OmpR and EnvZ are pleiotropic regulatory proteins: positive regulation of the tripeptide permease (tppB) of Salmonella typhimurium

Summary The tppB locus of Salmonella typhimurium encodes the anaerobically-induced tripeptide permease. We have demonstrated that expression of tppB requires the function of the ompR and envZ gene products, originally identified as positive regulatory proteins required for the osmotic regulation of porin expression. Significantly, tppB expression is not osmotically regulated. We have also identified three additional genes whose expression depends on OmpR. Thus OmpR and EnvZ serve a more general regulatory role than has previously been supposed. This study provides the first detailed genetic analysis of the ompB locus of S. typhimurium.     

Purification and Some Properties of β-Fructofuranosidase from Bifidobacterium adolescentis G1

A unique β-fructofuranosidase was purified from the extract of Bifidobacterium adolescentis G1 by anion-exchange, hydrophobic, and gel filtration chromatographies, and preparative electrophoresis. The molecular mass was 74kDa by SDS–PAGE, and the isoelectric point was pH 4.5. The enzyme was a monomeric protein. The pH optimum was at 6.1. The enzyme was stable at pH from 6.5 to 10.0, and up to 45°C. The neutral sugar content was 1.2%. The enzyme hydrolyzed 1-kestose faster than sucrose or inulin. The hydrolytic activity was strongly inhibited by Cu²⁺, Ag⁺, Hg⁺, and ρ-chloromercuribenzoic acid. The K_m (mM) and k₀ (s^?1) were: 1-kestose, 1.1 and 231; sucrose, 11 and 59.0; inulin, 8.0 and 149, respectively. From the kinetic results, β-fructofuranosidase from B. adolescentis G1 was concluded to have a high affinity for 1-kestose, thus differing from invertases and exo-inulinases in substrate specificity.     

Effects of Meat-conditioning and Lactic Fermentation on Pork Muscle Protein Degradation

Fresh and conditioed pork were incubated with and without lactic acid bacteria, and the meat protein degradation during incubation was investigatd. The combination of meat-conditioning and addition of lactic acid bacteria considerably accelerated the protein degradation of meat mixtures. It was considered that the protein degradation in the lactic fermented pork was caused by proteases originated in meats, and both meat-conditioning and lactic acid fermentation acted as enhancing effectors.     

Preparation and Reaction of Stable β-Keto bis-sulfonium Ylid

Novel carbonyl-stabilized bis-sulfonium ylids I, II and III, were synthesized for the purpose of revealing their physicochemical properties as well as exploiting their synthetic application. The treatment of these ylides with phenylisocyanate gave stable bis-carbamoyl sulfomum ylids. The reaction with some α,β-unsaturated carbonyl compounds resulted in the Michael type addition to afford the corresponding bis-cyclopropane derivatives. The solvent polarity dependence of stereochemistry of the cyclopropane formation was observed in the reaction of ylids with chalcone.     

The cysteine 354 and 277 residues of Salmonella enterica serovar Typhi EnvZ are determinants of autophosphorylation and OmpR phosphorylation

An initial biochemical characterization of the Salmonella enterica serovar Typhi ( S . Typhi) EnvZ sensor protein and several mutant derivatives was performed. Autophosphorylation levels were higher for Escherichia coli EnvZ, intermediate for S. enterica serovar Typhimurium EnvZ and very low for S . Typhi EnvZ, in spite of their high amino acid sequence identity. Consequently, OmpR phosphorylation was related to EnvZ autophosphorylation. Among the mutant derivatives, a C354G mutation in S . Typhi EnvZ resulted in a substantial increase in autophosphorylation, while mutation of its other cysteine residue at position 277 to L or S decreased the EnvZ autophosphorylation level. Upon heterodimerization, the S . Typhi C354G mutant complemented the wild type in vitro , increasing the EnvZ-P yield of both monomers, in accordance with the model where EnvZ autophosphorylation occurs in trans , indicating that dimer formation is a dynamic process. Hence, the C354 and the C277 residues are fundamental in determining the particular intrinsic biochemical characteristics of EnvZ.     

Engineered fumarate sensing Escherichia coli based on novel chimeric two-component system

DcuS/DcuR two component system (TCS) was firstly employed for the expression of the gfp gene under the dcuB gene promoter in aerobic condition to develop high throughput screening system able to screen microorganisms producing high amount of fumarate. However, the DcuS/DcuR TCS could not produce a signal strong enough to mediate the expression of the gfp gene responding fumarate concentration. Thus, DcuS/DucR TCS was engineered by recruiting the EnvZ/OmpR system, the most-studied TCS in E. coli. A chimeric DcuS/EnvZ (DcuSZ) TCS was constructed by fusing the sensor histidine kinase of DcuS with the cytoplasmic catalytic domain of EnvZ, in which the expression of the gfp gene or the ompC gene was mediated by the ompC gene promoter through the cognate response regulator, OmpR. The output signals produced by the chimeric DcuSZ TCS were enough to detect fumarate concentration quantatively, in which the expressions of the gfp gene and the ompC gene were proportional to the fumarate concentration in the medium. Moreover, principal component analysis of C₄-dicarboxylates showed that DcuSZ chimera was highly specific to fumarate but could also respond to other C₄-dicarboxylates, which strongly suggests that TCS-based high throughput screening system able to screen microorganisms producing target chemicals can be developed.     

The EnvZ protein of Salmonella typhimurium LT-2 and Escherichia coli K-12 is located in the cytoplasmic membrane

Abstract The osmoregulated expression of the porin proteins OmpC and OmpF in S. typhimurium and E. coli is dependent on the regulatory proteins OmpR and EnvZ. The function of the EnvZ protein is not clear. In order to establish the cellular location of EnvZ two different methods of buoyant sucrose density centrifugation was employed. The presence of EnvZ in the different fractions was visualised by immunoblotting. It was conclusively shown that the EnvZ protein is located in the cytoplasmic membrane fraction. The result is in agreement with the available sequence data which shows that the EnvZ polypeptide contains two long hydrophobic stretches.     

Engineering an Osmosensor by Pivotal Histidine Positioning within Disordered Helices

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双组分系统EnvZ/OmpR促进副溶血弧菌抵抗碱胁迫的作用机制

【目的】探究双组分系统(two-component system,TCS)EnvZ/OmpR对副溶血弧菌(Vibrio parahaemolyticus,VP)抵抗碱胁迫的作用机制。【方法】用SMART在线工具(https://smart.embl.de/)鉴定出副溶血弧菌基因组中的双组分系统EnvZ/OmpR,再利用同源重组技术将envZ和ompR基因分别进行缺失,构建相应回补株,比较各菌株的生长曲线来检测相应基因对细菌适应高渗透胁迫和碱胁迫的作用,并结合qRT-PCR及荧光检测系统,筛选参与EnvZ/OmpR抵抗碱胁迫的下游靶基因,鉴定该双组分系统对下游基因的调控机制。【结果】在副溶血弧菌基因组中鉴定出vp0155/vp0154编码EnvZ/OmpR双组分系统同源蛋白。△ompR菌株在高渗透胁迫和碱胁迫中的生长能力明显弱于野生株,而回补株C△ompR、△envZ和C△envZ菌株生长能力与野生株类似。在△ompR菌株中,孔道蛋白基因vp1218、vp0493、vpa1745、vpa0085与vpa1308的转录水平均明显低于野生株,并且发现这些孔道蛋白基因缺失株(△vpa1308除外)在碱性环境中生长能力均明显弱于野生株。OmpR蛋白可直接抑制调控因子AphB基因转录,而△aphB菌株在碱胁迫中的生长能力明显强于野生株。此外,AphB蛋白可直接抑制孔道蛋白基因vp0493和vpa0085转录。【结论】双组分系统EnvZ/OmpR促进副溶血弧菌抵抗碱胁迫,其中OmpR蛋白可通过抑制调控因子AphB的表达,以促进部分孔道蛋白的表达,从而增强副溶血弧菌抵抗碱胁迫的能力。