信号分子ppGpp与微生物环境适应性

微生物能感知环境胁迫信号,通过触发严谨反应对生长速率进行调节,并通过一系列代谢调控,使细胞能在不利环境中生存。高度磷酸化的鸟苷四/五磷酸ppGpp/pppGpp（文中以ppGpp统称）作为信号分子对微生物生理具有广泛的调节作用,至今仍是微生物学研究热点之一。ppGpp对于微生物适应高温、高压等环境起到了积极的作用。综述了信号分子ppGpp合成降解机制及其调控微生物适应性方面的研究进展。     

The role of the omega subunit of RNA polymerase in expression of the relA gene in Escherichia coli

The rpoZ gene for the omega subunit of Escherichia coli RNA polymerase constitutes single operon with the spoT gene, which is responsible for the maintenance of stringent response under nutrient starvation conditions. To identify the physiological role of the omega subunit, we compared the gene expression profile of wild-type Escherichia coli with that of an rpoZ deleted strain by microarray analysis using an E. coli DNA chip. Here we report on a set of genes which show changes in expression profile following the removal of rpoZ. We have seen that relA, which is responsible for the synthesis of the stringent factor ppGpp and many ribosomal proteins, exhibited noticeable changes in mRNA levels and were therefore further analyzed for their expression using a GFP/RFP two-fluorescent protein promoter assay vector. In the absence of rpoZ, the promoter for the relA gene was severely impaired, but the promoters from the ribosomal protein genes were not affected as much. Taking these results together we propose that the omega subunit is involved in regulation of the relA gene, but induction of the stringently controlled genes in the absence of rpoZ is, at least in part, attributable to a decrease in ppGpp level.     

大肠杆菌严谨型RNA聚合酶的筛选及体内转录活性测定

利用选择性培养基筛选大肠杆菌自然突变菌株,经噬菌体P1转导和蛋白质互补试验,发现一株突变体(LCH001)的突变基因发生在编码RNA聚合酶β′亚基的rpoC基因上,经DNA序列分析,发现突变位点发生在第3406个碱基上,由G变成了T,导致编码的氨基酸由甘氨酸(GGT)变成半胱氨酸(TGT)。体内转录试验表明该突变RNA聚合酶转录严谨型启动子控制基因的活性显著降低,其β-半乳糖苷酶的活性是野生型菌株的18%,而转录非严谨型启动子控制基因的活性显著提高,其β-半乳糖苷酶的活性约是野生型菌株的5倍。研究结果对探讨RNA聚合酶结构与功能的关系以及RNA聚合酶在细菌严谨反应过程中的作用具有重要意义。     

Structural basis of TFIIIC-dependent RNA polymerase III transcription initiation

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Studies on the Degradation Mechanisms of Proteins and their Derivatives in the Foods

The volatile sulfur components produced by boiling soybean meal hydrolyzates (AMINOSAN-EKI) have been identified as dimethyl sulfide and hydrogen sulfide. No mercaptan or disulfides were detected.

The main precursor of dimethyl sulfide is supposed to be methionine methylsulfonium compound derived from methionine and pectin substances (–COOCH₃) during the hydrolysis of soybean meal by hydrochloric acid.     

Structural insights into RNA-mediated transcription regulation in bacteria

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Yeast Mediator facilitates transcription initiation at most promoters via a Tail-independent mechanism

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