The heat-shock-regulated grpE gene of Escherichia coli is required for bacterial growth at all temperatures but is dispensable in certain mutant backgrounds.
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The T/t common exon of simian virus 40, JC, and BK polyomavirus T antigens can functionally replace the J-domain of the Escherichia coli DnaJ molecular chaperoneThe nucleotide exchange factors of Hsp70 molecular chaperonesCrystal Structure of DnaK Protein Complexed with Nucleotide Exchange Factor GrpE in DnaK Chaperone System: INSIGHT INTO INTERMOLECULAR COMMUNICATIONA role for a eukaryotic GrpE-related protein, Mge1p, in protein translocationImpact of genomics on the understanding of microbial evolution and classification: the importance of Darwin's views on classificationEscherichia coli DnaJ and GrpE heat shock proteins jointly stimulate ATPase activity of DnaKRecent gene duplication and subfunctionalization produced a mitochondrial GrpE, the nucleotide exchange factor of the Hsp70 complex, specialized in thermotolerance to chronic heat stress in Arabidopsis.The heat shock genes dnaK, dnaJ, and grpE are involved in regulation of putisolvin biosynthesis in Pseudomonas putida PCL1445.Reversible thermal transition in GrpE, the nucleotide exchange factor of the DnaK heat-shock system.Characterization of the thermal stress response of Campylobacter jejuniA genome-scale proteomic screen identifies a role for DnaK in chaperoning of polar autotransporters in Shigella.Mutagenesis reveals the complex relationships between ATPase rate and the chaperone activities of Escherichia coli heat shock protein 70 (Hsp70/DnaK)The Hsp40 J-domain stimulates Hsp70 when tethered by the client to the ATPase domain.Role of HrcA and CIRCE in the heat shock regulatory network of Bradyrhizobium japonicumInvolvement of Escherichia coli DNA Replication Proteins in Phage Lambda Red-Mediated Homologous RecombinationToothpicks, serendipity and the emergence of the Escherichia coli DnaK (Hsp70) and GroEL (Hsp60) chaperone machines.Involvement of the DnaK-DnaJ-GrpE chaperone team in protein secretion in Escherichia coliRNA polymerase beta mutations have reduced sigma70 synthesis leading to a hyper-temperature-sensitive phenotype of a sigma70 mutant.Structure-function analyses of the Ssc1p, Mdj1p, and Mge1p Saccharomyces cerevisiae mitochondrial proteins in Escherichia coliGrpE, a nucleotide exchange factor for DnaK.Determination of the core of a minimal bacterial gene setHeat shock proteins DnaJ, DnaK, and GrpE stimulate P1 plasmid replication by promoting initiator binding to the origin.Effect of a 20-kilodalton protein from Bacillus thuringiensis subsp. israelensis on production of the CytA protein by Escherichia coli.The lethal phenotype caused by null mutations in the Escherichia coli htrB gene is suppressed by mutations in the accBC operon, encoding two subunits of acetyl coenzyme A carboxylase.Identification and characterization of a new Escherichia coli gene that is a dosage-dependent suppressor of a dnaK deletion mutation.Independence of bacteriophage N15 lytic and linear plasmid replication from the heat shock proteins DnaJ, DnaK, and GrpE.A new Escherichia coli heat shock gene, htrC, whose product is essential for viability only at high temperatures.Participation of Escherichia coli heat shock proteins DnaJ, DnaK, and GrpE in P1 plasmid replication.Delta dnaK52 mutants of Escherichia coli have defects in chromosome segregation and plasmid maintenance at normal growth temperatures.Heat shock response of murine Chlamydia trachomatisIsolation and characterization of dnaJ null mutants of Escherichia coli.Mutant DnaK chaperones cause ribosome assembly defects in Escherichia coli.The ClpP component of Clp protease is the sigma 32-dependent heat shock protein F21.5.Three Escherichia coli heat shock proteins are required for P1 plasmid DNA replication: formation of an active complex between E. coli DnaJ protein and the P1 initiator protein.Interaction between the nucleotide exchange factor Mge1 and the mitochondrial Hsp70 Ssc1.Mapping stress-induced changes in autoinducer AI-2 production in chemostat-cultivated Escherichia coli K-12.Identification of a Caulobacter crescentus operon encoding hrcA, involved in negatively regulating heat-inducible transcription, and the chaperone gene grpE.Isolation and characterization of point mutations in the Escherichia coli grpE heat shock gene.Rapid and sensitive pollutant detection by induction of heat shock gene-bioluminescence gene fusions.The essential Escherichia coli msgB gene, a multicopy suppressor of a temperature-sensitive allele of the heat shock gene grpE, is identical to dapE.
P2860
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P2860
The heat-shock-regulated grpE gene of Escherichia coli is required for bacterial growth at all temperatures but is dispensable in certain mutant backgrounds.
description
1989 nî lūn-bûn
@nan
1989年の論文
@ja
1989年論文
@yue
1989年論文
@zh-hant
1989年論文
@zh-hk
1989年論文
@zh-mo
1989年論文
@zh-tw
1989年论文
@wuu
1989年论文
@zh
1989年论文
@zh-cn
name
The heat-shock-regulated grpE ...... in certain mutant backgrounds.
@ast
The heat-shock-regulated grpE ...... in certain mutant backgrounds.
@en
type
label
The heat-shock-regulated grpE ...... in certain mutant backgrounds.
@ast
The heat-shock-regulated grpE ...... in certain mutant backgrounds.
@en
prefLabel
The heat-shock-regulated grpE ...... in certain mutant backgrounds.
@ast
The heat-shock-regulated grpE ...... in certain mutant backgrounds.
@en
P2860
P1476
The heat-shock-regulated grpE ...... in certain mutant backgrounds.
@en
P2093
P2860
P304
P356
10.1128/JB.171.5.2748-2755.1989
P407
P577
1989-05-01T00:00:00Z