HSP101 cDNA ORF clone, Vitis vinifera(wine grape)

Gene
Clones
gRNAs

Summary

Gene Symbol	HSP101
Entrez Gene ID	100232966
Full Name	heat shock protein 101
Gene Type	protein-coding
Organism	Vitis vinifera(wine grape)

mRNA and Protein(s)

mRNA	Protein	Name
NM_001280893.1	NP_001267822.1	heat shock protein 101
XM_010664718.2	XP_010663020.1	heat shock protein 101 isoform X1

Pathways from BioSystems
Gene Ontology
Bibliography

Related articles in PubMed

The grapevine genome sequence suggests ancestral hexaploidization in major angiosperm phyla.
Jaillon O, Aury JM, Noel B, Policriti A, Clepet C, Casagrande A, Choisne N, Aubourg S, Vitulo N, Jubin C, Vezzi A, Legeai F, Hugueney P, Dasilva C, Horner D, Mica E, Jublot D, Poulain J, Bruyère C, Billault A, Segurens B, Gouyvenoux M, Ugarte E, Cattonaro F, Anthouard V, Vico V, Del Fabbro C, Alaux M, Di Gaspero G, Dumas V, Felice N, Paillard S, Juman I, Moroldo M, Scalabrin S, Canaguier A, Le Clainche I, Malacrida G, Durand E, Pesole G, Laucou V, Chatelet P, Merdinoglu D, Delledonne M, Pezzotti M, Lecharny A, Scarpelli C, Artiguenave F, Pè ME, Valle G, Morgante M, Caboche M, Adam-Blondon AF, Weissenbach J, Quétier F, Wincker P,
Nature449(7161)463-7(2007 Sep)

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

The following HSP101 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the HSP101 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
OVa22693	NM_001280893.1 Latest version!	Vitis vinifera heat shock protein 101 (HSP101), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OVa22984	XM_010664718.2 Latest version!	Vitis vinifera heat shock protein 101 (HSP101), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
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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)

HSP101 ( NM_001280893.1 ) cDNA ORF clone, Vitis vinifera(wine grape) -> NP_001267822.1 Vitis vinifera heat shock protein 101 (HSP101), mRNA.

Price & Availability↑

CloneID	OVa22693
Clone ID Related Accession (Same CDS sequence)	NM_001280893.1
Accession Version	NM_001280893.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2736bp) 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	1556899200000
Organism	Vitis vinifera(wine grape)
Product	heat shock protein 101
Comment	Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from AY764155.1. On Jul 24, 2013 this sequence version replaced XM_002284143.1. ##Evidence-Data-START## Transcript exon combination :: AY764155.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA3598469, SAMEA3598470 [ECO:0000348] ##Evidence-Data-END##

ATGAATCCAG AGAAATTCAC CCACAAGACA AATGAGACTC TTGCTGGGGC TCATGAGCTT 
GCTATGAACT CTGGCCATGC TCAGCTCACA CCACTTCACG TTGCTGTGGC TTTGATAACT 
GATCACAATG GCATCCTCCG GCAAGCCATA ATCGGTGCTG GTGGAAATGA GGAGGCTGCC 
AACTCTGTTG AAAGAGTCTT CAATAAAGCT CTGAAGAAAC TCCCAACTCA GAGTCCTCCT 
CCAGATGAAA TCCCAGTAAG CACTACTCTA ATCAAAGTGG TTCGAAGAGC CCAATCTTCA 
CAAAAGTCAC GGGGTGACAC CCATTTAGCA GTTGATCAAT TGATTCTTGG CCTTCTTGAG 
GATTCCCAAA TTGGTGATTT GCTTAAAGAA GCCGGGGTTA GTACTTCTAG AGTGAAATCT 
GAGGTTGAGA AGCTTCGAGG GAAAGAAGGT AAGAAGGTGG AAAGTGCTTC TGGGGACACC 
ACATTCCAGG CATTGAAGAC TTATGGGCGT GACCTTGTTG AGCAAGCTGG AAAGCTTGAT 
CCTGTCATTG GCCGGGACGA AGAGATTCGG AGGGTCATCA GGATTCTTTC AAGGAGGACC 
AAGAACAACC CTGTTCTTAT TGGAGAACCA GGTGTGGGTA AGACTGCTGT TGTTGAAGGA 
TTAGCTCAGA GAATTGTAAG AGGGGACGTT CCCAGTAATC TCGCTGAAGT GAGGCTTATA 
GCATTGGATA TGGGTGCTTT GGTTGCTGGG GCAAAATATA GAGGAGAATT CGAGGAGAGG 
TTGAAATCTG TTTTGAAAGA AGTGGAAGAG GCAGAAGGGA AAGTGATTTT ATTCATTGAT 
GAAATTCACC TTGTTCTTGG TGCTGGTCGG ACTGAAGGAT CTATGGATGC TGCTAACTTG 
TTTAAGCCCA TGCTTGCCAG AGGTCAGCTA CGCTGCATCG GAGCAACGAC CCTTGAGGAA 
TACAGAAAGT ATGTTGAGAA AGATGCCGCT TTTGAGAGGC GGTTCCAGCA AGTTTATGTA 
GCTGAGCCCA GCGTCCCTGA CACAATAAGC ATTCTTCGAG GGCTAAAAGA AAGGTATGAA 
GGGCATCATG GTGTTCGAAT TCAGGACCGA GCTCTTGTAG TTGCAGCCCA ACTATCAAGC 
CGATACATCA CTGGCCGACA TCTGCCAGAC AAGGCAATCG ACCTGGTTGA TGAAGCTTGC 
GCCAATGTGA GAGTTCAACT TGATAGCCAG CCCGAAGAAA TCGACAATTT GGAAAGGAAG 
AGAATGCAAT TAGAAGTTGA ACTTCATGCT CTTGAAAAGG AGAAGGACAA AGCCAGTAAA 
GCTCGTCTTG TTGAAGTCCG CAGAGAGCTT GACGACTTGA GGGACAAGCT TCAACCCTTG 
ATGATGAAGT ACAAAAAGGA GAAAGAAAGG ATTGATGAGC TTCGCAGGCT AAAACAGAAA 
AGAGAGGAGC TCTTGTTTGC TTTACAAGAG GCTGAAAGAA GATATGATTT AGCCAGAGCT 
GCTGATTTGC GATATGGGGC AATTCAAGAA GTGGAGGCTG CTATAGCAAA CCTTGAAGGA 
ACCACTGATG AGAACATGAT GTTAACGGAG ACTGTTGGGC CTGAGCAGAT TGCTGAGGTG 
GTGAGCCGCT GGACTGGCAT CCCTGTCACT AGGCTTGGAC AAAATGATAA AGAAAGGTTA 
ATTGGGCTTG CGGAGAGGCT GCATCAGAGA GTGGTGGGAC AGGATCAGGC AGTCAGTGCT 
GTGGCAGAGG CTGTCTTGAG ATCGAGGGCT GGGTTAGGAA GGCCACAACA ACCCACTGGT 
TCGTTCCTCT TCTTGGGTCC AACTGGTGTT GGTAAGACTG AGCTTGCCAA GGCCCTGGCT 
GAACAGCTCT TTGATGATGA AAATCTTTTG GTGAGAATTG ACATGTCCGA GTATATGGAG 
CAGCATTCAG TTTCAAGATT GATTGGGGCT CCTCCTGGAT ATGTTGGACA TGATGAAGGT 
GGGCAACTCA CAGAGGCAGT AAGAAGGAGG CCTTATAGTG TTGTACTGTT CGATGAAGTA 
GAGAAAGCAC ATATCGCCGT ATTCAATACC CTCCTCCAGG TTTTAGACGA TGGAAGGTTA 
ACTGATGGCC AAGGCCGCAC TGTAGACTTC ACAAACACAG TGATCATCAT GACTTCAAAC 
CTTGGAGCTG AGCATCTCCT CTCGGGTTTA GTAGGCAAGT GTACAATGCA AGATGCTCGT 
GACCGGGTGA TGCAGGAGGT GAGAAGGCAC TTCAGGCCAG AGTTGCTTAA CCGGCTGGAT 
GAAATTGTGG TATTTGATCC CCTCTCACAT GATCAACTGA GAAAGGTTGC CAGGCTACAA 
ATGAAGGACG TTGCAAGCCG CTTGGCAGAG AGGGGCATTG CTCTGGCTGT GACTGATGCA 
GCATTGGATG TTGTTCTAGC AGAGAGTTAT GATCCGGTTT ACGGTGCAAG ACCCATTAGG 
AGATGGCTGG AGAAGAAGGT GGTGACTGAG CTATCAAAGA TGCTCATAAG GGAGGAGATC 
GATGAAAACT CAACTGTTTA TATAGATGCG GGAGTGTCAG GAAAGGGGTT GGCGTACCGA 
GTAGAAAACA ATGGGGGGCT GGTGAATGCA TCCACCGGAC AAAAGTCAGA CGTGTTGATT 
CGGATCCCAA ACGGGCAAAG AAGCGATGCT GCCCAAGCGG TGAAGAAGAT GAAGATCGAA 
GAAATAGAAG ACGAAGAGGA TGAGATGGAT CTATAA

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

RefSeq	NP_001267822.1
CDS	35..2770
Translation	MNPEKFTHKTNETLAGAHELAMNSGHAQLTPLHVAVALITDHNGILRQAIIGAGGNEEAANSVERVFNKALKKLPTQSPPPDEIPVSTTLIKVVRRAQSSQKSRGDTHLAVDQLILGLLEDSQIGDLLKEAGVSTSRVKSEVEKLRGKEGKKVESASGDTTFQALKTYGRDLVEQAGKLDPVIGRDEEIRRVIRILSRRTKNNPVLIGEPGVGKTAVVEGLAQRIVRGDVPSNLAEVRLIALDMGALVAGAKYRGEFEERLKSVLKEVEEAEGKVILFIDEIHLVLGAGRTEGSMDAANLFKPMLARGQLRCIGATTLEEYRKYVEKDAAFERRFQQVYVAEPSVPDTISILRGLKERYEGHHGVRIQDRALVVAAQLSSRYITGRHLPDKAIDLVDEACANVRVQLDSQPEEIDNLERKRMQLEVELHALEKEKDKASKARLVEVRRELDDLRDKLQPLMMKYKKEKERIDELRRLKQKREELLFALQEAERRYDLARAADLRYGAIQEVEAAIANLEGTTDENMMLTETVGPEQIAEVVSRWTGIPVTRLGQNDKERLIGLAERLHQRVVGQDQAVSAVAEAVLRSRAGLGRPQQPTGSFLFLGPTGVGKTELAKALAEQLFDDENLLVRIDMSEYMEQHSVSRLIGAPPGYVGHDEGGQLTEAVRRRPYSVVLFDEVEKAHIAVFNTLLQVLDDGRLTDGQGRTVDFTNTVIIMTSNLGAEHLLSGLVGKCTMQDARDRVMQEVRRHFRPELLNRLDEIVVFDPLSHDQLRKVARLQMKDVASRLAERGIALAVTDAALDVVLAESYDPVYGARPIRRWLEKKVVTELSKMLIREEIDENSTVYIDAGVSGKGLAYRVENNGGLVNASTGQKSDVLIRIPNGQRSDAAQAVKKMKIEEIEDEEDEMDL

Target ORF information:

RefSeq Version	NM_001280893.1
Organism	Vitis vinifera(wine grape)
Definition	Vitis vinifera heat shock protein 101 (HSP101), mRNA.

Target ORF information:

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

NM_001280893.1

ORF Insert Sequence:

ATGAATCCAG AGAAATTCAC CCACAAGACA AATGAGACTC TTGCTGGGGC TCATGAGCTT 
GCTATGAACT CTGGCCATGC TCAGCTCACA CCACTTCACG TTGCTGTGGC TTTGATAACT 
GATCACAATG GCATCCTCCG GCAAGCCATA ATCGGTGCTG GTGGAAATGA GGAGGCTGCC 
AACTCTGTTG AAAGAGTCTT CAATAAAGCT CTGAAGAAAC TCCCAACTCA GAGTCCTCCT 
CCAGATGAAA TCCCAGTAAG CACTACTCTA ATCAAAGTGG TTCGAAGAGC CCAATCTTCA 
CAAAAGTCAC GGGGTGACAC CCATTTAGCA GTTGATCAAT TGATTCTTGG CCTTCTTGAG 
GATTCCCAAA TTGGTGATTT GCTTAAAGAA GCCGGGGTTA GTACTTCTAG AGTGAAATCT 
GAGGTTGAGA AGCTTCGAGG GAAAGAAGGT AAGAAGGTGG AAAGTGCTTC TGGGGACACC 
ACATTCCAGG CATTGAAGAC TTATGGGCGT GACCTTGTTG AGCAAGCTGG AAAGCTTGAT 
CCTGTCATTG GCCGGGACGA AGAGATTCGG AGGGTCATCA GGATTCTTTC AAGGAGGACC 
AAGAACAACC CTGTTCTTAT TGGAGAACCA GGTGTGGGTA AGACTGCTGT TGTTGAAGGA 
TTAGCTCAGA GAATTGTAAG AGGGGACGTT CCCAGTAATC TCGCTGAAGT GAGGCTTATA 
GCATTGGATA TGGGTGCTTT GGTTGCTGGG GCAAAATATA GAGGAGAATT CGAGGAGAGG 
TTGAAATCTG TTTTGAAAGA AGTGGAAGAG GCAGAAGGGA AAGTGATTTT ATTCATTGAT 
GAAATTCACC TTGTTCTTGG TGCTGGTCGG ACTGAAGGAT CTATGGATGC TGCTAACTTG 
TTTAAGCCCA TGCTTGCCAG AGGTCAGCTA CGCTGCATCG GAGCAACGAC CCTTGAGGAA 
TACAGAAAGT ATGTTGAGAA AGATGCCGCT TTTGAGAGGC GGTTCCAGCA AGTTTATGTA 
GCTGAGCCCA GCGTCCCTGA CACAATAAGC ATTCTTCGAG GGCTAAAAGA AAGGTATGAA 
GGGCATCATG GTGTTCGAAT TCAGGACCGA GCTCTTGTAG TTGCAGCCCA ACTATCAAGC 
CGATACATCA CTGGCCGACA TCTGCCAGAC AAGGCAATCG ACCTGGTTGA TGAAGCTTGC 
GCCAATGTGA GAGTTCAACT TGATAGCCAG CCCGAAGAAA TCGACAATTT GGAAAGGAAG 
AGAATGCAAT TAGAAGTTGA ACTTCATGCT CTTGAAAAGG AGAAGGACAA AGCCAGTAAA 
GCTCGTCTTG TTGAAGTCCG CAGAGAGCTT GACGACTTGA GGGACAAGCT TCAACCCTTG 
ATGATGAAGT ACAAAAAGGA GAAAGAAAGG ATTGATGAGC TTCGCAGGCT AAAACAGAAA 
AGAGAGGAGC TCTTGTTTGC TTTACAAGAG GCTGAAAGAA GATATGATTT AGCCAGAGCT 
GCTGATTTGC GATATGGGGC AATTCAAGAA GTGGAGGCTG CTATAGCAAA CCTTGAAGGA 
ACCACTGATG AGAACATGAT GTTAACGGAG ACTGTTGGGC CTGAGCAGAT TGCTGAGGTG 
GTGAGCCGCT GGACTGGCAT CCCTGTCACT AGGCTTGGAC AAAATGATAA AGAAAGGTTA 
ATTGGGCTTG CGGAGAGGCT GCATCAGAGA GTGGTGGGAC AGGATCAGGC AGTCAGTGCT 
GTGGCAGAGG CTGTCTTGAG ATCGAGGGCT GGGTTAGGAA GGCCACAACA ACCCACTGGT 
TCGTTCCTCT TCTTGGGTCC AACTGGTGTT GGTAAGACTG AGCTTGCCAA GGCCCTGGCT 
GAACAGCTCT TTGATGATGA AAATCTTTTG GTGAGAATTG ACATGTCCGA GTATATGGAG 
CAGCATTCAG TTTCAAGATT GATTGGGGCT CCTCCTGGAT ATGTTGGACA TGATGAAGGT 
GGGCAACTCA CAGAGGCAGT AAGAAGGAGG CCTTATAGTG TTGTACTGTT CGATGAAGTA 
GAGAAAGCAC ATATCGCCGT ATTCAATACC CTCCTCCAGG TTTTAGACGA TGGAAGGTTA 
ACTGATGGCC AAGGCCGCAC TGTAGACTTC ACAAACACAG TGATCATCAT GACTTCAAAC 
CTTGGAGCTG AGCATCTCCT CTCGGGTTTA GTAGGCAAGT GTACAATGCA AGATGCTCGT 
GACCGGGTGA TGCAGGAGGT GAGAAGGCAC TTCAGGCCAG AGTTGCTTAA CCGGCTGGAT 
GAAATTGTGG TATTTGATCC CCTCTCACAT GATCAACTGA GAAAGGTTGC CAGGCTACAA 
ATGAAGGACG TTGCAAGCCG CTTGGCAGAG AGGGGCATTG CTCTGGCTGT GACTGATGCA 
GCATTGGATG TTGTTCTAGC AGAGAGTTAT GATCCGGTTT ACGGTGCAAG ACCCATTAGG 
AGATGGCTGG AGAAGAAGGT GGTGACTGAG CTATCAAAGA TGCTCATAAG GGAGGAGATC 
GATGAAAACT CAACTGTTTA TATAGATGCG GGAGTGTCAG GAAAGGGGTT GGCGTACCGA 
GTAGAAAACA ATGGGGGGCT GGTGAATGCA TCCACCGGAC AAAAGTCAGA CGTGTTGATT 
CGGATCCCAA ACGGGCAAAG AAGCGATGCT GCCCAAGCGG TGAAGAAGAT GAAGATCGAA 
GAAATAGAAG ACGAAGAGGA TGAGATGGAT CTATAA

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

HSP101 ( XM_010664718.2 ) cDNA ORF clone, Vitis vinifera(wine grape) -> XP_010663020.1 Vitis vinifera heat shock protein 101 (HSP101), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OVa22984
Clone ID Related Accession (Same CDS sequence)	XM_010664718.2
Accession Version	XM_010664718.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2736bp) 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	1479657600000
Organism	Vitis vinifera(wine grape)
Product	heat shock protein 101 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_012023.3) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Nov 22, 2016 this sequence version replaced XM_010664718.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Vitis vinifera Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAATCCAG AGAAATTCAC CCACAAGACA AATGAGACTC TTGCTGGGGC TCATGAGCTT 
GCTATGAACT CTGGCCATGC TCAGCTCACA CCACTTCACG TTGCTGTGGC TTTGATAACT 
GATCCCAATG GCATCCTCCG GCAAGCCATA ATCGGTGCTG GTGGAAATGA GGAGGCTGCC 
AACTCTGTTG AAAGAGTCTT CAATAAAGCT CTGAAGAAAC TCCCATCTCA GAGTCCTCCT 
CCAGATGAAA TCCCAGTAAG CACTACTCTA ATCAAAGTGG TTCGAAGAGC CCAATCTTCA 
CAAAAGTCAC GGGGTGACAC CCATTTAGCA GTTGATCAAT TGATTCTTGG CCTTCTTGAG 
GATTCCCAAA TTGGTGATTT GCTTAAAGAA GCCGGGGTTA GTACTTCTAG AGTGAAATCT 
GAGGTTGAGA AGCTTCGAGG GAAAGAAGGT AAGAAGGTGG AAAGTGCTTC TGGGGACACC 
ACATTCCAGG CATTGAAGAC TTATGGGCGT GACCTTGTTG AGCAAGCTGG AAAGCTTGAT 
CCTGTCATTG GCCGGGACGA AGAGATTCGG AGGGTCATCA GGATTCTTTC AAGGAGGACC 
AAGAACAACC CTGTTCTTAT TGGAGAACCA GGTGTGGGTA AGACTGCTGT TGTTGAAGGA 
TTAGCTCAGA GAATTGTAAG AGGGGACGTT CCCAGTAATC TCGCTGAAGT GAGGCTTATA 
GCATTGGATA TGGGTGCTTT GGTTGCTGGG GCAAAATATA GAGGAGAATT CGAGGAGAGG 
TTGAAATCTG TTTTGAAAGA AGTGGAAGAG GCAGAAGGGA AAGTGATTTT ATTCATTGAT 
GAAATTCACC TTGTTCTTGG TGCTGGTCGG ACTGAAGGAT CTATGGATGC TGCTAACTTG 
TTTAAGCCCA TGCTTGCCAG AGGTCAGCTA CGCTGCATCG GAGCAACGAC CCTTGAGGAA 
TACAGAAAGT ATGTTGAGAA AGATGCCGCT TTTGAGAGGC GGTTCCAGCA AGTTTATGTA 
GCTGAGCCCA GCGTCCCTGA CACAATAAGC ATTCTTCGAG GGCTAAAAGA AAGGTATGAA 
GGGCATCATG GTGTTCGAAT TCAGGACCGA GCTCTTGTAG TTGCAGCCCA ACTATCAAGC 
CGATACATCA CTGGCCGACA TCTGCCAGAC AAGGCAATCG ACCTGGTTGA TGAAGCTTGC 
GCCAATGTGA GAGTTCAACT TGATAGCCAG CCCGAAGAAA TCGACAATTT GGAAAGGAAG 
AGAATGCAAT TAGAAGTTGA ACTTCATGCT CTTGAAAAGG AGAAGGACAA AGCCAGTAAA 
GCTCGTCTTG TTGAAGTCCG CAGAGAGCTT GACGACTTGA GGGACAAGCT TCAACCCTTG 
ATGATGAAGT ACAAAAAGGA GAAAGAAAGG ATTGATGAGC TTCGCAGGCT AAAACAGAAA 
AGAGAGGAGC TCTTGTTTGC TTTACAAGAG GCTGAAAGAA GATATGATTT AGCCAGAGCT 
GCTGATTTGC GATATGGGGC AATTCAAGAA GTGGAGGCTG CTATAGCAAA CCTTGAAGGA 
ACCACTGATG AGAACATGAT GTTAACGGAG ACTGTTGGGC CTGAGCAGAT TGCTGAGGTG 
GTGAGCCGCT GGACTGGCAT CCCTGTCACT AGGCTTGGAC AAAATGATAA AGAAAGGTTA 
ATTGGGCTTG CGGAGAGGCT GCATCAGAGA GTGGTGGGAC AGGATCAGGC AGTCAGTGCT 
GTGGCAGAGG CTGTCTTGAG ATCGAGGGCT GGGTTAGGAA GGCCACAACA ACCCACTGGT 
TCGTTCCTCT TCTTGGGTCC AACTGGTGTT GGTAAGACTG AGCTTGCCAA GGCCCTGGCT 
GAACAGCTCT TTGATGATGA AAATCTTTTG GTGAGAATTG ACATGTCCGA GTATATGGAG 
CAGCATTCAG TTTCAAGATT GATTGGGGCT CCTCCTGGAT ATGTTGGACA TGATGAAGGT 
GGGCAACTCA CAGAGGCAGT AAGAAGGAGG CCTTATAGTG TTGTACTGTT CGATGAAGTA 
GAGAAAGCAC ATATCGCCGT ATTCAATACC CTCCTCCAGG TTTTAGACGA TGGAAGGTTA 
ACTGATGGCC AAGGCCGCAC TGTAGACTTC ACAAACACAG TGATCATCAT GACTTCAAAC 
CTTGGAGCTG AGCATCTCCT CTCGGGTTTA GTAGGCAAGT GTACAATGCA AGATGCTCGT 
GACCGGGTGA TGCAGGAGGT GAGAAGGCAC TTCAGGCCAG AGTTGCTTAA CCGGCTGGAT 
GAAATTGTGG TATTTGATCC CCTCTCACAT GATCAACTGA GAAAGGTTGC CAGGCTACAA 
ATGAAGGACG TTGCAAGCCG CTTGGCAGAG AGGGGCATTG CTCTGGCTGT GACTGATGCA 
GCATTGGATG TTGTTCTAGC AGAGAGTTAT GATCCGGTTT ACGGTGCAAG ACCCATTAGG 
AGATGGCTGG AGAAGAAGGT GGTGACTGAG CTATCAAAGA TGCTCATAAG GGAGGAGATC 
GATGAAAACT CAACTGTTTA TATAGATGCG GGAGTGTCAG GAAAGGGGTT GGCGTACCGA 
GTAGAAAACA ATGGGGGGCT GGTGAATGCA TCCACCGGAC AAAAGTCAGA CGTGTTGATT 
CGGATCCCAA ACGGGCCAAG AAGCGATGCT GCCCAAGCGG TGAAGAAGAT GAAGATCGAA 
GAAATAGAAG ACGAAGAGGA TGAGATGGAT CTATAA

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

RefSeq	XP_010663020.1
CDS	176..2911
Translation	MNPEKFTHKTNETLAGAHELAMNSGHAQLTPLHVAVALITDPNGILRQAIIGAGGNEEAANSVERVFNKALKKLPSQSPPPDEIPVSTTLIKVVRRAQSSQKSRGDTHLAVDQLILGLLEDSQIGDLLKEAGVSTSRVKSEVEKLRGKEGKKVESASGDTTFQALKTYGRDLVEQAGKLDPVIGRDEEIRRVIRILSRRTKNNPVLIGEPGVGKTAVVEGLAQRIVRGDVPSNLAEVRLIALDMGALVAGAKYRGEFEERLKSVLKEVEEAEGKVILFIDEIHLVLGAGRTEGSMDAANLFKPMLARGQLRCIGATTLEEYRKYVEKDAAFERRFQQVYVAEPSVPDTISILRGLKERYEGHHGVRIQDRALVVAAQLSSRYITGRHLPDKAIDLVDEACANVRVQLDSQPEEIDNLERKRMQLEVELHALEKEKDKASKARLVEVRRELDDLRDKLQPLMMKYKKEKERIDELRRLKQKREELLFALQEAERRYDLARAADLRYGAIQEVEAAIANLEGTTDENMMLTETVGPEQIAEVVSRWTGIPVTRLGQNDKERLIGLAERLHQRVVGQDQAVSAVAEAVLRSRAGLGRPQQPTGSFLFLGPTGVGKTELAKALAEQLFDDENLLVRIDMSEYMEQHSVSRLIGAPPGYVGHDEGGQLTEAVRRRPYSVVLFDEVEKAHIAVFNTLLQVLDDGRLTDGQGRTVDFTNTVIIMTSNLGAEHLLSGLVGKCTMQDARDRVMQEVRRHFRPELLNRLDEIVVFDPLSHDQLRKVARLQMKDVASRLAERGIALAVTDAALDVVLAESYDPVYGARPIRRWLEKKVVTELSKMLIREEIDENSTVYIDAGVSGKGLAYRVENNGGLVNASTGQKSDVLIRIPNGPRSDAAQAVKKMKIEEIEDEEDEMDL

Target ORF information:

RefSeq Version	XM_010664718.2
Organism	Vitis vinifera(wine grape)
Definition	Vitis vinifera heat shock protein 101 (HSP101), transcript variant X1, mRNA.

Target ORF information:

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

XM_010664718.2

ORF Insert Sequence:

ATGAATCCAG AGAAATTCAC CCACAAGACA AATGAGACTC TTGCTGGGGC TCATGAGCTT 
GCTATGAACT CTGGCCATGC TCAGCTCACA CCACTTCACG TTGCTGTGGC TTTGATAACT 
GATCCCAATG GCATCCTCCG GCAAGCCATA ATCGGTGCTG GTGGAAATGA GGAGGCTGCC 
AACTCTGTTG AAAGAGTCTT CAATAAAGCT CTGAAGAAAC TCCCATCTCA GAGTCCTCCT 
CCAGATGAAA TCCCAGTAAG CACTACTCTA ATCAAAGTGG TTCGAAGAGC CCAATCTTCA 
CAAAAGTCAC GGGGTGACAC CCATTTAGCA GTTGATCAAT TGATTCTTGG CCTTCTTGAG 
GATTCCCAAA TTGGTGATTT GCTTAAAGAA GCCGGGGTTA GTACTTCTAG AGTGAAATCT 
GAGGTTGAGA AGCTTCGAGG GAAAGAAGGT AAGAAGGTGG AAAGTGCTTC TGGGGACACC 
ACATTCCAGG CATTGAAGAC TTATGGGCGT GACCTTGTTG AGCAAGCTGG AAAGCTTGAT 
CCTGTCATTG GCCGGGACGA AGAGATTCGG AGGGTCATCA GGATTCTTTC AAGGAGGACC 
AAGAACAACC CTGTTCTTAT TGGAGAACCA GGTGTGGGTA AGACTGCTGT TGTTGAAGGA 
TTAGCTCAGA GAATTGTAAG AGGGGACGTT CCCAGTAATC TCGCTGAAGT GAGGCTTATA 
GCATTGGATA TGGGTGCTTT GGTTGCTGGG GCAAAATATA GAGGAGAATT CGAGGAGAGG 
TTGAAATCTG TTTTGAAAGA AGTGGAAGAG GCAGAAGGGA AAGTGATTTT ATTCATTGAT 
GAAATTCACC TTGTTCTTGG TGCTGGTCGG ACTGAAGGAT CTATGGATGC TGCTAACTTG 
TTTAAGCCCA TGCTTGCCAG AGGTCAGCTA CGCTGCATCG GAGCAACGAC CCTTGAGGAA 
TACAGAAAGT ATGTTGAGAA AGATGCCGCT TTTGAGAGGC GGTTCCAGCA AGTTTATGTA 
GCTGAGCCCA GCGTCCCTGA CACAATAAGC ATTCTTCGAG GGCTAAAAGA AAGGTATGAA 
GGGCATCATG GTGTTCGAAT TCAGGACCGA GCTCTTGTAG TTGCAGCCCA ACTATCAAGC 
CGATACATCA CTGGCCGACA TCTGCCAGAC AAGGCAATCG ACCTGGTTGA TGAAGCTTGC 
GCCAATGTGA GAGTTCAACT TGATAGCCAG CCCGAAGAAA TCGACAATTT GGAAAGGAAG 
AGAATGCAAT TAGAAGTTGA ACTTCATGCT CTTGAAAAGG AGAAGGACAA AGCCAGTAAA 
GCTCGTCTTG TTGAAGTCCG CAGAGAGCTT GACGACTTGA GGGACAAGCT TCAACCCTTG 
ATGATGAAGT ACAAAAAGGA GAAAGAAAGG ATTGATGAGC TTCGCAGGCT AAAACAGAAA 
AGAGAGGAGC TCTTGTTTGC TTTACAAGAG GCTGAAAGAA GATATGATTT AGCCAGAGCT 
GCTGATTTGC GATATGGGGC AATTCAAGAA GTGGAGGCTG CTATAGCAAA CCTTGAAGGA 
ACCACTGATG AGAACATGAT GTTAACGGAG ACTGTTGGGC CTGAGCAGAT TGCTGAGGTG 
GTGAGCCGCT GGACTGGCAT CCCTGTCACT AGGCTTGGAC AAAATGATAA AGAAAGGTTA 
ATTGGGCTTG CGGAGAGGCT GCATCAGAGA GTGGTGGGAC AGGATCAGGC AGTCAGTGCT 
GTGGCAGAGG CTGTCTTGAG ATCGAGGGCT GGGTTAGGAA GGCCACAACA ACCCACTGGT 
TCGTTCCTCT TCTTGGGTCC AACTGGTGTT GGTAAGACTG AGCTTGCCAA GGCCCTGGCT 
GAACAGCTCT TTGATGATGA AAATCTTTTG GTGAGAATTG ACATGTCCGA GTATATGGAG 
CAGCATTCAG TTTCAAGATT GATTGGGGCT CCTCCTGGAT ATGTTGGACA TGATGAAGGT 
GGGCAACTCA CAGAGGCAGT AAGAAGGAGG CCTTATAGTG TTGTACTGTT CGATGAAGTA 
GAGAAAGCAC ATATCGCCGT ATTCAATACC CTCCTCCAGG TTTTAGACGA TGGAAGGTTA 
ACTGATGGCC AAGGCCGCAC TGTAGACTTC ACAAACACAG TGATCATCAT GACTTCAAAC 
CTTGGAGCTG AGCATCTCCT CTCGGGTTTA GTAGGCAAGT GTACAATGCA AGATGCTCGT 
GACCGGGTGA TGCAGGAGGT GAGAAGGCAC TTCAGGCCAG AGTTGCTTAA CCGGCTGGAT 
GAAATTGTGG TATTTGATCC CCTCTCACAT GATCAACTGA GAAAGGTTGC CAGGCTACAA 
ATGAAGGACG TTGCAAGCCG CTTGGCAGAG AGGGGCATTG CTCTGGCTGT GACTGATGCA 
GCATTGGATG TTGTTCTAGC AGAGAGTTAT GATCCGGTTT ACGGTGCAAG ACCCATTAGG 
AGATGGCTGG AGAAGAAGGT GGTGACTGAG CTATCAAAGA TGCTCATAAG GGAGGAGATC 
GATGAAAACT CAACTGTTTA TATAGATGCG GGAGTGTCAG GAAAGGGGTT GGCGTACCGA 
GTAGAAAACA ATGGGGGGCT GGTGAATGCA TCCACCGGAC AAAAGTCAGA CGTGTTGATT 
CGGATCCCAA ACGGGCCAAG AAGCGATGCT GCCCAAGCGG TGAAGAAGAT GAAGATCGAA 
GAAATAGAAG ACGAAGAGGA TGAGATGGAT CTATAA

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

PubMed

The grapevine genome sequence suggests ancestral hexaploidization in major angiosperm phyla.
Nature449(7161)463-7(2007 Sep)
Jaillon O,Aury JM,Noel B,Policriti A,Clepet C,Casagrande A,Choisne N,Aubourg S,Vitulo N,Jubin C,Vezzi A,Legeai F,Hugueney P,Dasilva C,Horner D,Mica E,Jublot D,Poulain J,Bruyère C,Billault A,Segurens B,Gouyvenoux M,Ugarte E,Cattonaro F,Anthouard V,Vico V,Del Fabbro C,Alaux M,Di Gaspero G,Dumas V,Felice N,Paillard S,Juman I,Moroldo M,Scalabrin S,Canaguier A,Le Clainche I,Malacrida G,Durand E,Pesole G,Laucou V,Chatelet P,Merdinoglu D,Delledonne M,Pezzotti M,Lecharny A,Scarpelli C,Artiguenave F,Pè ME,Valle G,Morgante M,Caboche M,Adam-Blondon AF,Weissenbach J,Quétier F,Wincker P,

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HSP101 cDNA ORF clone, Vitis vinifera(wine grape)

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Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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