表达耐辐射异常球菌IrrE蛋白对产丁二酸大肠杆菌耐渗透压的影响

高渗透压胁迫是降低生物法制备丁二酸生产效率的关键因素之一。为提高丁二酸生产菌株对高渗透压胁迫的耐受性能,本研究考察了外源引入全局调控蛋白IrrE提高大肠杆菌耐高渗透压胁迫性能的可行性。试验结果表明,在不同浓度Na+胁迫下,重组菌生长和发酵性能明显提升。在5 L罐发酵中,重组菌最大细胞干重、糖耗和丁二酸产量比对照菌分别提高了15.6%、22%和23%,表明引入IrrE蛋白可提高菌株对高渗透压胁迫的耐受能力。进一步比较重组菌和对照菌胞内相容性物质海藻糖和甘油的浓度后发现,重组菌胞内海藻糖和甘油浓度明显提高,其最大积累量分别是对照菌的1.3和3.8倍,推测IrrE可通过增加胞内相容性物质的积累提高菌株对高渗透压胁迫的耐受性。     

Regulation of capsular polysaccharide synthesis in Escherichia coli K-12: characterization of three regulatory genes.

The synthesis of the Escherichia coli capsular polysaccharide varies with growth medium, temperature of growth, and genetic background. lac fusions to genes necessary for capsule synthesis (cps) demonstrated that these genes are regulated negatively in vivo by the lon gene product. We have now isolated, characterized, and mapped mutations in three new regulatory genes (rcs, for regulator of capsule synthesis) that control expression of these same fusions. rcsA and rcsB are positive regulators of capsule synthesis. rcsA is located at min 43 on the E. coli map, whereas rcsB lies at 47 min. rcsC, a negative regulator of capsule synthesis, is located at min 47, close to rcsB. All three regulatory mutations are unlinked to either the structural genes cpsA-F or lon. Mutations in all three rcs genes are recessive to the wild type. We postulate that lon may regulate capsule synthesis indirectly, by regulating the availability of one of the positive regulators.