Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.2.1.23 (beta-galactosidase)
 14,648 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

DegP is a periplasmic protease that is a member of both the sigma(E) and Cpx extracytoplasmic stress regulons of Escherichia coli and is essential for viability at temperatures above 42 degrees C. [U-(14)C]acetate labeling experiments demonstrated that phospholipids were degraded in degP mutants at elevated temperatures. In addition, chloramphenicol acetyltransferase, beta-lactamase, and beta-galactosidase assays as well as sodium dodecyl sulfate-polyacrylamide gel electrophoresis analysis indicated that large amounts of cellular proteins are released from degP cells at the nonpermissive temperature. A mutation in pldA, which encodes outer membrane phospholipase A (OMPLA), was found to rescue degP cells from the temperature-sensitive phenotype. pldA degP mutants had a normal plating efficiency at 42 degrees C, displayed increased viability at 44 degrees C, showed no degradation of phospholipids, and released far lower amounts of cellular protein to culture supernatants. degP and pldA degP mutants containing chromosomal lacZ fusions to Cpx and sigma(E) regulon promoters indicated that both regulons were activated in the pldA mutants. The overexpression of the envelope lipoprotein, NlpE, which induces the Cpx regulon, was also found to suppress the temperature-sensitive phenotype of degP mutants but did not prevent the degradation of phospholipids. These results suggest that the absence of OMPLA corrects the degP temperature-sensitive phenotype by inducing the Cpx and sigma(E) regulons rather than by inactivating the phospholipase per se.
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PMID:Absence of the outer membrane phospholipase A suppresses the temperature-sensitive phenotype of Escherichia coli degP mutants and induces the Cpx and sigma(E) extracytoplasmic stress responses. 1151 4

Recent biochemical examination has revealed the presence of at least 90 different lipoproteins in Escherichia coli. Among previously identified lipoproteins, only an outer membrane lipoprotein, NlpE, is known to induce expression of the degP gene upon its overproduction. The degP gene encodes a periplasmic protease, which is thought to be involved in the digestion of unfolded proteins, and is essential for growth at high temperatures. However, it is not completely clear why NlpE overproduction causes degP expression. Moreover, among newly confirmed lipoproteins, there may be others that also induce degP expression. Therefore, we overproduced each of the 90 lipoproteins and examined the level of degP expression as beta-galactosidase activity by using a degP promoter-lacZ fusion. The extent of degP expression caused by NlpE overproduction was dependent on the mode of degP-lacZ fusion. On the other hand, new inner membrane lipoprotein YafY strongly induced degP expression irrespective of the mode of fusion even though the level of overproduced YafY was lower than that of NlpE. The induction of degP expression by YafY overproduction was dependent on the Cpx two-component system. Alteration of the lipoprotein-sorting signals of NlpE and YafY did not abolish the degP induction. However, a YafY derivative possessing the outer membrane signal remained on inner membranes. The non-lipidated derivative of NlpE did not induce degP expression, indicating that membrane anchoring is essential for degP induction. The amino acid sequences of YafY and YfjS, another inner membrane lipoprotein, are highly identical, but overproduction of the latter did not induce degP expression. Construction of various YafY-YfjS chimeric lipoproteins revealed that only a few residues located in the N- and C-terminal regions were important for the induction of DegP.
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PMID:Effects of lipoprotein overproduction on the induction of DegP (HtrA) involved in quality control in the Escherichia coli periplasm. 1525 48

Inactivation of the gene encoding the periplasmic protease DegP confers a high-temperature-sensitive phenotype in Escherichia coli. We have previously demonstrated that a degP mutant of E. coli strain CBM (W3110 pldA1) is not temperature sensitive and showed that this was most likely due to constitutive activation of the sigma E and Cpx extracytoplasmic stress regulons in the parent strain. In this study, further characterization of this strain revealed a previously unknown cryptic mutation that rescued the degP temperature-sensitive phenotype by inducing the extracytoplasmic stress regulons. We identified the cryptic mutation as an 11-bp deletion of nucleotides 1884 to 1894 of the adenylate cyclase-encoding cyaA gene (cyaAdelta11). The mechanism in which cyaAdelta11 induces the sigma E and Cpx regulons involves decreased activity of the mutant adenylate cyclase. Addition of exogenous cyclic AMP (cAMP) to the growth medium of a cyaAdelta11 mutant strain that contains a Cpx- and sigma E-inducible degP-lacZ reporter fusion decreased beta-galactosidase expression to levels observed in a cyaA+ strain. We also found that a cyaA null mutant displayed even higher levels of extracytoplasmic stress regulon activation compared to a cyaAdelta11 mutant. Thus, we conclude that the lowered concentration of cAMP in cyaA mutants induces both sigma E and Cpx extracytoplasmic stress regulons and thereby rescues the degP temperature-sensitive phenotype.
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PMID:Adenylate cyclase mutations rescue the degP temperature-sensitive phenotype and induce the sigma E and Cpx extracytoplasmic stress regulons in Escherichia coli. 1615 63