Increased production of pyruvic acid by Escherichia coli RNase G mutants in combination with cra mutations

The Escherichia coli RNase G is known as an endoribonuclease responsible for the 5'-end maturation of 16S rRNA and degradation of several specific mRNAs such as adhE and eno mRNAs. In this study, we found that an RNase G mutant derived from the MC1061 strain did not grow on a glucose minimal me...

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Veröffentlicht in:	Applied microbiology and biotechnology 2007-08, Vol.76 (1), p.183-192
Hauptverfasser:	Sakai, Taro, Nakamura, Naoko, Umitsuki, Genryou, Nagai, Kazuo, Wachi, Masaaki
Format:	Artikel
Sprache:	eng
Schlagworte:	Acetolactate Synthase - genetics Bacteria Bacterial Proteins - genetics Biological and medical sciences Biotechnology Culture Media E coli Endoribonucleases - genetics Endoribonucleases - metabolism Enzymes Escherichia coli Escherichia coli - growth & development Escherichia coli - metabolism Escherichia coli Proteins - genetics Escherichia coli Proteins - metabolism Fundamental and applied biological sciences. Psychology Gene Expression Regulation, Bacterial Glucose Glycolysis Isoenzymes Mutation pyruvic acid Pyruvic Acid - metabolism Regulatory Elements, Transcriptional - physiology Repressor Proteins - genetics RNase G valine Valine - metabolism
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creator	Sakai, Taro Nakamura, Naoko Umitsuki, Genryou Nagai, Kazuo Wachi, Masaaki
description	The Escherichia coli RNase G is known as an endoribonuclease responsible for the 5'-end maturation of 16S rRNA and degradation of several specific mRNAs such as adhE and eno mRNAs. In this study, we found that an RNase G mutant derived from the MC1061 strain did not grow on a glucose minimal medium. Genetic analysis revealed that simultaneous defects of cra and ilvIH, encoding a transcriptional regulator of glycolysis/gluconeogenesis and one of isozymes of acetohydroxy acid synthase, respectively, were required for this phenomenon to occur. The results of additional experiments presented here indicate that the RNase G mutation, in combination with cra mutation, caused the increased production of pyruvic acid from glucose, which was then preferentially converted to valine due to the ilvIH mutation, resulting in depletion of isoleucine. In fact, the rng cra double mutant produced increased amount of pyruvate in the medium. These results suggest that the RNase G mutation could be applied in the breeding of producer strains of pyruvate and its derivatives such as valine.
doi_str_mv	10.1007/s00253-007-1006-9
format	Article
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These results suggest that the RNase G mutation could be applied in the breeding of producer strains of pyruvate and its derivatives such as valine.</description><subject>Acetolactate Synthase - genetics</subject><subject>Bacteria</subject><subject>Bacterial Proteins - genetics</subject><subject>Biological and medical sciences</subject><subject>Biotechnology</subject><subject>Culture Media</subject><subject>E coli</subject><subject>Endoribonucleases - genetics</subject><subject>Endoribonucleases - metabolism</subject><subject>Enzymes</subject><subject>Escherichia coli</subject><subject>Escherichia coli - growth & development</subject><subject>Escherichia coli - metabolism</subject><subject>Escherichia coli Proteins - genetics</subject><subject>Escherichia coli Proteins - metabolism</subject><subject>Fundamental and applied biological sciences. 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Psychology</topic><topic>Gene Expression Regulation, Bacterial</topic><topic>Glucose</topic><topic>Glycolysis</topic><topic>Isoenzymes</topic><topic>Mutation</topic><topic>pyruvic acid</topic><topic>Pyruvic Acid - metabolism</topic><topic>Regulatory Elements, Transcriptional - physiology</topic><topic>Repressor Proteins - genetics</topic><topic>RNase G</topic><topic>valine</topic><topic>Valine - metabolism</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Sakai, Taro</creatorcontrib><creatorcontrib>Nakamura, Naoko</creatorcontrib><creatorcontrib>Umitsuki, Genryou</creatorcontrib><creatorcontrib>Nagai, Kazuo</creatorcontrib><creatorcontrib>Wachi, Masaaki</creatorcontrib><collection>AGRIS</collection><collection>Pascal-Francis</collection><collection>Medline</collection><collection>MEDLINE</collection><collection>MEDLINE (Ovid)</collection><collection>MEDLINE</collection><collection>MEDLINE</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>ProQuest Central (Corporate)</collection><collection>Bacteriology Abstracts (Microbiology B)</collection><collection>Industrial and Applied Microbiology Abstracts (Microbiology A)</collection><collection>ABI/INFORM Collection</collection><collection>ABI/INFORM Global (PDF only)</collection><collection>Health & Medical Collection</collection><collection>ProQuest Central (purchase pre-March 2016)</collection><collection>ABI/INFORM Global (Alumni Edition)</collection><collection>Biology Database (Alumni Edition)</collection><collection>Medical Database (Alumni Edition)</collection><collection>Science Database (Alumni Edition)</collection><collection>ProQuest Pharma Collection</collection><collection>Technology Research Database</collection><collection>ProQuest SciTech Collection</collection><collection>ProQuest Natural Science Collection</collection><collection>Hospital Premium Collection</collection><collection>Hospital Premium Collection (Alumni Edition)</collection><collection>ProQuest Central (Alumni) (purchase pre-March 2016)</collection><collection>ABI/INFORM Collection (Alumni Edition)</collection><collection>ProQuest Central (Alumni Edition)</collection><collection>ProQuest One Sustainability</collection><collection>ProQuest Central UK/Ireland</collection><collection>ProQuest Central Essentials</collection><collection>Biological Science Collection</collection><collection>ProQuest Central</collection><collection>Business Premium Collection</collection><collection>Natural Science Collection</collection><collection>Environmental Sciences and Pollution Management</collection><collection>ProQuest One Community College</collection><collection>ProQuest Central Korea</collection><collection>Engineering Research Database</collection><collection>Business Premium Collection (Alumni)</collection><collection>Health Research Premium Collection</collection><collection>ABI/INFORM Global (Corporate)</collection><collection>Health Research Premium Collection (Alumni)</collection><collection>ProQuest Central Student</collection><collection>SciTech Premium Collection</collection><collection>ProQuest Business Collection (Alumni Edition)</collection><collection>ProQuest Business Collection</collection><collection>ProQuest Health & Medical Complete (Alumni)</collection><collection>ABI/INFORM Professional Advanced</collection><collection>ProQuest Biological Science Collection</collection><collection>ABI/INFORM Global</collection><collection>Health & Medical Collection (Alumni Edition)</collection><collection>Medical Database</collection><collection>Science Database</collection><collection>Algology Mycology and Protozoology Abstracts (Microbiology C)</collection><collection>Biological Science Database</collection><collection>Biotechnology and BioEngineering Abstracts</collection><collection>ProQuest One Business</collection><collection>ProQuest One Business (Alumni)</collection><collection>ProQuest One Academic Eastern Edition (DO NOT USE)</collection><collection>ProQuest One Academic</collection><collection>ProQuest One Academic UKI Edition</collection><collection>ProQuest Central Basic</collection><collection>Biotechnology Research Abstracts</collection><collection>MEDLINE - 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In this study, we found that an RNase G mutant derived from the MC1061 strain did not grow on a glucose minimal medium. Genetic analysis revealed that simultaneous defects of cra and ilvIH, encoding a transcriptional regulator of glycolysis/gluconeogenesis and one of isozymes of acetohydroxy acid synthase, respectively, were required for this phenomenon to occur. The results of additional experiments presented here indicate that the RNase G mutation, in combination with cra mutation, caused the increased production of pyruvic acid from glucose, which was then preferentially converted to valine due to the ilvIH mutation, resulting in depletion of isoleucine. In fact, the rng cra double mutant produced increased amount of pyruvate in the medium. These results suggest that the RNase G mutation could be applied in the breeding of producer strains of pyruvate and its derivatives such as valine.</abstract><cop>Berlin</cop><pub>Berlin/Heidelberg : Springer-Verlag</pub><pmid>17483940</pmid><doi>10.1007/s00253-007-1006-9</doi><tpages>10</tpages></addata></record>
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subjects	Acetolactate Synthase - genetics Bacteria Bacterial Proteins - genetics Biological and medical sciences Biotechnology Culture Media E coli Endoribonucleases - genetics Endoribonucleases - metabolism Enzymes Escherichia coli Escherichia coli - growth & development Escherichia coli - metabolism Escherichia coli Proteins - genetics Escherichia coli Proteins - metabolism Fundamental and applied biological sciences. Psychology Gene Expression Regulation, Bacterial Glucose Glycolysis Isoenzymes Mutation pyruvic acid Pyruvic Acid - metabolism Regulatory Elements, Transcriptional - physiology Repressor Proteins - genetics RNase G valine Valine - metabolism
title	Increased production of pyruvic acid by Escherichia coli RNase G mutants in combination with cra mutations
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