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HSP81-3 cDNA ORF clone, Arabidopsis thaliana(thale cress)

Summary

Gene Symbol HSP81-3
Entrez Gene ID 835699
Full Name heat shock protein 81-3
Synonyms AtHsp90-3,AtHsp90.3,HEAT SHOCK PROTEIN 81.3,HEAT SHOCK PROTEIN 90-3,HEAT SHOCK PROTEIN 90.3,HSP81.2,Hsp81.3,MDA7.5,MDA7_5,heat shock protein 81-3
Gene Type protein-coding
Organism Arabidopsis thaliana(thale cress)

Reference Sequences (RefSeq)

mRNA and Protein(s)

mRNA Protein Name
NM_124983.4 NP_200412.1 heat shock protein 81-3

Pathways from BioSystems


Homologies


Canis lupus familiaris (dog) HSP90AA1 XP_005623992.1
Arabidopsis thaliana (thale cress) HSP81-3 NP_200412.1
Arabidopsis thaliana (thale cress) HSP81-2 NP_200414.1
Oryza sativa (rice) Os09g0482100 NP_001063500.1
HSP90AA1 XP_002805263.1
Arabidopsis thaliana (thale cress) Hsp81.4 NP_200411.1
Oryza sativa (rice) Os09g0482400 NP_001063503.1
Pan troglodytes (chimpanzee) HSP90AA1 NP_001092042.1
Mus musculus (house mouse) Hsp90aa1 NP_034610.1
Rattus norvegicus (Norway rat) Hsp90aa1 NP_786937.1
Bos taurus (cattle) HSP90AA1 NP_001012688.1
Gallus gallus (chicken) HSP90AA1 NP_001103255.1
Oryza sativa (rice) Os09g0482610 NP_001175894.1
Homo sapiens (human) HSP90AA1 NP_001017963.2
Danio rerio (zebrafish) hsp90aa1.2 NP_001038538.1
Danio rerio (zebrafish) hsp90aa1.1 NP_571403.1
Xenopus tropicalis (tropical clawed frog) hsp90aa1.1 NP_001016282.1

Gene Ontology


Bibliography

Related articles in PubMed

Sequence and analysis of chromosome 5 of the plant Arabidopsis thaliana.
Tabata S, Kaneko T, Nakamura Y, Kotani H, Kato T, Asamizu E, Miyajima N, Sasamoto S, Kimura T, Hosouchi T, Kawashima K, Kohara M, Matsumoto M, Matsuno A, Muraki A, Nakayama S, Nakazaki N, Naruo K, Okumura S, Shinpo S, Takeuchi C, Wada T, Watanabe A, Yamada M, Yasuda M, Sato S, de la Bastide M, Huang E, Spiegel L, Gnoj L, O'Shaughnessy A, Preston R, Habermann K, Murray J, Johnson D, Rohlfing T, Nelson J, Stoneking T, Pepin K, Spieth J, Sekhon M, Armstrong J, Becker M, Belter E, Cordum H, Cordes M, Courtney L, Courtney W, Dante M, Du H, Edwards J, Fryman J, Haakensen B, Lamar E, Latreille P, Leonard S, Meyer R, Mulvaney E, Ozersky P, Riley A, Strowmatt C, Wagner-McPherson C, Wollam A, Yoakum M, Bell M, Dedhia N, Parnell L, Shah R, Rodriguez M, See LH, Vil D, Baker J, Kirchoff K, Toth K, King L, Bahret A, Miller B, Marra M, Martienssen R, McCombie WR, Wilson RK, Murphy G, Bancroft I, Volckaert G, Wambutt R, D?sterh?ft A, Stiekema W, Pohl T, Entian KD, Terryn N, Hartley N, Bent E, Johnson S, Langham SA, McCullagh B, Robben J, Grymonprez B, Zimmermann W, Ramsperger U, Wedler H, Balke K, Wedler E, Peters S, van Staveren M, Dirkse W, Mooijman P, Lankhorst RK, Weitzenegger T, Bothe G, Rose M, Hauf J, Berneiser S, Hempel S, Feldpausch M, Lamberth S, Villarroel R, Gielen J, Ardiles W, Bents O, Lemcke K, Kolesov G, Mayer K, Rudd S, Schoof H, Schueller C, Zaccaria P, Mewes HW, Bevan M, Fransz P, , ,
Nature408(6814)823-6(2000 Dec)

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

The amino-terminal and central parts of BES1 are responsible for its physical interaction with HSP90.3 in vitro. Additionally, BZR1 is a novel HSP90 partner aside from two BR signaling components previously identified as its clients.
Title: Heat shock protein 90 acts in brassinosteroid signaling through interaction with BES1/BZR1 transcription factor.

HSP90s have a central role in sustaining BIN2 nuclear function. BR signaling is mediated by HSP90 activity and via trafficking of BIN2-HSP90 complexes into the cytoplasm. [HSP90.3]
Title: Brassinosteroid nuclear signaling recruits HSP90 activity.

These results suggest that the preferential translation of Hsp81-3 mRNA in heat-shocked Arabidopsis cells involves a ribosome scanning from the 5'-end of the 5'-UTR rather than ribosome entry to the internal site.
Title: Preferential translation mediated by Hsp81-3 5'-UTR during heat shock involves ribosome entry at the 5'-end rather than an internal site in Arabidopsis suspension cells.

The following HSP81-3 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the HSP81-3 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
OAb21546 NM_124983.4
Latest version!		 Arabidopsis thaliana heat shock protein 81-3 (HSP81-3), mRNA. pcDNA3.1+/C-(K)DYK or customized vector 12-14 $426.30
$609.00

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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)


CloneID OAb21546
Clone ID Related Accession (Same CDS sequence) NM_124983.4
Accession Version NM_124983.4 Latest version! Documents for ORF clone product in default vector
Sequence Information ORF Nucleotide Sequence (Length: 2100bp)
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 2019-02-13
Organism Arabidopsis thaliana(thale cress)
Product heat shock protein 81-3
Comment Comment: REVIEWED REFSEQ: This record has been curated by TAIR and Araport. This record is derived from an annotated genomic sequence (NC_003076). On Sep 12, 2016 this sequence version replaced NM_124983.3. 

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
ATGGCGGACG CAGAAACCTT TGCTTTCCAA GCTGAGATCA ACCAGTTGCT CTCCCTCATC 
ATCAATACCT TTTACTCTAA CAAGGAGATC TTCCTTCGTG AACTCATCAG TAACTCTTCT 
GATGCTTTGG ACAAGATTAG GTTTGAGTCC TTGACAGACA AGAGCAAGCT CGATGGTCAG 
CCAGAGCTCT TCATTCACAT CATTCCCGAC AAGACTAACA ACACCTTGAC GATTATCGAT 
AGTGGTATTG GGATGACCAA GGCTGATCTG GTGAACAACC TTGGAACAAT TGCAAGATCT 
GGAACCAAAG AATTCATGGA GGCGTTGGCT GCTGGAGCTG ATGTTAGCAT GATTGGACAG 
TTTGGTGTTG GTTTCTACTC TGCTTACTTG GTTGCTGACA AGGTTGTTGT TACTACCAAG 
CACAATGACG ATGAGCAGTA CGTGTGGGAG TCTCAGGCCG GTGGATCTTT CACCGTCACC 
AGAGACACCT CTGGTGAGGC TCTTGGTAGA GGAACTAAGA TGGTCCTTTA CCTCAAGGAA 
GACCAGATGG AGTACATTGA GGAGCGAAGG CTTAAGGATT TGGTGAAGAA GCACTCTGAG 
TTCATCAGCT ACCCAATCTC TCTCTGGATT GAGAAGACCA TTGAGAAGGA GATCTCTGAT 
GATGAAGAGG AGGAAGAGAA GAAGGATGAG GAAGGCAAGG TTGAGGAAGT TGATGAGGAG 
AAAGAAAAGG AGGAGAAGAA AAAGAAGAAG ATTAAGGAGG TTTCTCATGA GTGGGATTTG 
GTGAACAAGC AGAAACCGAT TTGGATGAGG AAGCCAGAGG AGATCAACAA GGAGGAGTAC 
GCTGCTTTCT ACAAGAGTTT GAGCAATGAC TGGGAAGAGC ATTTGGCTGT GAAGCATTTC 
TCAGTTGAAG GACAGCTTGA GTTCAAAGCT ATCCTCTTTG TTCCCAAGAG AGCTCCTTTT 
GATCTCTTTG ACACTAAGAA GAAGCCCAAC AACATCAAGC TCTATGTCCG TCGTGTCTTC 
ATCATGGACA ACTGTGAAGA CATCATTCCT GAGTACCTTG GGTTTGTCAA GGGTATTGTT 
GACTCTGAAG ATCTTCCTCT CAACATCTCA AGAGAAACAT TGCAGCAGAA CAAGATCCTC 
AAGGTCATCC GCAAGAACCT TGTGAAGAAG TGTCTTGAGC TCTTCTTTGA GATTGCTGAG 
AACAAGGAGG ACTACAACAA GTTCTATGAG GCTTTCTCTA AGAACCTGAA GCTCGGTATC 
CATGAGGACT CCCAAAACAG AACCAAGATT GCTGAGTTGC TCCGTTACCA CTCAACCAAG 
AGCGGTGATG AATTGACCAG TCTCAAGGAC TACGTGACAA GGATGAAGGA AGGTCAGAAC 
GATATCTTCT ATATCACTGG TGAGAGCAAG AAGGCTGTTG AGAACTCTCC ATTCCTTGAG 
AAGCTCAAGA AGAAGGGTAT TGAAGTTCTC TACATGGTTG ACGCTATCGA TGAGTATGCT 
ATTGGTCAGC TCAAGGAATT CGAAGGAAAG AAGCTTGTCT CTGCAACCAA GGAAGGTCTG 
AAACTGGATG AGACTGAAGA CGAGAAGAAG AAGAAAGAAG AGCTCAAGGA GAAGTTTGAG 
GGACTCTGCA AAGTGATCAA GGACGTTTTG GGAGACAAGG TTGAGAAGGT TATCGTCTCT 
GACCGTGTTG TGGACTCACC CTGCTGTCTT GTAACAGGCG AGTATGGCTG GACTGCAAAC 
ATGGAGAGGA TCATGAAAGC TCAAGCCTTG AGAGACAGCA GCATGGGTGG CTACATGTCG 
AGCAAGAAGA CAATGGAGAT TAACCCAGAG AACTCCATCA TGGATGAGCT GAGAAAGAGA 
GCTGATGCAG ACAAGAACGA CAAGTCTGTG AAGGACCTTG TACTTCTTCT CTTTGAGACC 
GCTCTTCTCA CTTCTGGTTT CAGCCTCGAT GAGCCCAACA CTTTCGGGAG CAGGATTCAC 
AGGATGTTGA AGCTTGGATT GAGCATTGAT GACGATGATG TTGTTGAAGC CGATGCTGAC 
ATGCCTCCAC TTGAAGATGA TGCCGATGCT GAAGGTAGCA AGATGGAGGA AGTTGACTAA

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

RefSeq NP_200412.1
CDS173..2272
Translation

Target ORF information:

RefSeq Version NM_124983.4
Organism Arabidopsis thaliana(thale cress)
Definition Arabidopsis thaliana heat shock protein 81-3 (HSP81-3), mRNA.

Target ORF information:

Epitope DYKDDDDK
Bacterial selection AMPR
Mammalian selection NeoR
Vector pcDNA3.1+/C-(K)DYK
 NM_124983.4

ORF Insert Sequence:

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
ATGGCGGACG CAGAAACCTT TGCTTTCCAA GCTGAGATCA ACCAGTTGCT CTCCCTCATC 
ATCAATACCT TTTACTCTAA CAAGGAGATC TTCCTTCGTG AACTCATCAG TAACTCTTCT 
GATGCTTTGG ACAAGATTAG GTTTGAGTCC TTGACAGACA AGAGCAAGCT CGATGGTCAG 
CCAGAGCTCT TCATTCACAT CATTCCCGAC AAGACTAACA ACACCTTGAC GATTATCGAT 
AGTGGTATTG GGATGACCAA GGCTGATCTG GTGAACAACC TTGGAACAAT TGCAAGATCT 
GGAACCAAAG AATTCATGGA GGCGTTGGCT GCTGGAGCTG ATGTTAGCAT GATTGGACAG 
TTTGGTGTTG GTTTCTACTC TGCTTACTTG GTTGCTGACA AGGTTGTTGT TACTACCAAG 
CACAATGACG ATGAGCAGTA CGTGTGGGAG TCTCAGGCCG GTGGATCTTT CACCGTCACC 
AGAGACACCT CTGGTGAGGC TCTTGGTAGA GGAACTAAGA TGGTCCTTTA CCTCAAGGAA 
GACCAGATGG AGTACATTGA GGAGCGAAGG CTTAAGGATT TGGTGAAGAA GCACTCTGAG 
TTCATCAGCT ACCCAATCTC TCTCTGGATT GAGAAGACCA TTGAGAAGGA GATCTCTGAT 
GATGAAGAGG AGGAAGAGAA GAAGGATGAG GAAGGCAAGG TTGAGGAAGT TGATGAGGAG 
AAAGAAAAGG AGGAGAAGAA AAAGAAGAAG ATTAAGGAGG TTTCTCATGA GTGGGATTTG 
GTGAACAAGC AGAAACCGAT TTGGATGAGG AAGCCAGAGG AGATCAACAA GGAGGAGTAC 
GCTGCTTTCT ACAAGAGTTT GAGCAATGAC TGGGAAGAGC ATTTGGCTGT GAAGCATTTC 
TCAGTTGAAG GACAGCTTGA GTTCAAAGCT ATCCTCTTTG TTCCCAAGAG AGCTCCTTTT 
GATCTCTTTG ACACTAAGAA GAAGCCCAAC AACATCAAGC TCTATGTCCG TCGTGTCTTC 
ATCATGGACA ACTGTGAAGA CATCATTCCT GAGTACCTTG GGTTTGTCAA GGGTATTGTT 
GACTCTGAAG ATCTTCCTCT CAACATCTCA AGAGAAACAT TGCAGCAGAA CAAGATCCTC 
AAGGTCATCC GCAAGAACCT TGTGAAGAAG TGTCTTGAGC TCTTCTTTGA GATTGCTGAG 
AACAAGGAGG ACTACAACAA GTTCTATGAG GCTTTCTCTA AGAACCTGAA GCTCGGTATC 
CATGAGGACT CCCAAAACAG AACCAAGATT GCTGAGTTGC TCCGTTACCA CTCAACCAAG 
AGCGGTGATG AATTGACCAG TCTCAAGGAC TACGTGACAA GGATGAAGGA AGGTCAGAAC 
GATATCTTCT ATATCACTGG TGAGAGCAAG AAGGCTGTTG AGAACTCTCC ATTCCTTGAG 
AAGCTCAAGA AGAAGGGTAT TGAAGTTCTC TACATGGTTG ACGCTATCGA TGAGTATGCT 
ATTGGTCAGC TCAAGGAATT CGAAGGAAAG AAGCTTGTCT CTGCAACCAA GGAAGGTCTG 
AAACTGGATG AGACTGAAGA CGAGAAGAAG AAGAAAGAAG AGCTCAAGGA GAAGTTTGAG 
GGACTCTGCA AAGTGATCAA GGACGTTTTG GGAGACAAGG TTGAGAAGGT TATCGTCTCT 
GACCGTGTTG TGGACTCACC CTGCTGTCTT GTAACAGGCG AGTATGGCTG GACTGCAAAC 
ATGGAGAGGA TCATGAAAGC TCAAGCCTTG AGAGACAGCA GCATGGGTGG CTACATGTCG 
AGCAAGAAGA CAATGGAGAT TAACCCAGAG AACTCCATCA TGGATGAGCT GAGAAAGAGA 
GCTGATGCAG ACAAGAACGA CAAGTCTGTG AAGGACCTTG TACTTCTTCT CTTTGAGACC 
GCTCTTCTCA CTTCTGGTTT CAGCCTCGAT GAGCCCAACA CTTTCGGGAG CAGGATTCAC 
AGGATGTTGA AGCTTGGATT GAGCATTGAT GACGATGATG TTGTTGAAGC CGATGCTGAC 
ATGCCTCCAC TTGAAGATGA TGCCGATGCT GAAGGTAGCA AGATGGAGGA AGTTGACTAA

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

PubMed

book

Sequence and analysis of chromosome 5 of the plant Arabidopsis thaliana.
Nature408(6814)823-6(2000 Dec)
Tabata S,Kaneko T,Nakamura Y,Kotani H,Kato T,Asamizu E,Miyajima N,Sasamoto S,Kimura T,Hosouchi T,Kawashima K,Kohara M,Matsumoto M,Matsuno A,Muraki A,Nakayama S,Nakazaki N,Naruo K,Okumura S,Shinpo S,Takeuchi C,Wada T,Watanabe A,Yamada M,Yasuda M,Sato S,de la Bastide M,Huang E,Spiegel L,Gnoj L,O'Shaughnessy A,Preston R,Habermann K,Murray J,Johnson D,Rohlfing T,Nelson J,Stoneking T,Pepin K,Spieth J,Sekhon M,Armstrong J,Becker M,Belter E,Cordum H,Cordes M,Courtney L,Courtney W,Dante M,Du H,Edwards J,Fryman J,Haakensen B,Lamar E,Latreille P,Leonard S,Meyer R,Mulvaney E,Ozersky P,Riley A,Strowmatt C,Wagner-McPherson C,Wollam A,Yoakum M,Bell M,Dedhia N,Parnell L,Shah R,Rodriguez M,See LH,Vil D,Baker J,Kirchoff K,Toth K,King L,Bahret A,Miller B,Marra M,Martienssen R,McCombie WR,Wilson RK,Murphy G,Bancroft I,Volckaert G,Wambutt R,D?sterh?ft A,Stiekema W,Pohl T,Entian KD,Terryn N,Hartley N,Bent E,Johnson S,Langham SA,McCullagh B,Robben J,Grymonprez B,Zimmermann W,Ramsperger U,Wedler H,Balke K,Wedler E,Peters S,van Staveren M,Dirkse W,Mooijman P,Lankhorst RK,Weitzenegger T,Bothe G,Rose M,Hauf J,Berneiser S,Hempel S,Feldpausch M,Lamberth S,Villarroel R,Gielen J,Ardiles W,Bents O,Lemcke K,Kolesov G,Mayer K,Rudd S,Schoof H,Schueller C,Zaccaria P,Mewes HW,Bevan M,Fransz P,,,