Soybean Seed Lectin Prevents the Accumulation of S-Adenosyl Methionine Synthetase And the S1 30S Ribosomal Protein in Bradyrhizobium japonicum Under C and N Starvation

Soybean lectin (SBL) participates in the recognition between Bradyrhizobium japonicum and soybean although its role remains unknown. To search for changes in the proteome in response to SBL, B. japonicum USDA 110 was incubated for 12 h in a C- and N-free medium with or without SBL (10 μg ml −1), and...

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Veröffentlicht in:	Current microbiology 2012-10, Vol.65 (4), p.465-474
Hauptverfasser:	Pérez-Giménez, Julieta, Covelli, Julieta M, López, M. Florencia, Althabegoiti, M. Julia, Ferrer-Navarro, Mario, Mongiardini, Elías J, Lodeiro, Aníbal R
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Schlagworte:	Abiotic stress Bacteria Bacterial proteins Biomedical and Life Sciences Biotechnology Bradyrhizobium - drug effects Bradyrhizobium - metabolism Bradyrhizobium japonicum Carbon - metabolism Culture Media - chemistry Gene Expression Regulation, Bacterial - drug effects Glycine max - chemistry Lectins Lectins - isolation & purification Lectins - pharmacology Life Sciences malnutrition messenger RNA Methionine methionine adenosyltransferase Methionine Adenosyltransferase - antagonists & inhibitors methionine synthase Microbiology Nitrogen - metabolism Nutrient deficiency Polypeptides proteome ribosomal protein S1 Ribosomal proteins Ribosomal Proteins - antagonists & inhibitors Seeds Seeds - chemistry Soil microorganisms Soybeans Starvation stress response Transcription Translation translation (genetics)
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container_title	Current microbiology
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creator	Pérez-Giménez, Julieta Covelli, Julieta M López, M. Florencia Althabegoiti, M. Julia Ferrer-Navarro, Mario Mongiardini, Elías J Lodeiro, Aníbal R
description	Soybean lectin (SBL) participates in the recognition between Bradyrhizobium japonicum and soybean although its role remains unknown. To search for changes in the proteome in response to SBL, B. japonicum USDA 110 was incubated for 12 h in a C- and N-free medium with or without SBL (10 μg ml −1), and the soluble protein profiles were compared. Two polypeptides, S-adenosyl-methionine synthetase (MetK) and the 30S ribosomal protein S1 (RpsA), were found only in the fractions from rhizobia incubated without SBL. Transcript levels of metK and rpsA were not correlated with polypeptide levels, indicating that there was regulation at translation. In support of this proposal, the 5′ translation initiation-region of rpsA mRNA contained folding elements as those involved in regulation of its translation in other species. Disappearance of MetK and RpsA from the soluble protein fractions of SBL-treated rhizobia suggests that SBL might have attenuated the nutritional stress response of B. japonicum.
doi_str_mv	10.1007/s00284-012-0180-x
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In support of this proposal, the 5′ translation initiation-region of rpsA mRNA contained folding elements as those involved in regulation of its translation in other species. 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Two polypeptides, S-adenosyl-methionine synthetase (MetK) and the 30S ribosomal protein S1 (RpsA), were found only in the fractions from rhizobia incubated without SBL. Transcript levels of metK and rpsA were not correlated with polypeptide levels, indicating that there was regulation at translation. In support of this proposal, the 5′ translation initiation-region of rpsA mRNA contained folding elements as those involved in regulation of its translation in other species. Disappearance of MetK and RpsA from the soluble protein fractions of SBL-treated rhizobia suggests that SBL might have attenuated the nutritional stress response of B. japonicum.</description><subject>Abiotic stress</subject><subject>Bacteria</subject><subject>Bacterial proteins</subject><subject>Biomedical and Life Sciences</subject><subject>Biotechnology</subject><subject>Bradyrhizobium - drug effects</subject><subject>Bradyrhizobium - metabolism</subject><subject>Bradyrhizobium japonicum</subject><subject>Carbon - metabolism</subject><subject>Culture Media - chemistry</subject><subject>Gene Expression Regulation, Bacterial - drug effects</subject><subject>Glycine max - chemistry</subject><subject>Lectins</subject><subject>Lectins - isolation & purification</subject><subject>Lectins - pharmacology</subject><subject>Life Sciences</subject><subject>malnutrition</subject><subject>messenger RNA</subject><subject>Methionine</subject><subject>methionine adenosyltransferase</subject><subject>Methionine Adenosyltransferase - antagonists & inhibitors</subject><subject>methionine synthase</subject><subject>Microbiology</subject><subject>Nitrogen - metabolism</subject><subject>Nutrient deficiency</subject><subject>Polypeptides</subject><subject>proteome</subject><subject>ribosomal protein S1</subject><subject>Ribosomal proteins</subject><subject>Ribosomal Proteins - antagonists & inhibitors</subject><subject>Seeds</subject><subject>Seeds - chemistry</subject><subject>Soil microorganisms</subject><subject>Soybeans</subject><subject>Starvation</subject><subject>stress response</subject><subject>Transcription</subject><subject>Translation</subject><subject>translation (genetics)</subject><issn>0343-8651</issn><issn>1432-0991</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2012</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><sourceid>8G5</sourceid><sourceid>ABUWG</sourceid><sourceid>AFKRA</sourceid><sourceid>AZQEC</sourceid><sourceid>BENPR</sourceid><sourceid>CCPQU</sourceid><sourceid>DWQXO</sourceid><sourceid>GNUQQ</sourceid><sourceid>GUQSH</sourceid><sourceid>M2O</sourceid><recordid>eNp1kctu1DAYhSMEokPhAdiAJTZsAr7l4uUwgoI0XESYtWUnfzoZJfbUTqqGF-I1-09TEEJCsmXZ_s45lk-SPGf0DaO0eBsp5aVMKeM4S5rePEhWTArcKcUeJisqpEjLPGNnyZMYDxRBRdnj5IzzouQyL1fJr8rPFowjFUBDtlCPnSPfAlyDGyMZ90DWdT0NU2_GzjviW1Kl6wacj3NPPsO4x9POAalmh_BoIgpccyesGBG0It8766MfTI-2fgS0x_EumGYO--6nt900kIM5og3mkJ1rIJANMWjyhVSjCdd3yU-TR63pIzy7X8-T3Yf3PzYf0-3Xi0-b9TatZcHH1NpMZMJwgz-T2RxsrjIJpeIsp21rs7JuZdEoYQSDomlZqVrFueBS2DxrJBXnyevF9xj81QRx1EMXa-h748BPUTOaK6Yk4yf01T_owU_B4euQEgXPlRAcKbZQdfAxBmj1MXSDCTNC-tSiXlrUWI4-tahvUPPi3nmyAzR_FL9rQ4AvQMQrdwnh7-j_u75cRK3x2lyGLupdxSmTlNKM5lkhbgEXqbE-</recordid><startdate>20121001</startdate><enddate>20121001</enddate><creator>Pérez-Giménez, Julieta</creator><creator>Covelli, Julieta M</creator><creator>López, M. 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To search for changes in the proteome in response to SBL, B. japonicum USDA 110 was incubated for 12 h in a C- and N-free medium with or without SBL (10 μg ml −1), and the soluble protein profiles were compared. Two polypeptides, S-adenosyl-methionine synthetase (MetK) and the 30S ribosomal protein S1 (RpsA), were found only in the fractions from rhizobia incubated without SBL. Transcript levels of metK and rpsA were not correlated with polypeptide levels, indicating that there was regulation at translation. In support of this proposal, the 5′ translation initiation-region of rpsA mRNA contained folding elements as those involved in regulation of its translation in other species. 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subjects	Abiotic stress Bacteria Bacterial proteins Biomedical and Life Sciences Biotechnology Bradyrhizobium - drug effects Bradyrhizobium - metabolism Bradyrhizobium japonicum Carbon - metabolism Culture Media - chemistry Gene Expression Regulation, Bacterial - drug effects Glycine max - chemistry Lectins Lectins - isolation & purification Lectins - pharmacology Life Sciences malnutrition messenger RNA Methionine methionine adenosyltransferase Methionine Adenosyltransferase - antagonists & inhibitors methionine synthase Microbiology Nitrogen - metabolism Nutrient deficiency Polypeptides proteome ribosomal protein S1 Ribosomal proteins Ribosomal Proteins - antagonists & inhibitors Seeds Seeds - chemistry Soil microorganisms Soybeans Starvation stress response Transcription Translation translation (genetics)
title	Soybean Seed Lectin Prevents the Accumulation of S-Adenosyl Methionine Synthetase And the S1 30S Ribosomal Protein in Bradyrhizobium japonicum Under C and N Starvation
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