C-terminal domain of protein C56C10.10, a putative peptidylprolyl isomerase, from Caenorhabditis elegans
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ADVERTISEMENT RETURN TO ISSUEPREVArticleNEXTTwo distinct forms of peptidylprolyl-cis-trans-isomerase are expressed separately in periplasmic and cytoplasmic compartments of Escherichia coli cellsToshiya Hayano, Nobuhiro Takahashi, Setsuko Kato, Noboru Maki, and Masanori SuzukiCite this: Biochemistry 1991, 30, 12, 3041–3048Publication Date (Print):March 26, 1991Publication History Published online1 May 2002Published inissue 26 March 1991https://pubs.acs.org/doi/10.1021/bi00226a009https://doi.org/10.1021/bi00226a009research-articleACS PublicationsRequest reuse permissionsArticle Views266Altmetric-Citations123LEARN ABOUT THESE METRICSArticle Views are the COUNTER-compliant sum of full text article downloads since November 2008 (both PDF and HTML) across all institutions and individuals. These metrics are regularly updated to reflect usage leading up to the last few days.Citations are the number of other articles citing this article, calculated by Crossref and updated daily. Find more information about Crossref citation counts.The Altmetric Attention Score is a quantitative measure of the attention that a research article has received online. Clicking on the donut icon will load a page at altmetric.com with additional details about the score and the social media presence for the given article. Find more information on the Altmetric Attention Score and how the score is calculated. Share Add toView InAdd Full Text with ReferenceAdd Description ExportRISCitationCitation and abstractCitation and referencesMore Options Share onFacebookTwitterWechatLinked InRedditEmail Other access optionsGet e-Alertsclose Get e-Alerts
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A new member of the ras superfamily, designated CErac1 has been identified. The CErac1 cDNA clone was isolated from a Caenorhabditis elegans mixed stage library and encodes a protein of 191 amino acids with 82 and 79% identity to human rac1 and rac2 proteins, respectively. The CErac1 cDNA maps to a position on C. elegans chromosome IV in close proximity to cha-1, a choline acetyltransferase gene. The CErac1 cDNA hybridizes to two mRNAs (1.7 and 0.9 kilobases). Their expression is developmentally regulated, that of the more abundant 1.7 kilobases being highest at the embryonic stage and decreasing dramatically during development with 10% of the embryonic level in adult nematodes. The glutathione-S-transferase/CErac1 fusion protein expressed in Escherichia coli binds GTP and exhibits intrinsic GTPase activity. The GTPase activity of the CErac1 protein is stimulated by human n-chimaerin, a GTPase-activating protein for p21 rac1. These data suggest a role of CErac1 in C. elegans early development. The conserved biochemical properties indicate that further characterization of CErac1 by genetic analysis will be helpful in elucidating not only its role in the signal transduction, but also the biological function of its mammalian homologues.
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A Caenorhabditis elegans cDNA encoding a homologue of the p21 ras-related CDC42, designated as CDC42Ce, was isolated from a nematode mixed stage cDNA library. The encoded protein of 188 amino acid residues has 85% identity to both human G25K and CDC42Hs and 79 and 76% identity to the yeast CDC42Sp and CDC42Sc proteins, respectively. The CDC42Ce cDNA maps to a position on C. elegans chromosome II in close proximity to lin-26, a cell lineage gene. The CDC42Ce cDNA hybridizes to 2- and 1.5-kilobase mRNAs. Their expression is developmentally regulated with highest levels at the embryonic stage, decreasing progressively during development except for an increase of the more abundant 1.5-kilobase mRNA at the L3 stage. The glutathione S-transferase/CDC42Ce fusion protein expressed in Escherichia coli displays both GTP binding and intrinsic GTPase activities. The GTPase activity of CDC42Ce is moderately stimulated by human n-chimaerin, a GTPase-activating protein for the related p21 rac1. The CDC42Ce protein complements the temperature-sensitive lethal mutation cdc42-1 in yeast Saccharomyces cerevisiae. These data suggest that CDC42Ce is the C. elegans homologue of the yeast CDC42. The developmental expression pattern of mRNA and is biochemical properties of its encoded protein which are closely related to CErac1 suggest that the two p21s might be involved in related biological processes.
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The Caenorhabditis elegans unc-45 locus has been proposed to encode a protein machine for myosin assembly. The UNC-45 protein is predicted to contain an NH2-terminal domain with three tetratricopeptide repeat motifs, a unique central region, and a COOH-terminal domain homologous to CRO1 and She4p. CRO1 and She4p are fungal proteins required for the segregation of other molecules in budding, endocytosis, and septation. Three mutations that lead to temperature-sensitive (ts) alleles have been localized to conserved residues within the CRO1/She4p-like domain, and two lethal alleles were found to result from stop codon mutations in the central region that would prevent translation of the COOH-terminal domain. Electron microscopy shows that thick filament accumulation in vivo is decreased by ∼50% in the CB286 ts mutant grown at the restrictive temperature. The thick filaments that assemble have abnormal structure. Immunofluorescence and immunoelectron microscopy show that myosins A and B are scrambled, in contrast to their assembly into distinct regions at the permissive temperature and in wild type. This abnormal structure correlates with the high degree of instability of the filaments in vitro as reflected by their extremely low yields and shortened lengths upon isolation. These results implicate the UNC-45 CRO1/She4p-like region in the assembly of myosin isoforms in C. elegans and suggest a possible common mechanism for the function of this UCS (UNC-45/CRO1/She4p) protein family.
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