苏云金芽孢杆菌双组份信号转导系统的生物信息学分析

苏云金芽孢杆菌(Bacillus thuringiensis)能产生杀虫晶体蛋白等多种活性成分,是目前应用最广泛的微生物杀虫剂。本文采用生物信息学方法,系统分析了由本实验室完成全基因组测序的苏云金芽孢杆菌YBT-1520、CT-43和BMB171 3个菌株的双组分信号转导系统(Two-componentsignal transduction system,TCS)的分布、结构及功能,并初步构建了部分TCS的调控网络关系图。本研究旨在为深入研究苏云金芽孢杆菌的生长、代谢以及毒力因子的表达与调控,全面了解伴孢晶体的形成机制开辟新的研究方向。     

Evolution of two-component signal transduction

Two-component signal transduction (TCST) systems are the principal means for coordinating responses to environmental changes in bacteria as well as some plants, fungi, protozoa, and archaea. These systems typically consist of a receptor histidine kinase, which reacts to an extracellular signal by phosphorylating a cytoplasmic response regulator, causing a change in cellular behavior. Although several model systems, including sporulation and chemotaxis, have been extensively studied, the evolutionary relationships between specific TCST systems are not well understood, and the ancestry of the signal transduction components is unclear. Phylogenetic trees of TCST components from 14 complete and 6 partial genomes, containing 183 histidine kinases and 220 response regulators, were constructed using distance methods. The trees showed extensive congruence in the positions of 11 recognizable phylogenetic clusters. Eukaryotic sequences were found almost exclusively in one cluster, which also showed the greatest extent of domain variability in its component proteins, and archaeal sequences mainly formed species-specific clusters. Three clusters in different parts of the kinase tree contained proteins with serine-phosphorylating activity. All kinases were found to be monophyletic with respect to other members of their superfamily, such as type II topoisomerases and Hsp90. Structural analysis further revealed significant similarity to the ATP-binding domain of eukaryotic protein kinases. TCST systems are of bacterial origin and radiated into archaea and eukaryotes by lateral gene transfer. Their components show extensive coevolution, suggesting that recombination has not been a major factor in their differentiation. Although histidine kinase activity is prevalent, serine kinases have evolved multiple times independently within this family, accompanied by a loss of the cognate response regulator(s). The structural and functional similarity between TCST kinases and eukaryotic protein kinases raises the possibility of a distant evolutionary relationship.     

A new tyrosine phosphorylation mechanism involved in signal transduction in Bacillus subtilis

A new kind of prokaryotic protein tyrosine kinase was recently discovered, utilizing a guanidino-phosphotransferase domain for its kinase activity. Guanidino kinase domains originate from eukaryotic phosphagen kinases, a family of phosphoryl transfer enzymes with no homology to the serine/threonine and tyrosine kinase superfamily. Nevertheless, this kinase, McsB, exhibits the main structural and functional properties of prokaryotic tyrosine kinases. Tyrosine phosphorylation in bacteria is predominantly described to be involved in the regulation of exopolysaccharide synthesis and is therefore required for biofilm formation and virulence. McsB on the other hand modulates together with its activator protein, McsA, the activity of the repressor of the class III heat shock genes in B. subtilis. The analogy of the kinase mechanism of McsB to tyrosine kinases implicates that tyrosine kinases may harbor various and independently evolved domains for ATP-binding/hydrolysis and the transfer of the gamma-phosphate of ATP onto tyrosine residues.     

Expression of genes for guanyl-specific ribonucleases in Bacillus intermedius and Bacillus pumilus is regulated by the PhoP-PhoR two-component signal transduction system of PHO regulon of Bacillus subtilis]

Promoters of the genes of guanyl-specific ribonucleases of Bacillus intermedius (binase) and Bacillus pumilus (RNase Bp) were found to contain sequences homologous to those recognizable by the regulatory protein PhoP in the promoters of the PHO regulon of B. subtilis, as well as regions partially homologous to the binding sites of another regulatory protein, PhoB, in the promoters of the PHO regulon of Escherichia coli. The role of the two-component regulatory systems PhoP-PhoR and PhoB-PhoR in the regulation of expression of the genes of binase and RNase Bp in recombinant strains of B. subtilis and E. coli was studied by using mutant strains. It was established that the expression of these genes in recombinant B. subtilis cells is stringently controlled by the PhoP-PhoR two-component regulatory system, whereas the expression of these genes in E. coli cells is not controlled by the regulatory proteins PhoB or PhoR. Presumably, regulatory systems of the response to phosphate starvation, analogous to the PHO regulon of B. subtilis, also function in other representatives of the genus Bacillus.     

沙门菌PhoP-PhoQ双组分信号转导系统

PhoP-PhoQ是调控沙门菌毒力的重要双组分信号转导系统,由组氨酸蛋白激酶PhoQ和反应调节蛋白PhoP组成。PhoP-PhoQ可调节沙门菌对Mg2+及其他周质环境的适应性,并调控沙门菌感染中毒力基因的转录和表达。PhoP-PhoQ调控的毒力基因参与沙门菌对上皮细胞的侵袭、胞内生存、对抗菌肽的抵抗反应、脂质A的修饰、Ⅲ型分泌系统效应蛋白的分泌等环节。PhoP-PhoQ还可与其他双组分信号转导系统或调节子合作,调控沙门菌的毒力。因此,PhoP-PhoQ双组分信号转导系统在沙门菌的毒力调控中发挥重要作用。     

Plasmid DNA transduction in Bacillus subtilis

Transduction of Bacillus subtilis pUB110 plasmid by AR9 phage is described. Some aspects of this process are studied. Plasmid transduction depended on multiplicity of infection similar to cases of chromosomal markers transduction, though optimal multiplicity of infection was achieved using low number of phage particles. No cotransduction of plasmid and chromosomal markers was demonstrated. The transduction frequencies of plasmid and chromosomal markers increased after UV irradiation of phage suspensions within the range of definite doses.     

Rewiring two-component signal transduction with small RNAs

Bacterial two-component systems (TCSs) and small regulatory RNAs (sRNAs) form densely interconnected networks that integrate and transduce information from the environment into fine-tuned changes of gene expression. Many TCSs control target genes indirectly through regulation of sRNAs, which in turn regulate gene expression by base-pairing with mRNAs or targeting a protein. Conversely, sRNAs may control TCS synthesis, thereby recruiting the TCS regulon to other regulatory networks. Several TCSs control expression of multiple homologous sRNAs providing the regulatory networks with further flexibility. These sRNAs act redundantly, additively or hierarchically on targets. The regulatory speed of sRNAs and their unique features in gene regulation make them ideal players extending the flexibility, dynamic range or timing of TCS signaling.     

Early spo gene expression in Bacillus subtilis: the role of interrelated signal transduction systems.

The early spo genes are subject to a number of different control mechanisms. We found that at least one histidine kinase, SpoIIJ, is important for the expression of early spo genes but that two others, ComP and DegS, also affect sporulation, especially when SpoIIJ is absent. This indicates the existence of a signal transduction network which may gather information from several sources to feed into the sporulation pathway. Early spo gene expression is inhibited by overproduction of two response regulators, SpoOF and ComA. This effect is eliminated by the elevated presence of their cognate histidine kinases, SpoIIJ and ComP, respectively. This suggests that the unphosphorylated response regulators cause the inhibition of sporulation.     

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。