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151.
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Localization of the chaperone domain of FKBP52 总被引:3,自引:0,他引:3
FKBP52, a multidomain peptidyl prolyl cis/trans-isomerase (PPIase), is found in complex with the chaperone Hsp90 and the co-chaperone p23. It displays both PPIase and chaperone activity in vitro. To localize these two activities to specific regions of the protein, we created and analyzed a set of fragments of FKBP52. The PPIase activity toward both peptides and proteins is confined entirely to domain 1 (amino acids 1-148). The chaperone activity, however, resides in the C-terminal part of FKBP52, mainly in the region between amino acids 264 and 400 (domain 3). Interestingly, this domain also contains the tetratricopeptide repeats, which are responsible for the binding to C-terminal amino acids of Hsp90. Competition assays with a C-terminal Hsp90 peptide suggest that the non-native protein and Hsp90 are bound by different regions within this domain. 相似文献
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M Ehrnsperger H Lilie M Gaestel J Buchner 《The Journal of biological chemistry》1999,274(21):14867-14874
Small heat shock proteins (sHsps), including alpha-crystallin, represent a conserved and ubiquitous family of proteins. They form large oligomers, ranging in size from 140 to more than 800 kDa, which seem to be important for the interaction with non-native proteins as molecular chaperones. Here we analyzed the stability and oligomeric structure of murine Hsp25 and its correlation with function. Upon unfolding, the tertiary and quaternary structure of Hsp25 is rapidly lost, whereas the secondary structure remains remarkably stable. Unfolding is completely reversible, leading to native hexadecameric structures. These oligomers are in a concentration-dependent equilibrium with tetramers and dimers, indicating that tetramers assembled from dimers represent the basic building blocks of Hsp25 oligomers. At high temperatures, the Hsp25 complexes increase in molecular mass, consistent with the appearance of "heat shock granules" in vivo after heat treatment. This high molecular mass "heat shock form" of Hsp25 is in a slow equilibrium with hexadecameric Hsp25. Thus, it does not represent an off-pathway reaction. Interestingly, the heat shock form exhibits unchanged chaperone activity even after incubation at 80 degrees C. We conclude that Hsp25 is a dynamic tetramer of tetramers with a unique ability to refold and reassemble into its active quaternary structure after denaturation. So-called heat shock granules, which have been reported to appear in response to stress, seem to represent a novel functional species of Hsp25. 相似文献
156.
Gomes NC Fagbola O Costa R Rumjanek NG Buchner A Mendona-Hagler L Smalla K 《Applied and environmental microbiology》2003,69(7):3758-3766
The fungal population dynamics in soil and in the rhizospheres of two maize cultivars grown in tropical soils were studied by a cultivation-independent analysis of directly extracted DNA to provide baseline data. Soil and rhizosphere samples were taken from six plots 20, 40, and 90 days after planting in two consecutive years. A 1.65-kb fragment of the 18S ribosomal DNA (rDNA) amplified from the total community DNA was analyzed by denaturing gradient gel electrophoresis (DGGE) and by cloning and sequencing. A rhizosphere effect was observed for fungal populations at all stages of plant development. In addition, pronounced changes in the composition of fungal communities during plant growth development were found by DGGE. Similar types of fingerprints were observed in two consecutive growth periods. No major differences were detected in the fungal patterns of the two cultivars. Direct cloning of 18S rDNA fragments amplified from soil or rhizosphere DNA resulted in 75 clones matching 12 dominant DGGE bands. The clones were characterized by their HinfI restriction patterns, and 39 different clones representing each group of restriction patterns were sequenced. The cloning and sequencing approach provided information on the phylogeny of dominant amplifiable fungal populations and allowed us to determine a number of fungal phylotypes that contribute to each of the dominant DGGE bands. Based on the sequence similarity of the 18S rDNA fragment with existing fungal isolates in the database, it was shown that the rhizospheres of young maize plants seemed to select the Ascomycetes order Pleosporales, while different members of the Ascomycetes and basidiomycetic yeast were detected in the rhizospheres of senescent maize plants. 相似文献
157.
BiP is an Hsp70 homologue found in the endoplasmic reticulum of eukaryotic cells. Like other Hsp70 chaperones, BiP interacts with its substrate proteins in an ATP-dependent manner. The functional analysis has so far been performed mainly with short, synthetic peptides. Here, we present an experimental system that allows to study the partial reactions of the BiP chaperone cycle for a natural substrate protein domain in its soluble, stably unfolded conformation. This unfolded antibody domain forms a binary complex with BiP in the absence of ATP. The dissociation of the BiP dimer seems to be the rate-limiting step in this reaction. The BiP-C(H)3 complexes dissociate rapidly in the presence of ATP. The affinity for BiP-binding peptides and the non-native antibody domain was determined to be similar, suggesting that only the peptide binding site is involved in these interactions. Furthermore, these results imply that, also in the context of the antibody domain, an extended peptide sequence is recognized. However, the accessibility of the BiP-binding site in the non-native protein seems to influence the kinetics of complex formation. 相似文献
158.
The human tumor suppressor protein p53 is understood only to some extent on a structural level. We performed a comprehensive biochemical and biophysical structure-function analysis of p53 full-length protein and p53 fragments. The analysis showed that p53 and the fragments investigated form stable functional units. Full-length p53 and the tetrameric fragment N93p53 (residues 93-393) are, however, destabilized significantly compared to the monomeric core domain (residues 94-312) and the monomeric fragment p53C312 (residues 1-312). At the physiological temperature of 37 degrees C and in the absence of modifications or stabilizing partners, wild-type p53 is more than 50% unfolded correlating with a 75% loss in DNA-binding activity. Furthermore the analysis of CD spectra revealed that full-length p53 contains large unstructured regions in its N and C-terminal parts. Our results indicate that full-length p53 is a modular protein consisting of defined structured and unstructured regions. We propose that p53 belongs to the growing family of loosely folded or partially unstructured native proteins. The lack of a rigid structure combined with the low overall stability may allow the physiological interaction of p53 with a multitude of partner proteins and the regulation of its turnover. 相似文献
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160.
One important factor for the determination of the specific functions of protein kinase C (PKC) isoforms is their specific subcellular localization. In NIH 3T3 fibroblasts phorbol esters induce translocation of PKCalpha to the plasma membrane and the nucleus. In order to investigate PKCalpha's subcellular distribution and especially its nuclear accumulation in more detail we used fusion proteins consisting of PKCalpha and the green fluorescent protein (GFP). Purified GFP-PKCalpha from baculovirus-infected insect cells undergoes nuclear accumulation without any further stimuli in digitonin-permeabilized cells. Interestingly, permeabilization appears to be a trigger for PKCalpha's nuclear translocation, since the fusion protein also translocates to the nucleus in transiently transfected cells following permeabilization. This suggests that PKCalpha has a high nuclear binding capacity even in the case of large protein amounts. In contrast to endogenous PKCalpha, overexpressed GFP-PKCalpha as well as overexpressed PKCalpha itself translocates mainly to the plasma membrane and only to a smaller extent to the nucleus following stimulation with phorbol ester. Use of fusion proteins of GFP and different mutants of PKCalpha enabled determination of motifs involved PKCalpha's subcellular distribution: A25E and K368R point mutations of PKCalpha showed enhanced affinity for the plasma membrane, whereas sequences within the regulatory domain probably confer PKCalpha's nuclear accumulation. 相似文献