about
Cytosolic chaperonin-containing t-complex polypeptide 1 changes the content of a particular subunit species concomitant with substrate binding and folding activities during the cell cycleThe 25-kDa FK506-binding protein is localized in the nucleus and associates with casein kinase II and nucleolinPrimary structure and function of a second essential member of the heterooligomeric TCP1 chaperonin complex of yeast, TCP1 betaTwo yeast genes with similarity to TCP-1 are required for microtubule and actin function in vivoAlpha B-crystallin expression in mouse NIH 3T3 fibroblasts: glucocorticoid responsiveness and involvement in thermal protectionProtein kinase A-catalyzed phosphorylation of heat shock protein 60 chaperone regulates its attachment to histone 2B in the T lymphocyte plasma membraneA new member of the hsp90 family of molecular chaperones interacts with the retinoblastoma protein during mitosis and after heat shockHeat shock proteins in human endometrium throughout the menstrual cycleExtracellular Release and Signaling by Heat Shock Protein 27: Role in Modifying Vascular InflammationHeat shock proteins: stimulators of innate and acquired immunityStructural and functional analysis of Hikeshi, a new nuclear transport receptor of Hsp70sAminopeptidase I of Saccharomyces cerevisiae is localized to the vacuole independent of the secretory pathway.Mmf1p, a novel yeast mitochondrial protein conserved throughout evolution and involved in maintenance of the mitochondrial genome.STP1, a gene involved in pre-tRNA processing, encodes a nuclear protein containing zinc finger motifs.The Saccharomyces cerevisiae TCM62 gene encodes a chaperone necessary for the assembly of the mitochondrial succinate dehydrogenase (complex II).Impact of genomics on the understanding of microbial evolution and classification: the importance of Darwin's views on classificationAlphaB-crystallin, a low-molecular-weight heat shock protein, acts as a regulator of platelet functionA constitutive 70 kDa heat-shock protein is localized on the fibres of spindles and asters at metaphase in an ATP-dependent manner: a new chaperone role is proposedProteome adaptation to high temperatures in the ectothermic hydrothermal vent Pompeii wormPlcR1 and PlcR2 are putative calcium-binding proteins required for secretion of the hemolytic phospholipase C of Pseudomonas aeruginosaThe influence of chemical chaperones on enzymatic activity under thermal and chemical stresses: common features and variation among diverse chemical familiesHeat shock protein 60 or 70 activates nitric-oxide synthase (NOS) I- and inhibits NOS II-associated signaling and depresses the mitochondrial apoptotic cascade during brain stem deathHigh-level expression of soluble rat hsc70 in Escherichia coli: purification and characterization of the cloned enzymeMultiple active conformers of mouse ornithine decarboxylaseCalreticulin functions as a molecular chaperone in the biosynthesis of myeloperoxidaseAlpha-crystallin can function as a molecular chaperoneSignificance of local electrostatic interactions in staphylococcal nuclease studied by site-directed mutagenesis.Characterization of acid-induced unfolding intermediates of glucose/xylose isomerase.Topological accessibility shows a distinct asymmetry in the folds of betaalpha proteins.KEGG orthology-based annotation of the predicted proteome of Acropora digitifera: ZoophyteBase - an open access and searchable database of a coral genome.Ancient allelism at the cytosolic chaperonin-alpha-encoding gene of the zebrafishSynergism between a foldase and an unfoldase: reciprocal dependence between the thioredoxin-like activity of DnaJ and the polypeptide-unfolding activity of DnaK.Hepatic proteome sensitivity in rainbow trout after chronically exposed to a human pharmaceutical verapamil.Cloning and characterization of the groESL operon from Bacillus subtilis.Differential gene transfers and gene duplications in primary and secondary endosymbiosesStress genes and proteins in the archaea.Decreased serum heat shock protein 60 levels in newly diagnosed immune thrombocytopenia patients.Mactinin, a fragment of cytoskeletal alpha-actinin, is a novel inducer of heat shock protein (Hsp)-90 mediated monocyte activation.Arthritogenic potential of the 65 kDa stress protein--an experimental modelMonoclonal antibodies inhibit in vitro fibrillar aggregation of the Alzheimer beta-amyloid peptide
P2860
Structural and functional insights on the roles of molecular chaperones in the mistargeting and aggregation phenotypes associated with primary hyperoxaluria type IHuman pregnancy zone protein stabilizes misfolded proteins including preeclampsia- and Alzheimer's-associated amyloid beta peptideNeuropathy-causing mutations in HSPB1 impair autophagy by disturbing the formation of SQSTM1/p62 bodies
P921
Q24291628-81CC1823-D1D9-4B35-9E2B-378BFEEBE734Q24561774-D2D0E963-0D70-4704-A473-BA67E8526149Q24563795-9AB98BF7-9733-44C8-9781-2A503352FD0AQ24563986-B2B15BCC-18C5-4B8E-951D-D6CE77B5375BQ24606566-C4BB21FD-3976-4C3B-8927-8D0C13F84F3BQ24644299-625C1893-0B2D-4E4F-8DE2-80B6CBB2B88FQ24648784-420A8CBB-5D10-4DC1-9A8C-322680032152Q24681676-02041138-8D05-46A8-BC75-1B96045AED7EQ26738276-85091EF0-74EE-451E-ABB4-4A29771A1CE3Q26829100-4B867379-9A06-4E3F-81C7-4B82DEE2BCE5Q27698269-D0667C77-5D78-46CE-BBC6-DD3DABD06873Q27930427-69EB0708-1D03-4643-830A-AD29E4036A99Q27931831-94A7E258-6A18-47CF-ADEF-43B259AE01A6Q27936940-99577026-89AB-4718-8530-53F85DCCB158Q27939921-6BC054FA-4C42-41B3-A012-C388FFF082F6Q28276251-04A23474-02D5-45F0-98D0-325A1947B7E2Q28346948-7922665C-6DDC-44E4-ACBB-0AB94684A735Q28364627-610711EC-2EDB-4B9F-B203-5002F16840AFQ28480591-D24EC43D-2ADD-485D-8965-3C12E30E8332Q28493150-AEE0B9BF-A265-4D14-86A3-3FF4A71998C6Q28539680-4FAD02FD-3DFC-4BCF-A34B-00EDB4BA4DCFQ28572771-6107D64E-AEA8-4DEA-90C5-818AD35303B1Q28579897-D67E51C5-92E3-45F5-A9AE-9FC63A3F941CQ28595093-C8A25BA0-6225-4B9B-AF84-220A3E153BE6Q28610241-D0F6D2BE-888F-4F43-BC1C-A4993314DF5FQ29618672-5EB24943-5088-42A7-80C0-5B1DB624C774Q30167873-6ACE83FD-A17F-4C50-8853-38B3374919DFQ30168704-43B4FE49-99AA-44FD-9D94-6B24DA013006Q30356894-301CBD8C-A3D5-400D-9053-89E2D173D38BQ30486269-2CBD38F0-94DD-44FA-ADAC-292D193E742AQ30642515-F35B5946-98FF-446A-9A7D-5332792AF9CCQ30650128-B14CDF80-1B20-4E63-ADC8-A494DD3A37A0Q31035798-C212AA54-8FCB-4202-8CC2-4759C00B163BQ31162596-127C8439-3C47-4239-8B72-99B64F66A2B7Q33241199-0F175776-9916-49EE-B6B1-71A1584D6FE7Q33334155-604DF044-598F-41A4-B32B-098097CC4045Q33414734-0F7289DE-9D33-463D-B266-16C28CAD1953Q33498161-F25E462E-F201-487E-83F2-B3C5E3A94E79Q33566209-324A1F5B-421D-4F46-BDEF-A6FE8DF7F31FQ33630090-767EB7DD-947B-4BE0-98F4-8D9FD2F49C74
P2860
description
article
@en
im Juni 1991 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в червні 1991
@uk
ലേഖനം
@ml
name
Molecular Chaperones
@en
Molecular Chaperones
@nl
type
label
Molecular Chaperones
@en
Molecular Chaperones
@nl
prefLabel
Molecular Chaperones
@en
Molecular Chaperones
@nl
P1476
Molecular Chaperones
@en
P2093
R. John Ellis
Saskia M. van der Vies
P304
P356
10.1146/ANNUREV.BI.60.070191.001541
P577
1991-06-01T00:00:00Z