EC:3.1.3.1 - FACTA Search

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Query: EC:3.1.3.1 (alkaline phosphatase)
47,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mutations affecting quantitatively the production of the sporulation-associated extracellular alkaline protease were isolated and characterized. They fall into at least five genes, three of which, ScoA, B and C, were mapped in the argC-metC region. The pleiotropic effects of these mutations concern several or all of the following: rate and timing of protease production, synthesis of alkaline phosphatase, time-course of spore formation. Electron microscopic evidence indicates delayed switch from one morphological stage to another. The nature of the Sco mutations and the genetic regulation of sporulation are discussed.
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PMID:Pleiotropic control mutations affecting the sporulation of Bacillus subtilis. 11 99

A modular vector system has been developed for the extracellular production of heterologous proteins in Bacillus subtilis. This modular vector system consists of four secretion vectors which are based upon the genes encoding the Bacillus amyloliquefaciens extracellular alkaline protease, neutral protease, barnase and levansucrase. The modular vectors contain compatible restriction sites downstream from the signal peptide-coding region. Three reporter proteins (staphylococcal protein A, levansucrase and Escherichia coli alkaline phosphatase) that offer complementary advantages for cloning, genetic manipulations and media optimization have been fused to the various signal peptides. These secretion vectors function in E. coli and hence can be used to compare the mechanisms of protein secretion in E. coli and B. subtilis.
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PMID:Modular expression and secretion vectors for Bacillus subtilis. 158 74

We have isolated and characterized four toxin A excretion-deficient mutants of Pseudomonas aeruginosa PAO1. Similar to previously described mutants (B. Wretlind and O. R. Pavlovskis, J. Bacteriol. 158:801-808, 1984), the mutants appear to have a pleiotropic defect in the excretion of several extracellular products, including toxin A, elastase, alkaline phosphatase, and phospholipase C. However, the mutants are not defective in the excretion of either alkaline protease or exoenzyme S. We also examined the localization and processing of toxin A in these mutants by using pulse-labeling experiments. Mature toxin A was found to be localized to the membranes only. Our results suggest that toxin A is localized to the outer membrane but is not exposed to the extracellular surfaces of the outer membranes. The results also suggest that toxin A obtained from the excretion-deficient mutants has intact disulfide bonds.
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PMID:Isolation and characterization of toxin A excretion-deficient mutants of Pseudomonas aeruginosa PAO1. 173 Apr 83

We have constructed a vector designed to facilitate the study of protein secretion in Bacillus subtilis. This vector is based on a translational fusion between the expression elements and signal sequence of Bacillus amyloliquefaciens alkaline protease and the mature coding sequence for Escherichia coli alkaline phosphatase (phoA). We show that export of alkaline phosphatase from B. subtilis depends on a functional signal sequence and that alkaline phosphatase activity depends upon secretion. The vector design facilitates the insertion of heterologous coding sequences between the signal and phoA to generate three-part translational fusions. Such phoA fusions are easily analyzed by monitoring alkaline phosphatase activity on agar plates or in culture supernatants or by immunological detection. Exploitation of this methodology, which has proven to be extremely useful in the study of protein secretion in E. coli, has a variety of applications for studying protein secretion in B. subtilis.
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PMID:Use of alkaline phosphatase fusions to study protein secretion in Bacillus subtilis. 190 Oct 54

Pseudomonas aeruginosa is a bacterial species of commercial value secreting numerous extracellular proteins, involved in pathogenesis. Most strains produce at least a lipase, a phospholipase, an alkaline phosphatase, an exotoxin and 2 proteases (elastase and alkaline protease). Various mechanisms for secretion of exoproteins appear to exist in P aeruginosa. Genetic analysis has led to the identification of 2 secretion pathways: i) a "general" secretion pathway, defined by the xcp mutations, which mediates secretion of most extracellular proteins, and; ii) an independent secretion pathway specific for alkaline protease. Our present knowledge on the pathways and components of the secretion machinery in P aeruginosa is reviewed in this article.
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PMID:Secretion of extracellular proteins by Pseudomonas aeruginosa. 211 83

Studies were performed on the prtR gene which enhances the production of the Bacillus subtilis extracellular proteases and levansucrase, but not the alpha-amylase, RNase, and alkaline phosphatase. To investigate the mode of action of prtR, the Escherichia coli bla gene was placed under the control of two promoters. One was the promoter of the alkaline protease gene (aprE), and the other was the promoter of B. subtilis dihydrofolate reductase gene (dfrA). Expression of the bla gene was enhanced by prtR only when the apr promoter was used. From these results, it was concluded that the apr promoter or its vicinity was the target of prtR and that prtR does not affect the process after transcription. The mRNA levels of aprE and nprE (the neutral protease gene) were significantly increased by prtR, but the half-life of the aprE mRNA was not affected. These results show that the prtR gene product enhances protease production by increasing the rate of transcription initiation.
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PMID:prtR enhances the mRNA level of the Bacillus subtilis extracellular proteases. 311 Jan 32

Signal peptides of gram-positive exoproteins generally carry a higher net positive charge at their amino termini (N regions) and have longer hydrophobic cores (h regions) and carboxy termini (C regions) than do signal peptides of Escherichia coli envelope proteins. To determine if these differences are functionally significant, the ability of Bacillus subtilis to secrete four different E. coli envelope proteins was tested. A pulse-chase analysis demonstrated that the periplasmic maltose-binding protein (MBP), ribose-binding protein (RBP), alkaline phosphatase (PhoA), and outer membrane protein OmpA were only inefficiently secreted. Inefficient secretion could be ascribed largely to properties of the homologous signal peptides, since replacing them with the B. amyloliquefaciens alkaline protease signal peptide resulted in significant increases in both the rate and extent of export. The relative efficiency with which the native precursors were secreted (OmpA >> RBP > MBP > PhoA) was most closely correlated with the overall hydrophobicity of their h regions. This correlation was strengthened by the observation that the B. amyloliquefaciens levansucrase signal peptide, whose h region has an overall hydrophobicity similar to that of E. coli signal peptides, was able to direct secretion of only modest levels of MBP and OmpA. These results imply that there are differences between the secretion machineries of B. subtilis and E. coli and demonstrate that the outer membrane protein OmpA can be translocated across the cytoplasmic membrane of B. subtilis.
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PMID:Escherichia coli signal peptides direct inefficient secretion of an outer membrane protein (OmpA) and periplasmic proteins (maltose-binding protein, ribose-binding protein, and alkaline phosphatase) in Bacillus subtilis. 818 2

PA28, also referred to as 11S regulator, is a potent activator of the peptidase activities of the proteasome (multicatalytic proteinase complex). Although the role(s) of PA28-20S proteasome complexes in cellular proteolytic processes remain to be defined, these particles have been implicated in antigen processing of major histocompatibility complex (MHC) class I molecules. Our results demonstrate that PA28 is phosphorylated as evidenced by 32P incorporation into a single PA28 species in rabbit reticulocytes. In reticulocytes as well as human erythrocytes, PA28 is normally found in a phosphorylated state as detected by phosphoserine antibody. In human erythrocytes, this antibody recognizes three polypeptides which are also detected by antibody to PA28 on Western blot analysis. Dephosphorylation with alkaline phosphatase treatment completely abolishes the ability of PA28 to activate hydrolysis of Suc-Leu-Leu-Val-Tyr by proteasomes. After exposure to phosphatase, the three polypeptides are no longer recognized by phosphoserine antibody, although binding to PA28 antibody is unaffected. These results suggest that phosphorylation may function in transduction of cytokine and growth factor signals that, in turn, modulate antigen presentation and other processes which involve PA28-20S proteasome complexes.
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PMID:Phosphorylation of the proteasome activator PA28 is required for proteasome activation. 878 Jul 2

The aprE gene of Bacillus subtilis codes for the serine alkaline protease known as subtilisin. Its expression is regulated by a complex network of activators and repressors that includes the products of hpr, degU and sinR. In order to understand the effect of these gene products on subtilisin expression, strains carrying combinations of the degU32(Hy), hpr2 and sinR null mutations, were constructed. We found that in all the genetic backgrounds tested, the sinR null mutation decreased aprE expression. Also, by measuring alkaline phosphatase synthesis and the formation of heat-resistant spores, as indicators of sporulation, we found that some of the mutant strains showed alterations in the sporulation process. These results suggest that these alterations are partially responsible for some of the observed changes in aprE expression.
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PMID:Effects of the sinR and degU32 (Hy) mutations on the regulation of the aprE gene in Bacillus subtilis. 906 89

The 20 S proteasome processively degrades cell proteins to peptides. Information on the sizes and nature of these products is essential for understanding the proteasome's degradative mechanism, the subsequent steps in protein turnover, and major histocompatibility complex class I antigen presentation. Using proteasomes from Thermoplasma acidophilum and four unfolded polypeptides as substrates (insulin-like growth factor, lactalbumin, casein, and alkaline phosphatase, whose lengths range from 71 to 471 residues), we demonstrate that the number of cuts made in a polypeptide and the time needed to degrade it increase with length. The average size of peptides generated from these four polypeptides was 8 +/- 1 residues, but ranged from 6 to 10 residues, depending on the protein, as determined by two new independent methods. However, the individual peptide products ranged in length from approximately 3 to 30 residues, as demonstrated by mass spectrometry and size-exclusion chromatography. The sizes of individual peptides fit a log-normal distribution. No length was predominant, and more than half were shorter than 10 residues. Peptide abundance decreased with increasing length, and less than 10% exceeded 20 residues. These findings indicate that: 1) the proteasome does not generate peptides according to the "molecular ruler" hypothesis, and 2) other peptidases must function after the proteasome to complete the turnover of cell proteins to amino acids.
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PMID:Range of sizes of peptide products generated during degradation of different proteins by archaeal proteasomes. 944 34

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