scholarly article | Q13442814 |
P2093 | author name string | Dali Liu | |
Zhenqiang Lu | |||
Shenkui Liu | |||
Zijun Mao | |||
P2860 | cites work | Roles of the Escherichia coli small heat shock proteins IbpA and IbpB in thermal stress management: comparison with ClpA, ClpB, and HtpG In vivo | Q24521559 |
hsp82 is an essential protein that is required in higher concentrations for growth of cells at higher temperatures | Q27930675 | ||
Hsp90 chaperones protein folding in vitro. | Q30351360 | ||
Temperature-sensitive mutants of hsp82 of the budding yeast Saccharomyces cerevisiae | Q34336709 | ||
Ancient heat shock gene is dispensable | Q36207033 | ||
Characterization of two Maize HSP90 heat shock protein genes: Expression during heat shock, embryogenesis, and pollen development | Q36695761 | ||
The molybdate-stabilized glucocorticoid binding complex of L-cells contains a 98-100 kdalton steroid binding phosphoprotein and a 90 kdalton nonsteroid-binding phosphoprotein that is part of the murine heat-shock complex | Q39732299 | ||
DnaK, DnaJ and GrpE form a cellular chaperone machinery capable of repairing heat-induced protein damage. | Q40874220 | ||
The role of the hsp90-based chaperone system in signal transduction by nuclear receptors and receptors signaling via MAP kinase | Q41455758 | ||
HtpG is essential for the thermal stress management in cyanobacteria | Q42477330 | ||
rHsp90 gene expression in response to several environmental stresses in rice (Oryza sativa L.). | Q42594568 | ||
Leishmania infantum: gene cloning of the GRP94 homologue, its expression as recombinant protein, and analysis of antigenicity | Q47819379 | ||
One-step HPLC purification procedure for porcine brain 90-kDa heat shock protein | Q48670359 | ||
Brassica napus hsp90 can autophosphorylate and phosphorylate other protein substrates. | Q52565856 | ||
Analysis of the native forms of the 90 kDa heat shock protein (hsp90) in plant cytosolic extracts | Q73107890 | ||
Regulation of the heat-shock response | Q77079440 | ||
P433 | issue | 2 | |
P921 | main subject | Oryza sativa | Q161426 |
Escherichia coli | Q25419 | ||
heat acclimation | Q21118436 | ||
thermal tolerance | Q116872464 | ||
P304 | page(s) | 129-133 | |
P577 | publication date | 2008-10-23 | |
P1433 | published in | Current Microbiology | Q15752443 |
P1476 | title | Enhanced thermotolerance of E. coli by expressed OsHsp90 from rice (Oryza sativa L.). | |
P478 | volume | 58 |
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Q34479374 | Expression profile in rice panicle: insights into heat response mechanism at reproductive stage |
Q35705055 | Functional characterization of heat-shock protein 90 from Oryza sativa and crystal structure of its N-terminal domain |
Q91990846 | Heat treatment alleviates the growth and photosynthetic impairment of transplastomic plants expressing Leishmania infantum Hsp83-Toxoplasma gondii SAG1 fusion protein |
Q35930795 | Identification and characterization of a heat-inducible Hsp70 gene from Sorghum bicolor which confers tolerance to thermal stress |
Q50868052 | In a quest for engineering acidophiles for biomining applications: challenges and opportunities. |
Q51840128 | Molecular characterization and functional analysis by heterologous expression in E. coli under diverse abiotic stresses for OsLEA5, the atypical hydrophobic LEA protein from Oryza sativa L. |
Q34921307 | Overexpression of GmHsp90s, a heat shock protein 90 (Hsp90) gene family cloning from soybean, decrease damage of abiotic stresses in Arabidopsis thaliana |
Q37902563 | Proteomics of rice in response to heat stress and advances in genetic engineering for heat tolerance in rice |
Q50668407 | RcLEA, a late embryogenesis abundant protein gene isolated from Rosa chinensis, confers tolerance to Escherichia coli and Arabidopsis thaliana and stabilizes enzyme activity under diverse stresses. |
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