NECHADRAFT_71620 cDNA ORF clone, [Nectria] haematococca mpVI 77-13-4

Gene
Clones
gRNAs

Summary

Gene Symbol	NECHADRAFT_71620
Entrez Gene ID	9675104
Full Name	hypothetical protein
Gene Type	protein-coding
Organism	[Nectria] haematococca mpVI 77-13-4

mRNA and Protein(s)

mRNA	Protein	Name
XM_003050273.1	XP_003050319.1	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_71620 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the NECHADRAFT_71620 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
ONb10595	XM_003050273.1 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_71620 ( XM_003050273.1 ) cDNA ORF clone, [Nectria] haematococca mpVI 77-13-4 -> XP_003050319.1 Nectria haematococca mpVI 77-13-4 predicted protein, mRNA.

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CloneID	ONb10595
Clone ID Related Accession (Same CDS sequence)	XM_003050273.1
Accession Version	XM_003050273.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4743bp) 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_003315877). COMPLETENESS: incomplete on the 5' end.

ATGGCATCGA CCTACGAGGT TGGCACAAGG GCATGGCAGC CCGATGCCGC TGAGGGATGG 
GTAGCCTCAG AGCTTATCAA TAAGACCATT GATGGCAACA AGGCCAAGCT CACCTTTCAG 
TTGGAGAATG GCGATACCAA GGACATCAAT GTCACTGTTG AGGCCCTCCA GAGCGGCAAC 
CATCCCTCTC TGCCGCCTCT GATGAACCCT ACCGTCCTCG AAGCCAGCGA TGATCTTACA 
AATCTTTCTC ATCTCAACGA GCCTGCTGTC TTGCAAGCAA TCAGGCTACG ATACCTGCAG 
AAGGAAATCT ACACATACAG TGGTATCGTT CTAATTGCTA CCAACCCCTT CGCACGAGTC 
GATTCTCTCT ATGTTCCTGG CATGGTCCAA GTCTATGCCG GAAGACAGCG AGCTACCCAG 
GCACCTCACT TGTTCGCTAT TGCCGAGGAA GCCTTCATGG ACATGATTCG AGACAAGAAG 
AACCAGACCA TTGTCGTGTC CGGAGAGTCT GGTGCTGGAA AGACTGTCAG TGCCAAGTAC 
ATCATGCGTT ACTTTGCTAC CAGAGAGTCT CCCGACAACC CTGGTGCGCG TTCCAAACGA 
GGTGAAGCCA TGAGTGAAAC CGAGGAGCAG ATTCTCGCGA CCAACCCCAT CATGGAAGCG 
TTCGGTAACG CCAAGACCAC CCGAAACGAC AACTCGTCTC GATTCGGAAA GTACATTGAG 
ATCATGTTCG ACGACAAGAC AAATATTATC GGTGCTAAGA TCAGGACTTA TCTTCTCGAG 
CGTTCACGAC TTGTGTTCCA GCCTCTCAAG GAGCGAAACT ACCACATCTT CTACCAGCTT 
GTCGCTGGTG CTTCGGACAA GGAACGGGAA GAGCTCAACC TTCTGCCTAT TGAGCAGTTT 
GAGTACTTGA ACCAAGGAAA CTGCCCGACC ATCGACGGTG TGGATGACAA GGCCGAATTC 
GAAGCGACCA AGAAGTCTCT GTCAACCATT GGTGTCTCGG ATGCTCAACA AGCCGACATC 
TTCAAGCTCT TGGCCGGTCT GCTACATCTC GGTAACGTCA AGATCACGGC ATCGCGTAAC 
GACAGTGTGC TCGCCCCGAC TGAGCCTTCT CTGGAACGTG CTTGTGACAT TCTCGGTGTC 
AAGGCGGAGG AGTTTGCTCG GTGGATCGTG AAGAAGCAGC TCGTCACCCG CGGTGAAAAG 
ATCACATCGA ACCTGAGCCA GGCTCAGGCC ATCGTTGTCC GAGATTCCGT CGCCAAGTTC 
ATCTACTCCA GTCTCTTTGA CTGGCTGGTT GAAATCATTA ACTACAGTCT GGCTGCTGAG 
GAGGTCCTGA ACCGCGTGAC CTCATTCATT GGTGTCCTGG ATATCTACGG ATTCGAGCAC 
TTTGCCAAGA ACTCGTTCGA GCAGTTCTGT ATCAACTACG CCAACGAGAA GCTTCAGCAG 
GAATTCAACC AGCACGTGTT CAAGCTTGAG CAAGAAGAAT ACCTCAGGGA GCAGATTGAT 
TGGACCTTTA TTGACTTCTC TGACAACCAG CCATGTATCG ACCTGATTGA AGGCCGTATG 
GGTATTCTGT CCCTGCTTGA CGAGGAGTCT CGTCTTCCCA TGGGTTCCGA TGAGCAGTTT 
GTGACCAAGC TTCACCACAA CTTCTCTACC GACAAGCACA AGTTCTACAA GAAGCCCAGA 
TTCGGCAAGT CAGCTTTCAC AGTCTGCCAT TATGCCATCG ATGTCACCTA TGAGTCTGAG 
GGCTTCATCG AAAAGAACCG TGATACTGTC CCTGATGAGC ACATGGCTGT CCTGCGTGCC 
TCGAGCAACG ACTTCCTCAA GAAGGTCCTG GAGGCTGCCT CGGCAGTGCG AGAAAAGGAT 
GTTGCGTCGT CTTCCTCCAA CGCCGTTAAG CCCGCCGGTG GTAGGAAGAT CGGCGTTGCT 
GTCAACAGGA AGCCCACACT TGGAGGTATC TTCCGATCTT CGCTGATCGA GCTTATGGGC 
ACCATCAACA ACACCGATGT CCACTACATC CGATGTATCA AGCCTAACGA GGCTAAGGAA 
GCCTGGAAGT TCGAGGGACC CATGGTTCTC AGCCAGCTCC GTGCTTGTGG TGTTCTCGAG 
ACCGTCCGCA TTAGTTGTGC TGGTTACCCA ACTCGATGGA CCTACGAGGA GTTTGCTCTC 
CGATACTACA TGTTGGTGCG CTCTGATCAA TGGACCTCCG AGATTCGCGA AATGGCCGAT 
GCCATCCTTA AGAAGGCGCT CGGAACCAGC ACCAGCAAGG GGCTTGACAA GTACCAGCTC 
GGTCTCACCA AGATCTTCTT CCGAGCTGGT ATGCTTGCCT TCCTCGAGAA TCTTCGAACC 
AACCGTCTCA ATGACTGTGC TATCATGATT CAGAAGAACT TGAGAGCCAA ATACTACCGA 
CGCCGCTACC TTGAGGCCCG TGAGGCGGTT ATCCGCACAC AGTCTGCTAT CAGGGCTTGG 
AAGGCCAGGA AACAGGCTAT GGAGCTCCGC ACCATCAAGG CTGCCATTAC CATCCAGCGT 
GTTTGGCGTG GACAGAAGCA GCGCAGGACC TTCCTGCGCA TCAGGAGAGA TATGGTGCTC 
TTCGAGTCAG CTGCCAAGGG ATACCTTCGG AGAAAGAACA TTATGGAGAC ACGCCTTGGT 
AATGCCGCGC TTGTGATCCA GAGATCATGG AGGTCACGAA GACAGCTGAG GTCTTGGAGA 
CAATACCGCA AGAAGGTGGT GTTGATTCAG AGCCTGTGGC GTGGTAGGAA GGCCCGCAAG 
GATTACAAGA AGATTCGTGA GGAGGCTCGC GACCTCAAGC AGATTTCCTA CAAGCTCGAA 
AACAAGGTCG TTGAGCTCAC ACAGTCTCTG GGCTCGATGA AGGAGAAGAA CAAGAGCCTG 
GCATCACAGG TGGAGAACTA CGAGGGACAG ATCAAGTCAT GGAAGAACCG CCATAACGCT 
TTGGAAGCCC GAACGAAGGA GCTTCAGACA GAAGCCAACC AAGCCGGTAT TGCCGTCGCC 
AGACTGCAAG CAATGGAGGA TGAGATGAAG AAGCTCCAGG TTGCCTTTGA TGAGTCAACG 
GCGAATATCA AGAGAATGCA AGAGGAGGAA CGGGAGCTGA GGGAGTCTCT GCGCACAACG 
AACTCGGAAC TGGAGACAGC AAGGAGGACA AGCACCCAGC ACGAGAAGGA CAACATGAGC 
CTCCGACAGG AGCTCGAGGC TCTCCGAGAC GCCCTGGAGA TGGCTCGGAG GAACGCTCCT 
ATCAATGGAG AGCTCGCCAA TGGAACAGTA CCTGCACTTC CGGCAGCCTC TGGGCTTATC 
AACCTGGTCT CCTCCAAGAA GCCCAAGCGC CGCAGCGCCG GGGCGGAACC ACGGGAGCTT 
GATCGCTTTA GCGGTACTTA TAACCCTCGG CCGGTCTCCA TGGCGGTTAC TAGCACGGCA 
CATCGTCAGA ACCTTTCTGG CTCGACCTTC CTTCCTGGCG TTGATAATAT CGAGATGGAG 
CTCGAGGGCC TTCTTGCGGA CGAGGATGGC CTCAACGAGG AGGTAACAAT GGGCTTGATC 
AAGAACCTCA AGATCCCCTC TCCCAACACC ACCCCTCCAC CTTCAGACAA GGAGGTGCTC 
TTCCCTTCAT ATCTCATCAA CCTGGTGACA TCAGAGATGT GGAACAACGG TTTCGTCAAG 
GAGTCGGAAC GTTTCCTCGC AAATGTGATG CAGTCTATCC AGCAGGAGGT GATGCAGCAC 
GATGGCGACG AGGCCATCAA CCCCGGTTCC TTCTGGCTGT CCAACGTGCA CGAGATGCTC 
TCGTTCGTGT TCCTTGCCGA GGATTGGTAC GAGGCCCAGA AGTCGGACAA CTATGAGTAC 
GACCGACTCC TGGAGATTGT CAAGCACGAC CTCGAGAGTC TAGAGTTCAA CATCTATCAC 
ACTTGGATGA AGGTGTTGAA GAAGAAGCTG CACAAGATGA TCATCCCGGC CATCATCGAG 
TCCCAGTCTC TGCCTGGTTT CGTTACCAAC GAGAGCAGTC GATTCCTGGG CAAGCTCCTC 
CAGTCCAACT CAACACCGGC GTACAGCATG GACAACCTCC TGAGCCTGCT GAACAGCGTC 
TTCCGCGCTA TGAAGGCGTA CTACCTGGAA GACTCCATCA TCACCCAGAC CATCACTGAG 
CTCCTGCGGT TGGTGGGTGT GACGGCTTTC AACGACCTCC TCATGCGACG AAATTTCCTC 
TCATGGAAGC GTGGCCTCCA GATCAACTAC AACATCACGC GCATTGAGGA ATGGTGTAAG 
AGCCACGATA TGCCCGAAGG CACGCTTCAG CTGGAGCATC TGATGCAAGC AACCAAGCTT 
CTTCAGCTCA AGAAGGCCAC CTTGAACGAT ATCGAAATCA TTCAGGACAT TTGCTGGATG 
CTCTCACCAA ACCAGATCCA GAAGCTCCTC AACCAGTACC TGGTTGCTGA TTACGAGCAG 
CCGATCAATG GAGAGATCAT GAAGGCTGTG GCTTCGCGGG TAACTGAGAA GAGCGACGTG 
CTGCTCCTCC AGGCCGTGGA CATGGACGAC AGTGGTCCTT ACGAGATCGC CGAACCCCGT 
GTCATTACGG CGCTTGAGAC TTATACTCCT TCTTGGCTCC AAACTCCTCG CCTCAAGAGG 
CTGGCTGAGA TTGTGTCAGC ACAAGCTATC GCTCAGCAGG AGAAGTTTGA CTATGCTGAG 
GGAGACGAGG ATTACGCACC GGACGAACTG GCTGGTGTTG ATGAGGTGGA GGTAGAACAG 
TAG

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

RefSeq	XP_003050319.1
CDS	1..4743
Translation	MASTYEVGTRAWQPDAAEGWVASELINKTIDGNKAKLTFQLENGDTKDINVTVEALQSGNHPSLPPLMNPTVLEASDDLTNLSHLNEPAVLQAIRLRYLQKEIYTYSGIVLIATNPFARVDSLYVPGMVQVYAGRQRATQAPHLFAIAEEAFMDMIRDKKNQTIVVSGESGAGKTVSAKYIMRYFATRESPDNPGARSKRGEAMSETEEQILATNPIMEAFGNAKTTRNDNSSRFGKYIEIMFDDKTNIIGAKIRTYLLERSRLVFQPLKERNYHIFYQLVAGASDKEREELNLLPIEQFEYLNQGNCPTIDGVDDKAEFEATKKSLSTIGVSDAQQADIFKLLAGLLHLGNVKITASRNDSVLAPTEPSLERACDILGVKAEEFARWIVKKQLVTRGEKITSNLSQAQAIVVRDSVAKFIYSSLFDWLVEIINYSLAAEEVLNRVTSFIGVLDIYGFEHFAKNSFEQFCINYANEKLQQEFNQHVFKLEQEEYLREQIDWTFIDFSDNQPCIDLIEGRMGILSLLDEESRLPMGSDEQFVTKLHHNFSTDKHKFYKKPRFGKSAFTVCHYAIDVTYESEGFIEKNRDTVPDEHMAVLRASSNDFLKKVLEAASAVREKDVASSSSNAVKPAGGRKIGVAVNRKPTLGGIFRSSLIELMGTINNTDVHYIRCIKPNEAKEAWKFEGPMVLSQLRACGVLETVRISCAGYPTRWTYEEFALRYYMLVRSDQWTSEIREMADAILKKALGTSTSKGLDKYQLGLTKIFFRAGMLAFLENLRTNRLNDCAIMIQKNLRAKYYRRRYLEAREAVIRTQSAIRAWKARKQAMELRTIKAAITIQRVWRGQKQRRTFLRIRRDMVLFESAAKGYLRRKNIMETRLGNAALVIQRSWRSRRQLRSWRQYRKKVVLIQSLWRGRKARKDYKKIREEARDLKQISYKLENKVVELTQSLGSMKEKNKSLASQVENYEGQIKSWKNRHNALEARTKELQTEANQAGIAVARLQAMEDEMKKLQVAFDESTANIKRMQEEERELRESLRTTNSELETARRTSTQHEKDNMSLRQELEALRDALEMARRNAPINGELANGTVPALPAASGLINLVSSKKPKRRSAGAEPRELDRFSGTYNPRPVSMAVTSTAHRQNLSGSTFLPGVDNIEMELEGLLADEDGLNEEVTMGLIKNLKIPSPNTTPPPSDKEVLFPSYLINLVTSEMWNNGFVKESERFLANVMQSIQQEVMQHDGDEAINPGSFWLSNVHEMLSFVFLAEDWYEAQKSDNYEYDRLLEIVKHDLESLEFNIYHTWMKVLKKKLHKMIIPAIIESQSLPGFVTNESSRFLGKLLQSNSTPAYSMDNLLSLLNSVFRAMKAYYLEDSIITQTITELLRLVGVTAFNDLLMRRNFLSWKRGLQINYNITRIEEWCKSHDMPEGTLQLEHLMQATKLLQLKKATLNDIEIIQDICWMLSPNQIQKLLNQYLVADYEQPINGEIMKAVASRVTEKSDVLLLQAVDMDDSGPYEIAEPRVITALETYTPSWLQTPRLKRLAEIVSAQAIAQQEKFDYAEGDEDYAPDELAGVDEVEVEQ

Target ORF information:

RefSeq Version	XM_003050273.1
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_003050273.1

ORF Insert Sequence:

ATGGCATCGA CCTACGAGGT TGGCACAAGG GCATGGCAGC CCGATGCCGC TGAGGGATGG 
GTAGCCTCAG AGCTTATCAA TAAGACCATT GATGGCAACA AGGCCAAGCT CACCTTTCAG 
TTGGAGAATG GCGATACCAA GGACATCAAT GTCACTGTTG AGGCCCTCCA GAGCGGCAAC 
CATCCCTCTC TGCCGCCTCT GATGAACCCT ACCGTCCTCG AAGCCAGCGA TGATCTTACA 
AATCTTTCTC ATCTCAACGA GCCTGCTGTC TTGCAAGCAA TCAGGCTACG ATACCTGCAG 
AAGGAAATCT ACACATACAG TGGTATCGTT CTAATTGCTA CCAACCCCTT CGCACGAGTC 
GATTCTCTCT ATGTTCCTGG CATGGTCCAA GTCTATGCCG GAAGACAGCG AGCTACCCAG 
GCACCTCACT TGTTCGCTAT TGCCGAGGAA GCCTTCATGG ACATGATTCG AGACAAGAAG 
AACCAGACCA TTGTCGTGTC CGGAGAGTCT GGTGCTGGAA AGACTGTCAG TGCCAAGTAC 
ATCATGCGTT ACTTTGCTAC CAGAGAGTCT CCCGACAACC CTGGTGCGCG TTCCAAACGA 
GGTGAAGCCA TGAGTGAAAC CGAGGAGCAG ATTCTCGCGA CCAACCCCAT CATGGAAGCG 
TTCGGTAACG CCAAGACCAC CCGAAACGAC AACTCGTCTC GATTCGGAAA GTACATTGAG 
ATCATGTTCG ACGACAAGAC AAATATTATC GGTGCTAAGA TCAGGACTTA TCTTCTCGAG 
CGTTCACGAC TTGTGTTCCA GCCTCTCAAG GAGCGAAACT ACCACATCTT CTACCAGCTT 
GTCGCTGGTG CTTCGGACAA GGAACGGGAA GAGCTCAACC TTCTGCCTAT TGAGCAGTTT 
GAGTACTTGA ACCAAGGAAA CTGCCCGACC ATCGACGGTG TGGATGACAA GGCCGAATTC 
GAAGCGACCA AGAAGTCTCT GTCAACCATT GGTGTCTCGG ATGCTCAACA AGCCGACATC 
TTCAAGCTCT TGGCCGGTCT GCTACATCTC GGTAACGTCA AGATCACGGC ATCGCGTAAC 
GACAGTGTGC TCGCCCCGAC TGAGCCTTCT CTGGAACGTG CTTGTGACAT TCTCGGTGTC 
AAGGCGGAGG AGTTTGCTCG GTGGATCGTG AAGAAGCAGC TCGTCACCCG CGGTGAAAAG 
ATCACATCGA ACCTGAGCCA GGCTCAGGCC ATCGTTGTCC GAGATTCCGT CGCCAAGTTC 
ATCTACTCCA GTCTCTTTGA CTGGCTGGTT GAAATCATTA ACTACAGTCT GGCTGCTGAG 
GAGGTCCTGA ACCGCGTGAC CTCATTCATT GGTGTCCTGG ATATCTACGG ATTCGAGCAC 
TTTGCCAAGA ACTCGTTCGA GCAGTTCTGT ATCAACTACG CCAACGAGAA GCTTCAGCAG 
GAATTCAACC AGCACGTGTT CAAGCTTGAG CAAGAAGAAT ACCTCAGGGA GCAGATTGAT 
TGGACCTTTA TTGACTTCTC TGACAACCAG CCATGTATCG ACCTGATTGA AGGCCGTATG 
GGTATTCTGT CCCTGCTTGA CGAGGAGTCT CGTCTTCCCA TGGGTTCCGA TGAGCAGTTT 
GTGACCAAGC TTCACCACAA CTTCTCTACC GACAAGCACA AGTTCTACAA GAAGCCCAGA 
TTCGGCAAGT CAGCTTTCAC AGTCTGCCAT TATGCCATCG ATGTCACCTA TGAGTCTGAG 
GGCTTCATCG AAAAGAACCG TGATACTGTC CCTGATGAGC ACATGGCTGT CCTGCGTGCC 
TCGAGCAACG ACTTCCTCAA GAAGGTCCTG GAGGCTGCCT CGGCAGTGCG AGAAAAGGAT 
GTTGCGTCGT CTTCCTCCAA CGCCGTTAAG CCCGCCGGTG GTAGGAAGAT CGGCGTTGCT 
GTCAACAGGA AGCCCACACT TGGAGGTATC TTCCGATCTT CGCTGATCGA GCTTATGGGC 
ACCATCAACA ACACCGATGT CCACTACATC CGATGTATCA AGCCTAACGA GGCTAAGGAA 
GCCTGGAAGT TCGAGGGACC CATGGTTCTC AGCCAGCTCC GTGCTTGTGG TGTTCTCGAG 
ACCGTCCGCA TTAGTTGTGC TGGTTACCCA ACTCGATGGA CCTACGAGGA GTTTGCTCTC 
CGATACTACA TGTTGGTGCG CTCTGATCAA TGGACCTCCG AGATTCGCGA AATGGCCGAT 
GCCATCCTTA AGAAGGCGCT CGGAACCAGC ACCAGCAAGG GGCTTGACAA GTACCAGCTC 
GGTCTCACCA AGATCTTCTT CCGAGCTGGT ATGCTTGCCT TCCTCGAGAA TCTTCGAACC 
AACCGTCTCA ATGACTGTGC TATCATGATT CAGAAGAACT TGAGAGCCAA ATACTACCGA 
CGCCGCTACC TTGAGGCCCG TGAGGCGGTT ATCCGCACAC AGTCTGCTAT CAGGGCTTGG 
AAGGCCAGGA AACAGGCTAT GGAGCTCCGC ACCATCAAGG CTGCCATTAC CATCCAGCGT 
GTTTGGCGTG GACAGAAGCA GCGCAGGACC TTCCTGCGCA TCAGGAGAGA TATGGTGCTC 
TTCGAGTCAG CTGCCAAGGG ATACCTTCGG AGAAAGAACA TTATGGAGAC ACGCCTTGGT 
AATGCCGCGC TTGTGATCCA GAGATCATGG AGGTCACGAA GACAGCTGAG GTCTTGGAGA 
CAATACCGCA AGAAGGTGGT GTTGATTCAG AGCCTGTGGC GTGGTAGGAA GGCCCGCAAG 
GATTACAAGA AGATTCGTGA GGAGGCTCGC GACCTCAAGC AGATTTCCTA CAAGCTCGAA 
AACAAGGTCG TTGAGCTCAC ACAGTCTCTG GGCTCGATGA AGGAGAAGAA CAAGAGCCTG 
GCATCACAGG TGGAGAACTA CGAGGGACAG ATCAAGTCAT GGAAGAACCG CCATAACGCT 
TTGGAAGCCC GAACGAAGGA GCTTCAGACA GAAGCCAACC AAGCCGGTAT TGCCGTCGCC 
AGACTGCAAG CAATGGAGGA TGAGATGAAG AAGCTCCAGG TTGCCTTTGA TGAGTCAACG 
GCGAATATCA AGAGAATGCA AGAGGAGGAA CGGGAGCTGA GGGAGTCTCT GCGCACAACG 
AACTCGGAAC TGGAGACAGC AAGGAGGACA AGCACCCAGC ACGAGAAGGA CAACATGAGC 
CTCCGACAGG AGCTCGAGGC TCTCCGAGAC GCCCTGGAGA TGGCTCGGAG GAACGCTCCT 
ATCAATGGAG AGCTCGCCAA TGGAACAGTA CCTGCACTTC CGGCAGCCTC TGGGCTTATC 
AACCTGGTCT CCTCCAAGAA GCCCAAGCGC CGCAGCGCCG GGGCGGAACC ACGGGAGCTT 
GATCGCTTTA GCGGTACTTA TAACCCTCGG CCGGTCTCCA TGGCGGTTAC TAGCACGGCA 
CATCGTCAGA ACCTTTCTGG CTCGACCTTC CTTCCTGGCG TTGATAATAT CGAGATGGAG 
CTCGAGGGCC TTCTTGCGGA CGAGGATGGC CTCAACGAGG AGGTAACAAT GGGCTTGATC 
AAGAACCTCA AGATCCCCTC TCCCAACACC ACCCCTCCAC CTTCAGACAA GGAGGTGCTC 
TTCCCTTCAT ATCTCATCAA CCTGGTGACA TCAGAGATGT GGAACAACGG TTTCGTCAAG 
GAGTCGGAAC GTTTCCTCGC AAATGTGATG CAGTCTATCC AGCAGGAGGT GATGCAGCAC 
GATGGCGACG AGGCCATCAA CCCCGGTTCC TTCTGGCTGT CCAACGTGCA CGAGATGCTC 
TCGTTCGTGT TCCTTGCCGA GGATTGGTAC GAGGCCCAGA AGTCGGACAA CTATGAGTAC 
GACCGACTCC TGGAGATTGT CAAGCACGAC CTCGAGAGTC TAGAGTTCAA CATCTATCAC 
ACTTGGATGA AGGTGTTGAA GAAGAAGCTG CACAAGATGA TCATCCCGGC CATCATCGAG 
TCCCAGTCTC TGCCTGGTTT CGTTACCAAC GAGAGCAGTC GATTCCTGGG CAAGCTCCTC 
CAGTCCAACT CAACACCGGC GTACAGCATG GACAACCTCC TGAGCCTGCT GAACAGCGTC 
TTCCGCGCTA TGAAGGCGTA CTACCTGGAA GACTCCATCA TCACCCAGAC CATCACTGAG 
CTCCTGCGGT TGGTGGGTGT GACGGCTTTC AACGACCTCC TCATGCGACG AAATTTCCTC 
TCATGGAAGC GTGGCCTCCA GATCAACTAC AACATCACGC GCATTGAGGA ATGGTGTAAG 
AGCCACGATA TGCCCGAAGG CACGCTTCAG CTGGAGCATC TGATGCAAGC AACCAAGCTT 
CTTCAGCTCA AGAAGGCCAC CTTGAACGAT ATCGAAATCA TTCAGGACAT TTGCTGGATG 
CTCTCACCAA ACCAGATCCA GAAGCTCCTC AACCAGTACC TGGTTGCTGA TTACGAGCAG 
CCGATCAATG GAGAGATCAT GAAGGCTGTG GCTTCGCGGG TAACTGAGAA GAGCGACGTG 
CTGCTCCTCC AGGCCGTGGA CATGGACGAC AGTGGTCCTT ACGAGATCGC CGAACCCCGT 
GTCATTACGG CGCTTGAGAC TTATACTCCT TCTTGGCTCC AAACTCCTCG CCTCAAGAGG 
CTGGCTGAGA TTGTGTCAGC ACAAGCTATC GCTCAGCAGG AGAAGTTTGA CTATGCTGAG 
GGAGACGAGG ATTACGCACC GGACGAACTG GCTGGTGTTG ATGAGGTGGA GGTAGAACAG 
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_71620 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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