Yang H, Liu M Y, Romeo T
Department of Biochemistry, University of North Texas Health Science Center at Fort Worth 76107-2699, USA.
J Bacteriol. 1996 Feb;178(4):1012-7. doi: 10.1128/jb.178.4.1012-1017.1996.
The carbon storage regulator gene, csrA, encodes a factor which negatively modulates the expression of the glycogen biosynthetic gene glgC by enhancing the decay of its mRNA (M. Y. Liu, H. Yang, and T. Romeo, J. Bacteriol. 177:2663-2672, 1995). When endogenous glycogen levels in isogenic csrA+ and csrA::kanR strains were quantified during the growth curve, both the rate of glycogen accumulation during late exponential or early stationary phase and its subsequent rate of degradation were found to be greatly accelerated by the csrA::kanR mutation. The expression of the biosynthetic genes glgA (glycogen synthase) and glgS was observed to be negatively modulated via csrA. Thus, csrA is now known to control all of the known glycogen biosynthetic genes (glg), which are located in three different operons. Similarly, the expression of the degradative enzyme glycogen phosphorylase, which is encoded by glgY, was found to be negatively regulated via csrA in vivo. The in vitro transcription-translation of glgY was also specifically inhibited by the purified CsrA gene product. These results demonstrate that localization of glycogen biosynthetic and degradative genes within the Escherichia coli glgCAY operon facilitates their coordinate genetic regulation, as previously hypothesized (T. Romeo, A. Kumar, and J. Preiss, Gene 70:363-376, 1988). The csrA gene did not affect glycogen debranching enzyme, which is now shown to be encoded by the gene glgX.
碳储存调节基因csrA编码一种因子,该因子通过增强糖原生物合成基因glgC的mRNA降解来负向调节其表达(M.Y.刘、H.杨和T.罗密欧,《细菌学杂志》177:2663 - 2672,1995年)。当在生长曲线过程中对同基因csrA⁺和csrA::kanR菌株中的内源性糖原水平进行定量时,发现csrA::kanR突变极大地加速了指数后期或稳定期早期糖原积累的速率及其随后的降解速率。观察到生物合成基因glgA(糖原合酶)和glgS的表达通过csrA受到负向调节。因此,现在已知csrA控制所有已知的糖原生物合成基因(glg),这些基因位于三个不同的操纵子中。同样,发现由glgY编码的降解酶糖原磷酸化酶的表达在体内通过csrA受到负向调节。glgY的体外转录 - 翻译也被纯化的CsrA基因产物特异性抑制。这些结果表明,如先前假设的那样(T.罗密欧、A.库马尔和J.普赖斯,《基因》70:363 - 376,1988年),糖原生物合成和降解基因在大肠杆菌glgCAY操纵子中的定位促进了它们的协同基因调控。csrA基因不影响糖原脱支酶,现已证明该酶由glgX基因编码。