCATA TACCAAGCTT CAGCAGGAAA TTGAAGAGTA CAAGCAAGAG 
CATCCCATCA ACGGACCCGA GGCAGAGCAG TTCCGACAAA TCAAGCGTGC CGTACAAGCC 
AAGAATCAGC GTCTCAAGAG TCCGTACACT CTGAGCTATG GACAGCAGAC GTCTCTTTGT 
GTGTGGCGAG GCTTCAGGAG ATTGATCTGT GATCCGACTT TGACTCTATC GATGCTTTTC 
GGTAATTTCT TCATGGGCTT GATCGTTGGA AGCGTTTTCT ACAATCTTGA CCAGTCGACG 
GCAAGTTTCT ATCAGAGAGG CGCCTTGGTC TTTATGGCTT GCCTGTCTAA TGCTTTTGCG 
AGTGCCCTAG AAATTCTCAC GCTCTACGCC CAACGTCCAA TCGTCGAAAA ACACAACCGC 
TACGCCTTGT ACCACCCGTC AGCAGAAGCA GTCGCCTCTA TGCTCTGTGA TTTACCGTAC 
AAGGTCCTCA ACGCCATCGT TTACAACCTC ACACTGTACT TCATGACCAA CCTGCGTCGA 
GAAGCGGGAG CTTTCTTTTA CTTCTTGCTC ATGACGTTCC TTGTAACGCT CTGCATGTCG 
ATGATTTTCC GTACCATCGG TTCAGCTTCG AGGACTCTTT CACAGGCCAT GGTTCCCTCG 
TCTATCCTCA TCCTGGCTTT GGTCACGTTT ACTGGCTTCA TCATTCAGAT CGACTACATG 
CTGGATTGGT GTCGATGGAT TAACTACATC AACCCCCTCG CATATGCCTT TGAATCGCTC 
ATGGTCAACG AATTCCACGA TCGAAAATTC GAATGCAACG TCTTTGTCCC CGCATACCCC 
GACGCAGACC CAGTCAACCG CGTCTGCTCC ACGGTTGGTT CCGTCCAGGG CGAGCCAATG 
GTTGACGGAG ACGCCTACAT CAACCTATCC TTCAAATACT ACCACGCGCA CAAGTGGCGC 
AACATTGGCA TCGTCATCGC CTTCACAATC TTCTTCCTCA TCACTTACAT GGCCTTTGCC 
GAATTTGTCA GTGCCAAGAA GTCCAAGGGC GAGGTTCTCG TGTTCCGAAA AGGCCACAAG 
CTTGCAGGAG GAAGGGGAAA CGATGCCGAG TCGAGCCCAG CAGGTCGTGG AGCCATCACC 
GAGAAGGAGG GTTATGGAGA GGGACGTCCT TCTAACTTTC AGTCGACGAG TGTTTTCCAT 
TGGAACAATG TGTGCTATGA TGTCAAGATC AAGAGTGAGA ATAGGAGGAT TCTGGATAAC 
GTTGCTGGTT GGGTCAAGCC TGGCACAATG ACGGCTCTGA TGGGTGTTTC TGGAGCTGGC 
AAGACTACGC TTCTCGACTG TCTCGCAGAC CGAACGAGCA TGGGAGTTAT CTCAGGAGAC 
ATCCTAGTCG ACGACGAACT CCGTGACGCA TCCTTCCAAC GAAAGACCGG TTACGTTCAG 
CAACAGGACC TTCATCTGTC AACTACAACC GTTCGCGAGG CGCTCAACTT CTCAGCCCTC 
ATGCGTCAGC CAAAGCACAT CCCAACCAGA GAAAAGCTAG CCTACGTCGA CGAAGTCATC 
AAAATGCTCG ATATGCAAGA CTATTCAGAA GCTGTGGTCG GAATCCTCGG TGAAGGCCTC 
AACGTTGAAC AACGAAAACG TCTCACAATC GGCGTCGAGC TGGCCGCAAA GCCCCCAGTT 
CTTCTTTTTG TCGACGAGCC AACATCAGGT CTCGACTCTC AGACTTCATG GGCCATTCTC 
GATCTGTTGG AAAAGCTTGC TCGAAGCGGT CAGGCCATTC TCTGTACCAT TCATCAACCT 
TCAGCTATCC TCTTCCAACG TTTCGATCGA CTATTGTTTC TGGCTAGCGG TGGAAAGACG 
GTTTACTTTG GCGACATCGG TGACCATTCC AGGTCCATGA TTGACTATTT CGAAAAGAAC 
GGCGCCGATC CTTGTTCACC AGACGCCAAC CCAGCTGAAT GGATGCTCGA AGTCATTGGA 
GCAGCCCCAG GCTCAGAGAC CGAACTCAAC TGGCCACAGG TTTGGAGAGA TTCGCCCGAA 
CACGCCGCAG TCCAGGAGCA TCTCAAGGAA CTATCCCACC ATCACGTCGA AAAGGACACA 
GATACATCCT CGTACGACGA ATTCGCAGCA GATTTCAAGA CTCAGCTTGT CCAGGTTACC 
CGTCGTGTGT TTGAGCAATA TTGGCGAACG CCCTCATACA TCTACTCCAA GGCAGCCCTC 
TGTGTTCTCG TGGCTTTATT CGTCGGCTTC GTCTTTTACA ATGCTCCAAA CACGACCCTC 
GGCTTGCAGA ATCAGATGTT TGCCATTTTC CAGATCCTAA CCGTGTTCGG CCAGATGGTG 
CAACAAACCA TGCCGCATTT CGTCATCCAG AGAGATCTCT ACGAAGTGAG GGAGCGTCCA 
TCAAAGACGT ATGGCTGGCA GGTTTTTATC CTGAGTCAAA TCATCGTTGA GATCCCCTGG 
AATACGCTCA TGGCCGCTTT GATGTACTTC TGTTGGTACT ATCCCATTGG ACTGTATCGC 
AACGCAGAGC CATCCGATGC AGTCGCTGAA CGAGGCGCCC TCATGTTCCT GCTGCTTCTA 
GCATTCATGA TCTTCACCTG TACCTTTACC GACTTCGTCA TCGCAGGCTG TGGATCAGCA 
GAGACAGGCG GCAACATCGC GAACTTGCTC TTCATGATGT GTCTCATCTT CTGTGGTGTC 
CTCGCGCCCC CAAGCTCACT CCCTCGCTTC TGGATCTTCA TGTACCGCGT CAGTCCGTTC 
ACATATTTAG TGTCCGCTAT CTTATCAACA GCTGTGGCGA ATACAAAGGC AGAATGCGCA 
GCGAACGAGT ACATCCAGTT CCCGCCACCT TCGGGACAGA CCTGTCAAGA GTACATGGAT 
GATTATATGA GCAAGGCTGG TGGCTATCTG ACGGACCCCA ACAACACGGA CGAGTGTACC 
TACTGCACCA TCGGCGACAC AAACCTGTTC CTTGCTAGCG TGCAGTCTGA CTATGCAGAC 
AGGTGGAGGA ATTTCGGTCT GATGTGGGTG TACATCATCT TTAATATCTG CGGCGCATTG 
GCACTTTATT GGCTTGTCAG GGTTCCCAAG AACAAGAAGG GAAAGAAGGC GAAGAAGGAG 
TAG

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

RefSeq	XP_003045368.1
CDS	1..4503
Translation	MASNSPEGTTSPLGDTNLDPTVTQPTNPETHSNMGTDSTINVSALKDTSTGPEARKETDTPVQTSTEDEDEDSELERRHSIVRDLARQYTHQSQMSSVSGNPFLMEDEESPLNPRSEKFKALTWAKSVVKLLHDNGLSSRKAGVCYQNLNVFGYGQPTDYQKDVANIWFEAANWPRQLMGYGKTRIDIVRDFDGIVRNGEMLVVLGPPGAGCSTFLKTISGETSGIYVNDDAYFNYRGITAEEMHVQHRGEAIYTAEVDVHFPQLSVGDTLDFAAHARAPRNVPAGIDKETFVGHLRDVVMAMYGITHTVNTRVGNEYVRGVSGGERKRVTIAEASLSGAPLQCWDNSTRGLDSANAVEFCKTLRLQTELFDTAALVSIYQAPQAAYDVFDKALVLYEGRQIYFGPTNEAKHYFMELGFDCPARQTTPDFLTSMTSPQERVIRPGFEARAPRTPAEFAAAWKNSAAYTKLQQEIEEYKQEHPINGPEAEQFRQIKRAVQAKNQRLKSPYTLSYGQQTSLCVWRGFRRLICDPTLTLSMLFGNFFMGLIVGSVFYNLDQSTASFYQRGALVFMACLSNAFASALEILTLYAQRPIVEKHNRYALYHPSAEAVASMLCDLPYKVLNAIVYNLTLYFMTNLRREAGAFFYFLLMTFLVTLCMSMIFRTIGSASRTLSQAMVPSSILILALVTFTGFIIQIDYMLDWCRWINYINPLAYAFESLMVNEFHDRKFECNVFVPAYPDADPVNRVCSTVGSVQGEPMVDGDAYINLSFKYYHAHKWRNIGIVIAFTIFFLITYMAFAEFVSAKKSKGEVLVFRKGHKLAGGRGNDAESSPAGRGAITEKEGYGEGRPSNFQSTSVFHWNNVCYDVKIKSENRRILDNVAGWVKPGTMTALMGVSGAGKTTLLDCLADRTSMGVISGDILVDDELRDASFQRKTGYVQQQDLHLSTTTVREALNFSALMRQPKHIPTREKLAYVDEVIKMLDMQDYSEAVVGILGEGLNVEQRKRLTIGVELAAKPPVLLFVDEPTSGLDSQTSWAILDLLEKLARSGQAILCTIHQPSAILFQRFDRLLFLASGGKTVYFGDIGDHSRSMIDYFEKNGADPCSPDANPAEWMLEVIGAAPGSETELNWPQVWRDSPEHAAVQEHLKELSHHHVEKDTDTSSYDEFAADFKTQLVQVTRRVFEQYWRTPSYIYSKAALCVLVALFVGFVFYNAPNTTLGLQNQMFAIFQILTVFGQMVQQTMPHFVIQRDLYEVRERPSKTYGWQVFILSQIIVEIPWNTLMAALMYFCWYYPIGLYRNAEPSDAVAERGALMFLLLLAFMIFTCTFTDFVIAGCGSAETGGNIANLLFMMCLIFCGVLAPPSSLPRFWIFMYRVSPFTYLVSAILSTAVANTKAECAANEYIQFPPPSGQTCQEYMDDYMSKAGGYLTDPNNTDECTYCTIGDTNLFLASVQSDYADRWRNFGLMWVYIIFNICGALALYWLVRVPKNKKGKKAKKE

Target ORF information:

RefSeq Version	XM_003045322.1
Organism	[Nectria] haematococca mpVI 77-13-4
Definition	Nectria haematococca mpVI 77-13-4 predicted protein, mRNA.

Target ORF information:

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

XM_003045322.1

ORF Insert Sequence:

ATGGCATCCA ATTCCCCGGA GGGCACCACC TCCCCTCTAG GAGACACCAA CCTTGACCCA 
ACCGTCACAC AACCAACCAA CCCTGAGACA CATTCCAACA TGGGGACCGA CTCGACTATT 
AATGTCTCGG CATTGAAGGA TACATCTACC GGCCCTGAAG CACGCAAGGA GACCGATACC 
CCGGTACAGA CAAGTACAGA AGATGAAGAT GAGGACTCGG AGCTGGAGCG CAGACACAGC 
ATCGTGCGGG ACTTGGCACG ACAATACACC CACCAGAGCC AGATGTCCTC TGTCAGCGGA 
AACCCCTTTT TGATGGAAGA CGAAGAAAGT CCCCTGAACC CCAGAAGCGA AAAGTTCAAG 
GCCCTCACGT GGGCAAAGTC AGTGGTCAAG CTCCTCCACG ACAATGGTCT TTCATCTCGA 
AAAGCCGGCG TCTGCTACCA GAACCTCAAC GTCTTTGGCT ATGGACAGCC TACCGACTAC 
CAAAAGGATG TTGCGAATAT CTGGTTCGAG GCAGCTAACT GGCCACGGCA GTTGATGGGG 
TATGGAAAGA CCCGCATTGA TATTGTTCGC GACTTTGATG GTATCGTGCG GAATGGAGAG 
ATGTTGGTCG TGCTTGGACC CCCTGGTGCT GGATGCTCGA CGTTTCTCAA GACTATCAGT 
GGAGAGACGA GCGGTATTTA CGTGAACGAT GATGCGTACT TTAATTATCG AGGAATCACG 
GCAGAGGAGA TGCACGTACA GCATCGTGGT GAAGCCATCT ACACCGCCGA AGTTGATGTG 
CACTTCCCGC AACTGAGCGT TGGAGACACC CTGGATTTCG CAGCCCACGC CAGGGCCCCG 
AGGAATGTCC CGGCAGGCAT CGACAAGGAG ACTTTCGTCG GCCATCTCCG TGACGTCGTC 
ATGGCCATGT ACGGCATCAC CCACACGGTC AACACCCGGG TTGGTAACGA ATACGTCCGA 
GGAGTGTCCG GCGGAGAACG CAAGCGAGTT ACCATCGCAG AAGCTTCACT CAGCGGCGCC 
CCCCTACAAT GCTGGGACAA CAGCACCCGA GGTCTCGACT CTGCCAACGC AGTAGAGTTT 
TGCAAGACTT TGCGTCTTCA GACGGAATTA TTCGACACTG CGGCTTTGGT TTCGATTTAT 
CAAGCCCCGC AAGCTGCGTA TGATGTTTTC GACAAGGCGT TGGTTCTATA CGAGGGTCGA 
CAGATTTACT TTGGTCCTAC CAACGAAGCG AAGCATTATT TCATGGAACT CGGATTCGAC 
TGTCCAGCTC GTCAAACTAC GCCCGACTTT TTGACGTCCA TGACAAGTCC CCAGGAACGA 
GTCATTCGAC CGGGCTTTGA AGCTCGCGCC CCGAGAACCC CGGCTGAGTT TGCAGCAGCT 
TGGAAGAATT CTGCCGCATA TACCAAGCTT CAGCAGGAAA TTGAAGAGTA CAAGCAAGAG 
CATCCCATCA ACGGACCCGA GGCAGAGCAG TTCCGACAAA TCAAGCGTGC CGTACAAGCC 
AAGAATCAGC GTCTCAAGAG TCCGTACACT CTGAGCTATG GACAGCAGAC GTCTCTTTGT 
GTGTGGCGAG GCTTCAGGAG ATTGATCTGT GATCCGACTT TGACTCTATC GATGCTTTTC 
GGTAATTTCT TCATGGGCTT GATCGTTGGA AGCGTTTTCT ACAATCTTGA CCAGTCGACG 
GCAAGTTTCT ATCAGAGAGG CGCCTTGGTC TTTATGGCTT GCCTGTCTAA TGCTTTTGCG 
AGTGCCCTAG AAATTCTCAC GCTCTACGCC CAACGTCCAA TCGTCGAAAA ACACAACCGC 
TACGCCTTGT ACCACCCGTC AGCAGAAGCA GTCGCCTCTA TGCTCTGTGA TTTACCGTAC 
AAGGTCCTCA ACGCCATCGT TTACAACCTC ACACTGTACT TCATGACCAA CCTGCGTCGA 
GAAGCGGGAG CTTTCTTTTA CTTCTTGCTC ATGACGTTCC TTGTAACGCT CTGCATGTCG 
ATGATTTTCC GTACCATCGG TTCAGCTTCG AGGACTCTTT CACAGGCCAT GGTTCCCTCG 
TCTATCCTCA TCCTGGCTTT GGTCACGTTT ACTGGCTTCA TCATTCAGAT CGACTACATG 
CTGGATTGGT GTCGATGGAT TAACTACATC AACCCCCTCG CATATGCCTT TGAATCGCTC 
ATGGTCAACG AATTCCACGA TCGAAAATTC GAATGCAACG TCTTTGTCCC CGCATACCCC 
GACGCAGACC CAGTCAACCG CGTCTGCTCC ACGGTTGGTT CCGTCCAGGG CGAGCCAATG 
GTTGACGGAG ACGCCTACAT CAACCTATCC TTCAAATACT ACCACGCGCA CAAGTGGCGC 
AACATTGGCA TCGTCATCGC CTTCACAATC TTCTTCCTCA TCACTTACAT GGCCTTTGCC 
GAATTTGTCA GTGCCAAGAA GTCCAAGGGC GAGGTTCTCG TGTTCCGAAA AGGCCACAAG 
CTTGCAGGAG GAAGGGGAAA CGATGCCGAG TCGAGCCCAG CAGGTCGTGG AGCCATCACC 
GAGAAGGAGG GTTATGGAGA GGGACGTCCT TCTAACTTTC AGTCGACGAG TGTTTTCCAT 
TGGAACAATG TGTGCTATGA TGTCAAGATC AAGAGTGAGA ATAGGAGGAT TCTGGATAAC 
GTTGCTGGTT GGGTCAAGCC TGGCACAATG ACGGCTCTGA TGGGTGTTTC TGGAGCTGGC 
AAGACTACGC TTCTCGACTG TCTCGCAGAC CGAACGAGCA TGGGAGTTAT CTCAGGAGAC 
ATCCTAGTCG ACGACGAACT CCGTGACGCA TCCTTCCAAC GAAAGACCGG TTACGTTCAG 
CAACAGGACC TTCATCTGTC AACTACAACC GTTCGCGAGG CGCTCAACTT CTCAGCCCTC 
ATGCGTCAGC CAAAGCACAT CCCAACCAGA GAAAAGCTAG CCTACGTCGA CGAAGTCATC 
AAAATGCTCG ATATGCAAGA CTATTCAGAA GCTGTGGTCG GAATCCTCGG TGAAGGCCTC 
AACGTTGAAC AACGAAAACG TCTCACAATC GGCGTCGAGC TGGCCGCAAA GCCCCCAGTT 
CTTCTTTTTG TCGACGAGCC AACATCAGGT CTCGACTCTC AGACTTCATG GGCCATTCTC 
GATCTGTTGG AAAAGCTTGC TCGAAGCGGT CAGGCCATTC TCTGTACCAT TCATCAACCT 
TCAGCTATCC TCTTCCAACG TTTCGATCGA CTATTGTTTC TGGCTAGCGG TGGAAAGACG 
GTTTACTTTG GCGACATCGG TGACCATTCC AGGTCCATGA TTGACTATTT CGAAAAGAAC 
GGCGCCGATC CTTGTTCACC AGACGCCAAC CCAGCTGAAT GGATGCTCGA AGTCATTGGA 
GCAGCCCCAG GCTCAGAGAC CGAACTCAAC TGGCCACAGG TTTGGAGAGA TTCGCCCGAA 
CACGCCGCAG TCCAGGAGCA TCTCAAGGAA CTATCCCACC ATCACGTCGA AAAGGACACA 
GATACATCCT CGTACGACGA ATTCGCAGCA GATTTCAAGA CTCAGCTTGT CCAGGTTACC 
CGTCGTGTGT TTGAGCAATA TTGGCGAACG CCCTCATACA TCTACTCCAA GGCAGCCCTC 
TGTGTTCTCG TGGCTTTATT CGTCGGCTTC GTCTTTTACA ATGCTCCAAA CACGACCCTC 
GGCTTGCAGA ATCAGATGTT TGCCATTTTC CAGATCCTAA CCGTGTTCGG CCAGATGGTG 
CAACAAACCA TGCCGCATTT CGTCATCCAG AGAGATCTCT ACGAAGTGAG GGAGCGTCCA 
TCAAAGACGT ATGGCTGGCA GGTTTTTATC CTGAGTCAAA TCATCGTTGA GATCCCCTGG 
AATACGCTCA TGGCCGCTTT GATGTACTTC TGTTGGTACT ATCCCATTGG ACTGTATCGC 
AACGCAGAGC CATCCGATGC AGTCGCTGAA CGAGGCGCCC TCATGTTCCT GCTGCTTCTA 
GCATTCATGA TCTTCACCTG TACCTTTACC GACTTCGTCA TCGCAGGCTG TGGATCAGCA 
GAGACAGGCG GCAACATCGC GAACTTGCTC TTCATGATGT GTCTCATCTT CTGTGGTGTC 
CTCGCGCCCC CAAGCTCACT CCCTCGCTTC TGGATCTTCA TGTACCGCGT CAGTCCGTTC 
ACATATTTAG TGTCCGCTAT CTTATCAACA GCTGTGGCGA ATACAAAGGC AGAATGCGCA 
GCGAACGAGT ACATCCAGTT CCCGCCACCT TCGGGACAGA CCTGTCAAGA GTACATGGAT 
GATTATATGA GCAAGGCTGG TGGCTATCTG ACGGACCCCA ACAACACGGA CGAGTGTACC 
TACTGCACCA TCGGCGACAC AAACCTGTTC CTTGCTAGCG TGCAGTCTGA CTATGCAGAC 
AGGTGGAGGA ATTTCGGTCT GATGTGGGTG TACATCATCT TTAATATCTG CGGCGCATTG 
GCACTTTATT GGCTTGTCAG GGTTCCCAAG AACAAGAAGG GAAAGAAGGC GAAGAAGGAG 
TAG

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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NECHADRAFT_82055 cDNA ORF clone, [Nectria] haematococca mpVI 77-13-4

Gene

Clones

gRNAs

Related articles in PubMed

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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