Evidence for an accumulation of messenger RNA specific for extracellular protease and its relevance to the mechanism of enzyme secretion in bacteria

Washed cells of Bacillus amyloliquefaciens rapidly synthesize and secrete a neutral protease into the extracellular medium. In a medium containing low concentrations of amino acids the production occurs almost linearly but in high concentrations of amino acids there is a rapid phase (phase 1) of pro...

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Veröffentlicht in:	Journal of molecular biology 1972-06, Vol.67 (2), p.199,IN7,203-202,IN8,217
Hauptverfasser:	Both, G.W., McInnes, J.L., Hanlon, Joan E., May, B.K., Elliott, W.H.
Format:	Artikel
Sprache:	eng
Schlagworte:	Amino Acids - metabolism Bacillus - enzymology Bacillus - metabolism Bacterial Proteins - biosynthesis Carbon Isotopes Cell Membrane Chromatography, Affinity Culture Media Dactinomycin - pharmacology Depression, Chemical Electrophoresis Enzyme Repression Fusidic Acid - pharmacology Genes Genetic Code Leucine - metabolism Peptide Hydrolases - biosynthesis Peptide Hydrolases - metabolism Ribosomes - metabolism Rifampin - pharmacology RNA, Bacterial - biosynthesis RNA, Messenger - biosynthesis RNA, Messenger - metabolism Time Factors
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creator	Both, G.W. McInnes, J.L. Hanlon, Joan E. May, B.K. Elliott, W.H.
description	Washed cells of Bacillus amyloliquefaciens rapidly synthesize and secrete a neutral protease into the extracellular medium. In a medium containing low concentrations of amino acids the production occurs almost linearly but in high concentrations of amino acids there is a rapid phase (phase 1) of production for 30 minutes, followed by a levelling for 50 minutes after which synthesis resumes linearly (phase 2). The inhibitors of RNA synthesis, rifampicin and actinomycin D, inhibit phase 2 synthesis promptly but do not inhibit phase 1 production. This latter production is nevertheless sensitive to inhibitors of protein synthesis and labelling studies have confirmed that the protease production involves de novo synthesis of the enzyme. The evidence indicates that there is present in harvested cells an accumulated pool of mRNA for protease, capable of supporting synthesis of the enzyme for 80 minutes. It is proposed that mRNA for protease migrates from the gene to specific translational-extrasion sites in the membrane and that the accumulation represents a queuing of messenger molecules for these sites. The biphasic time-course in the presence of high concentrations of amino acids is attributed to amino-acid repression of protease mRNA formation, phase 1 production representing translation and exhaustion of the accumulated pool. The protein synthesis inhibitors, pactamycin and fusidic acid, at low concentrations completely inhibit protease production without affecting general intracellular protein synthesis. This is interpreted as supporting the concept that protease synthesis occurs on ribosomes located at the periphery of the cell.
doi_str_mv	10.1016/0022-2836(72)90236-7
format	Article
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In a medium containing low concentrations of amino acids the production occurs almost linearly but in high concentrations of amino acids there is a rapid phase (phase 1) of production for 30 minutes, followed by a levelling for 50 minutes after which synthesis resumes linearly (phase 2). The inhibitors of RNA synthesis, rifampicin and actinomycin D, inhibit phase 2 synthesis promptly but do not inhibit phase 1 production. This latter production is nevertheless sensitive to inhibitors of protein synthesis and labelling studies have confirmed that the protease production involves de novo synthesis of the enzyme. The evidence indicates that there is present in harvested cells an accumulated pool of mRNA for protease, capable of supporting synthesis of the enzyme for 80 minutes. It is proposed that mRNA for protease migrates from the gene to specific translational-extrasion sites in the membrane and that the accumulation represents a queuing of messenger molecules for these sites. 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In a medium containing low concentrations of amino acids the production occurs almost linearly but in high concentrations of amino acids there is a rapid phase (phase 1) of production for 30 minutes, followed by a levelling for 50 minutes after which synthesis resumes linearly (phase 2). The inhibitors of RNA synthesis, rifampicin and actinomycin D, inhibit phase 2 synthesis promptly but do not inhibit phase 1 production. This latter production is nevertheless sensitive to inhibitors of protein synthesis and labelling studies have confirmed that the protease production involves de novo synthesis of the enzyme. The evidence indicates that there is present in harvested cells an accumulated pool of mRNA for protease, capable of supporting synthesis of the enzyme for 80 minutes. It is proposed that mRNA for protease migrates from the gene to specific translational-extrasion sites in the membrane and that the accumulation represents a queuing of messenger molecules for these sites. The biphasic time-course in the presence of high concentrations of amino acids is attributed to amino-acid repression of protease mRNA formation, phase 1 production representing translation and exhaustion of the accumulated pool. The protein synthesis inhibitors, pactamycin and fusidic acid, at low concentrations completely inhibit protease production without affecting general intracellular protein synthesis. 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In a medium containing low concentrations of amino acids the production occurs almost linearly but in high concentrations of amino acids there is a rapid phase (phase 1) of production for 30 minutes, followed by a levelling for 50 minutes after which synthesis resumes linearly (phase 2). The inhibitors of RNA synthesis, rifampicin and actinomycin D, inhibit phase 2 synthesis promptly but do not inhibit phase 1 production. This latter production is nevertheless sensitive to inhibitors of protein synthesis and labelling studies have confirmed that the protease production involves de novo synthesis of the enzyme. The evidence indicates that there is present in harvested cells an accumulated pool of mRNA for protease, capable of supporting synthesis of the enzyme for 80 minutes. It is proposed that mRNA for protease migrates from the gene to specific translational-extrasion sites in the membrane and that the accumulation represents a queuing of messenger molecules for these sites. The biphasic time-course in the presence of high concentrations of amino acids is attributed to amino-acid repression of protease mRNA formation, phase 1 production representing translation and exhaustion of the accumulated pool. The protein synthesis inhibitors, pactamycin and fusidic acid, at low concentrations completely inhibit protease production without affecting general intracellular protein synthesis. This is interpreted as supporting the concept that protease synthesis occurs on ribosomes located at the periphery of the cell.</abstract><cop>England</cop><pub>Elsevier Ltd</pub><pmid>5040371</pmid><doi>10.1016/0022-2836(72)90236-7</doi><tpages>19</tpages></addata></record>
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subjects	Amino Acids - metabolism Bacillus - enzymology Bacillus - metabolism Bacterial Proteins - biosynthesis Carbon Isotopes Cell Membrane Chromatography, Affinity Culture Media Dactinomycin - pharmacology Depression, Chemical Electrophoresis Enzyme Repression Fusidic Acid - pharmacology Genes Genetic Code Leucine - metabolism Peptide Hydrolases - biosynthesis Peptide Hydrolases - metabolism Ribosomes - metabolism Rifampin - pharmacology RNA, Bacterial - biosynthesis RNA, Messenger - biosynthesis RNA, Messenger - metabolism Time Factors
title	Evidence for an accumulation of messenger RNA specific for extracellular protease and its relevance to the mechanism of enzyme secretion in bacteria
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