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Query: EC:2.3.3.1 (
citrate synthase
)
4,488
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The expression of some nuclear genes is sensitive to the functional state of mitochondria, a process we term retrograde regulation. Here we show that retrograde regulation of the yeast CIT2 gene encoding peroxisomal
citrate synthase
depends on a new class of upstream activation site element (UASr) and two previously unidentified genes, RTG1 and RTG2. RTG1 encodes a protein of 177 amino acids with similarity to basic helix-loop-helix transcription factors that likely functions at the CIT2 UASr. RTG2 encodes a protein of 394 amino acids of
unknown function
. Cells containing null alleles of RTG1 and RTG2 are viable and respiratory competent. However, they are auxotrophic for glutamic or aspartic acid and cannot use acetate as a sole carbon source, suggesting that both the tricarboxylic acid and glyoxylate cycles are compromised. Thus, RTG1 and RTG2 are pivotal genes in controlling interorganelle communication between mitochondria, peroxisomes, and the nucleus.
...
PMID:RTG1 and RTG2: two yeast genes required for a novel path of communication from mitochondria to the nucleus. 842 83
A 30-kD coenzyme A (CoA)-binding protein was isolated from spinach (Spinacea oleracea) chloroplast soluble extracts using affinity chromatography under conditions in which 95% of the total protein was excluded. The 30-kD protein contains an eight-amino-acid sequence, DVRLYYGA, that is identical to a region in a 36-kD protein of
unknown function
that is encoded by a kiwifruit (Actinidia deliciosa) cDNA. Southern blotting also detected a spinach gene that is related to the kiwifruit cDNA. The kiwifruit 36-kD protein that was synthesized in Escherichia coli was imported into chloroplasts and cleaved to a 30-kD form; it was processed to the same size in an organelle-free assay. Furthermore, the kiwifruit protein specifically bound to CoA. The kiwifruit protein contains a single cysteine within a domain that is related to the peroxisomal beta-ketoacyl-CoA thiolases, which catalyze the CoA-dependent degradative step of fatty acid beta-oxidation. Within 50 amino acids surrounding the cysteine, considered to be part of the thiolase active site, the kiwifruit protein shows approximately 26% sequence identity with the mango, cucumber, and rat peroxisomal thiolases. N-terminal alignment with these enzymes, relative to the cysteine, indicates that the 36-kD protein is cleaved after serine-58 during import, agreeing with the estimated size (approximately 6 kD) of a transit peptide. The 30-kD protein is also related to the E. coli and mitochondrial thiolases, as well as to the acetoacetyl-CoA thiolases of prokaryotes. Features distinguish it from members of the thiolase family, suggesting that it carries out a related but novel function. The protein is more distantly related to chloroplast beta-ketoacyl-acyl carrier protein synthase III, the initial
condensing enzyme
of fatty acid synthetase that utilizes acetyl-CoA.
...
PMID:Identification of a chloroplast coenzyme A-binding protein related to the peroxisomal thiolases. 897 3
Regulation of cell division requires the concerted function of proteins and protein complexes that properly mediate cytoskeletal dynamics. NudC is an evolutionarily conserved protein of undetermined function that associates with microtubules and interacts with several key regulators of mitosis, such as polo-kinase 1 (Plk1) and dynein. NudC is essential for proper mitotic progression, and homologs have been identified in species ranging from fungi to humans. In this paper, we report the characterization of the Caenorhabditis elegans NudC homolog, NUD-1, as a protein exhibiting molecular chaperone activity. All NudC/NUD-1 proteins share a conserved p23/HSP20 domain predicted by three-dimensional modeling [Garcia-Ranea, Mirey, Camonis, Valencia, FEBS Lett 529(2-3):162-167, 2002]. We demonstrate that nematode NUD-1 is able to prevent the aggregation of two substrate proteins,
citrate synthase
(CS) and luciferase, at stoichiometric concentrations. Further, NUD-1 also protects the native state of CS from thermal inactivation by significantly reducing the inactivation rate of this enzyme. To further determine if NUD-1/substrate complexes were productive or simply "dead-end" unfolding intermediates, a luciferase refolding assay was utilized. Following thermal denaturation, rabbit reticulocyte lysate and ATP were added and luciferase activity measured. In the presence of NUD-1, nearly all of the luciferase activity was regained, indicating that unfolded intermediates complexed with NUD-1 could be refolded. These studies represent the first functional evidence for a member of this mitotically essential protein family as having chaperone activity and facilitates elucidation of the role such proteins play in chaperone complexes utilized in cell division. C. elegans NUD-1 is a member of an evolutionary conserved protein family of
unknown function
involved in the regulation of cytoskeletal dynamics. NUD-1 and its mammalian homolog, NudC, function with the dynein motor complex to ensure proper cell division, and knockdown or overexpression of these proteins leads to disruption of mitosis. In this paper, we show that NUD-1 possesses ATP-independent chaperone activity comparable to that of small heat shock proteins and cochaperones and that changes in phosphorylation state functionally alter chaperone activity in a phosphomimetic NUD-1 mutant.
...
PMID:The microtubule-associated protein, NUD-1, exhibits chaperone activity in vitro. 1862 91
YajL is the closest prokaryotic homolog of the parkinsonism-associated protein DJ-1 (40% sequence identity and similar three-dimensional structure), a protein of
unknown function
involved in the cellular response to oxidative stress. We report here that a yajL mutant of Escherichia coli displays an increased sensitivity to oxidative stress. It also exhibits a protein aggregation phenotype in aerobiosis, but not in anaerobiosis or in aerobic cells overexpressing superoxide dismutase, suggesting that protein aggregation depends on the presence of reactive oxygen species produced by respiratory chains. The protein aggregation phenotype of the yajL mutant, which can be rescued by the wild-type yajL gene, but not by the corresponding cysteine 106 mutant allele, is similar to that of multiple mutants deficient in superoxide dismutases and catalases, although intracellular hydrogen peroxide levels were not increased in the yajL mutant, suggesting that protein aggregation in this strain does not result from a hydrogen peroxide detoxification defect. Aggregation-prone proteins included 17 ribosomal proteins, the ATP synthase beta subunit, flagellin, and the outer membrane proteins OmpA and PAL; all of them are part of multiprotein complexes, suggesting that YajL might be involved in optimal expression of these complexes, especially during oxidative stress. YajL stimulated the renaturation of urea-unfolded
citrate synthase
and the solubilization of the urea-unfolded ribosomal proteins S1 and L3 and was more efficient as a chaperone in its oxidized form than in its reduced form. The mRNA levels of several aggregated proteins of the yajL mutant were severely affected, suggesting that YajL also acts at the level of gene expression. These two functions of YajL might explain the protein aggregation phenotype of the yajL mutant.
...
PMID:Protein aggregation in a mutant deficient in yajL, the bacterial homolog of the Parkinsonism-associated protein DJ-1. 2012 4
