Rcs双组分调节系统对细菌环境应答的分子调控研究进展

荚膜异多糖酸合成调节(Regulator of Capsule Synthesis,Rcs)系统是存在于许多肠杆菌科细菌中非典型的双组分调节系统,由3种核心蛋白(跨膜感应激酶RcsC、跨膜蛋白RcsD和响应调节剂RcsB)及多种辅助蛋白共同构成.Rcs系统能整合环境信号、调节基因表达并改变细菌的生理行为.近年来,对细菌...     

细菌Cpx双组分信号转导系统应对外界环境变化的响应调节机制研究进展

细菌能够在其他微生物无法生存的环境中生长,必然具有更加强大的适应外界环境的能力.细胞信号转导的效率决定了细菌对外界刺激做出应答反应的速率和能力.双组分调控系统是维持细菌在压力环境中存活的重要结构.Cpx双组分信号转导系统是革兰氏阴性菌中普遍存在的双组分调控系统之一,在响应外界环境变化并做出适应性反应的过程中起着主要作用...     

葡萄球菌呼吸相关双组分系统SrrAB研究进展

葡萄球菌呼吸相关双组分系统SrrAB能感应外界O2浓度,并将信号传至胞内,调控下游基因的转录,以应对外界环境的变化。有研究表明,金黄色葡萄球菌SrrAB在有氧条件下促进毒力因子的表达,抑制生物膜的形成;在厌氧条件下抑制毒力因子的表达,促进生物膜的形成。另外,在有氧及厌氧条件下,金黄色葡萄球菌SrrAB调控生长代谢的途径也不一致。表皮葡萄球菌中也存在类似的双组分系统SrrAB,且与金黄色葡萄球菌SrrAB具有较高同源性,但目前尚不清楚两者在生长代谢及毒力调控方面的异同。结合课题组研究工作,简要综述葡萄球菌SrrAB的调控机制,着重比较其在有氧及厌氧条件下的调控差异,这对临床诊治葡萄球菌引起的感染具有一定的借鉴意义。     

SUMO基因的内在原核启动子活性及其在大肠杆菌蛋白表达系统中的应用

SUMO融合系统已成为目前大肠杆菌重组蛋白生产的重要手段,但在载体构建效率和蛋白可溶性等方面仍有待改进。本研究在PCR克隆酿酒酵母SUMO基因Smt3(Sm) 时意外发现Sm具有组成型原核启动子活性;而且经软莓BPROM程序预测发现大多数物种SUMO基因编码区都具有依赖s70的原核启动子。进一步通过整合Sm启动子和Sm 3￠末端StuⅠ位点特性以及引入His标签和超酸增溶标签,构建了基于Sm’-LacZα融合基因的一系列通用克隆表达载体,并通过蓝白斑筛选和SDS-PAGE分析进行了多个靶蛋白基因的克隆和表     

Comparative analysis of two-component signal transduction system in two streptomycete genomes

Species of the genus Streptomyces are major bacteria responsible for producing most natural antibiotics. Streptomyces coelicolor A3(2) and Streptomyces avermitilis were sequenced in 2002 and 2003, respectively. Two-component signal transduction systems (TCSs), consisting of a histidine sensor kinase (SK) and a cognate response regulator (RR), form the most common mechanism of transmembrane signal transduction in prokaryotes. TCSs in S. coelicolor A3(2) have been analyzed in detail. Here, we identify and classify the SK and RR of S. avermitilis and compare the TCSs with those of S. coelicolor A3(2) by computational approaches. Phylogenetic analysis of the cognate SK-RR pairs of the two species indicated that the cognate SK-RR pairs fall into four classes according to the distribution of their orthologs in other organisms. In addition to the cognate SK-RR pairs, some potential partners of non-cognate SK-RR were found, including those of unpaired SK and orphan RR and the cross-talk between different components in either strain. Our study provides new clues for further exploration of the molecular regulation mechanism of streptomycetes with industrial importance.     

Evolution of prokaryotic two-component systems: insights from comparative genomics

Two-component systems (TCSs) are diverse and abundant signal transduction pathways found predominantly in prokaryotes. This review focuses on insights into TCS evolution made possible by the sequencing of whole prokaryotic genomes. Typical TCSs comprise an autophosphorylating protein (a histidine kinase), which transfers a phosphoryl group onto an effector protein (a response regulator), thus modulating its activity. Histidine kinases and response regulators are usually found encoded as pairs of adjacent genes within a genome, with multiple examples in most prokaryotes. Recent studies have shed light on major themes of TCS evolution, including gene duplication, gene gain/loss, gene fusion/fission, domain gain/loss, domain shuffling and the emergence of complexity. Coupled with an understanding of the structural and biophysical properties of many TCS proteins, it has become increasingly possible to draw inferences regarding the functional consequences of such evolutionary changes. In turn, this increase in understanding has the potential to enhance both our ability to rationally engineer TCSs, and also allow us to more powerfully correlate TCS evolution with behavioural phenotypes and ecological niche occupancy.     

The two-component system sivS/R regulates virulence in Streptococcus iniae

Streptococcus iniae causes invasive disease and death in fish, and to a lesser extent, sporadic cases of soft-tissue infections in humans. A two-component system termed sivS/R, which regulates capsule expression, was previously identified and characterized. In this study, it is shown that a sivS/R deletion-insertion mutant, termed 9117Deltasiv, causes transient bacteremia and reduced virulence compared with the parent strain when tested in a murine model of bacteremic infection. Furthermore, real-time PCR studies indicated that SivS/R regulates the expression levels of the streptolysin S structural gene, sagA, as well as the CAMP factor gene, cfi. Sodium dodecyl sulphate polyacrylamide gel electrophoresis of S. iniae spheroplasts revealed downregulation of three surface proteins in the mutant strain compared with the parent strain. These proteins were identified by MS to be a putative lipoprotein, a hyaluronate-associated protein and a pyruvate kinase. This study demonstrates that SivS/R regulates virulence in vivo, and controls the expression of a number of genes in S. iniae.     

双组份系统YvcPQ抑制苏云金芽胞杆菌的芽胞形成

【目的】探究双组份系统YvcPQ影响芽胞形成的机制。【方法】利用β-半乳糖苷酶活性实验验证YvcP对芽胞形成抑制因子KapD的调控作用;通过无痕基因敲除并分别比较突变株与出发菌株的芽胞产率,研究YvcPQ及KapD对芽胞形成的影响;应用细菌单杂交实验、EMSA实验和实时荧光定量PCR技术探究转录调控因子AbrB对yvcPQ操纵子的转录调节。【结果】YvcP可以正调控kapD的表达,从而抑制芽胞形成;yvcPQ不能受YvcP的自调控,而是受AbrB转录激活。【结论】调控因子AbrB能够通过正调控yvcPQ操纵子的转录来提高细胞内YvcP的含量,进而增强YvcP对芽胞形成抑制因子编码基因kapD的表达,最终抑制芽胞的形成。     

Temporal and evolutionary dynamics of two-component signaling pathways

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Enhancement of organophosphorus hydrolase yield in Escherichia coli using multiple gene fusions

It was previously shown that organophosphorus hydrolase (OPH) expression and purification could be tracked by fluorescence of green fluorescent protein (GFP) when synthesized as an N-terminal fusion with GFP (Cha et al., 2000; Wu et al., 2000). In order to enhance OPH productivity while utilizing the advantage of the reporter protein (GFP), two copies of OPH were cloned in tandem following the gfp(uv) gene (e.g., GFP-OPH(n=2)). Both anti-GFP and anti-OPH Western blots demonstrated that a higher yield was achieved in comparison to the one copy fusion (GFP-OPH). Importantly, the fusion protein was still fluorescent as determined via microscopy. In contrast, a fusion containing two copies of OPH without GFP, and an operon fusion of two OPHs with two independent ribosomal binding sites, did not result in a higher yield than one OPH expressed alone.     

Lateral gene transfer of a multigene region from cyanobacteria to dinoflagellates resulting in a novel plastid-targeted fusion protein

The number of cases of lateral or horizontal gene transfer ineukaryotic genomes is growing steadily, but in most cases, neitherthe donor nor the recipient is known, and the biological implicationsof the transfer are not clear. We describe a relatively well-definedcase of transfer from a cyanobacterial source to an ancestorof dinoflagellates that diverged before Oxyrrhis but after Perkinsus.This case is also exceptional in that 2 adjacent genes, a paralogueof the shikimate biosynthetic enzyme AroB and an O-methyltransferase(OMT) were transferred together and formed a fusion proteinthat was subsequently targeted to the dinoflagellate plastid.Moreover, this fusion subsequently reverted to 2 individualgenes in the genus Karlodinium, but both proteins maintainedplastid localization with the OMT moiety acquiring its own plastid-targetingpeptide. The presence of shikimate biosynthetic enzymes in theplastid is not unprecedented as this is a plastid-based pathwayin many eukaryotes, but this species of OMT has not been associatedwith the plastid previously. It appears that the OMT activitywas drawn into the plastid simply by virtue of its attachmentto the AroB paralogue resulting from their cotransfer and oncein the plastid performed some essential function so that itremained plastid targeted after it separated from AroB. Genefusion events are considered rare and likely stable, and suchan event has recently been used to argue for a root of the eukaryotictree. Our data, however, show that exact reversals of fusionevents do take place, and hence gene fusion data are difficultto interpret without knowledge of the phylogeny of the organisms—thereforetheir use as phylogenetic markers must be considered carefully.     

Systemic inactivation and phenotypic characterization of two-component systems in expression of Streptococcus mutans virulence properties

AIM: To assess potential function of each two-component signal transduction system in the expression of Streptococcus mutans virulence properties. METHODS AND RESULTS: For each two-component system (TCS), the histidine kinase-encoding gene was inactivated by a polymerase chain reaction (PCR)-based deletion strategy and the effects of gene disruption on the cell's ability to form biofilms, become competent, and tolerate acid, osmotic, and oxidative stress conditions were tested. Our results demonstrated that none of the mutations were lethal for S. mutans. The TCS-2 (CiaRH) is involved in biofilm formation and tolerance to environmental stresses, the TCS-3 (ScnRK-like) participates in the survival of cells at acidic pH, and the TCS-9 affects the acid tolerance response and the process of streptococcal competence development. CONCLUSIONS: Our results confirmed the physiological role of the TCS in S. mutans cellular function, in particular the SncRK-like TCS and TCS-9 as they may represent new regulatory systems than can be involved in S. mutans pathogenesis. SIGNIFICANCE AND IMPACT OF THE STUDY: Multiple TCS govern important biological parameters of S. mutans enabling its survival and persistence in the biofilm community.     

Rate and polarity of gene fusion and fission in Oryza sativa and Arabidopsis thaliana

Eukaryotic gene fusion and fission events are mechanistically more complicated than in prokaryotes, and their quantitative contributions to genome evolution are still poorly understood. We have identified all differentially composite or split genes in 2 fully sequenced plant genomes, Oryza sativa and Arabidopsis thaliana. Out of 10,172 orthologous gene pairs, 60 (0.6% of the total) revealed a verified fusion or fission event in either lineage after the divergence of O. sativa and A. thaliana. Polarizing these events by outgroup comparison revealed differences in the rate of gene fission but not of gene fusion in the rice and Arabidopsis lineages. Gene fission occurred at a higher rate than gene fusion in the O. sativa lineage and was furthermore more common in rice than in Arabidopsis. Nucleotide insertion bias has promoted gene fission in the O. sativa lineage, consistent with its generally longer nucleotide sequences than A. thaliana in selectively neutral regions, and with the abundance of transposable elements in rice. The divergence time of monocots and dicots (140-200 Myr) indicates that gene fusion/fission events occur at an average rate of 1x10(-11) to 2x10(-11) events per gene per year, approximately 100-fold slower than the average per site nuclear nucleotide substitution rate in these lineages. Gene fusion and fission are thus rare and slow processes in higher plant genomes; they should be of utility to address deeper evolutionary relationships among plants--and the relationship of plants to other eukaryotic lineages--where sequence-based phylogenies provide equivocal or conflicting results.     

SVISS - a novel transient gene silencing system for gene function discovery and validation in tobacco plants

We developed a novel, two-component transient gene silencing system in which the satellite tobacco mosaic virus (STMV) is used as vector for the delivery of inhibitory RNA into tobacco plants and the tobacco mosaic virus strain U2 (TMV-U2) is used as helper virus for supplying replication and movement proteins in trans. The main advantage of the system is that by uncoupling virus replication components from silencing induction components, the intensity of silencing becomes more pronounced. We call this system satellite virus-induced silencing system (SVISS) and will demonstrate here its robustness, speed and effectiveness. We were able to obtain pronounced and severe knockout phenotypes for a range of targeted endogenous genes belonging to various biochemical pathways and expressed in different plant tissues, such as genes involved in leaf and flower pigmentation, genes for cell wall synthesis in leaf, stem and root tissues or a ubiquitous RNA polymerase gene. By tandem insertion of more than one target gene sequence into the vector, we were able to induce simultaneous knockouts of an endogenous gene and a transgene. SVISS is the first transient gene silencing system for Nicotiana tabacum, which is a genetically well-characterized bridging species for the Solanaceae plant family.     

Characterization of the Arc two-component signal transduction system of the capnophilic rumen bacterium Mannheimia succiniciproducens

The ArcB/A two-component signal transduction system of Escherichia coli modulates the expression of numerous operons in response to redox conditions of growth. We demonstrate that the putative arcA and arcB genes of Mannheimia succiniciproducens MBEL55E, a capnophilic (CO2-loving) rumen bacterium, encode functional proteins that specify a two-component system. The Arc proteins of the two bacterial species sufficiently resemble each other that they can participate in heterologous transphosphorylation in vitro, and the arcA and arcB genes of M. succiniciproducens confer toluidine blue resistance to E. coli arcA and arcB mutants. However, neither the quinone analogs (ubiquinone 0 and menadione) nor the cytosolic effectors (d-lactate, acetate, and pyruvate) affect the net phosphorylation of M. succiniciproducens ArcB. Our results indicate that different types of signaling molecules and distinct modes of kinase regulation are used by the ArcB proteins of E. coli and M. succiniciproducens.