Iwamoto Akira, Lemire Sébastien, Yonesaki Tetsuro
Department of Biological Sciences, Graduate School of Science, Osaka University, 1-1 Machikaneyama-cho, Toyonaka-shi, Osaka 560-0043, Japan.
Mol Microbiol. 2008 Dec;70(6):1570-8. doi: 10.1111/j.1365-2958.2008.06504.x. Epub 2008 Oct 23.
Escherichia coli ribonuclease LS was first characterized as a potential antagonist of bacteriophage T4; the E. coli rnlA gene is required for this activity. When rnlA mutant cells were grown on Luria-Bertani agar containing a high concentration of NaCl, their growth was substantially impaired, and introduction of a mutation into crp or cyaA alleviated the NaCl sensitivity. A mutation in rnlA caused fivefold overexpression of Crp. At the same time, the expression of sigma(38) was lower by two- to threefold in an rnlA mutant than in the wild type, which probably accounts for the susceptibility to high NaCl concentration. The overproduction of Crp was eliminated by deletion of the Crp-site II, to which Crp binds to enhance its own transcription in the presence of abnormally high concentration of cAMP. Consistently, introduction of a mutation into cyaA also eliminated the overproduction of Crp. In fact, all of CyaA, cAMP and cyaA transcripts accumulated to high levels and, after induction, cyaA transcripts were markedly stabilized in an rnlA mutant compared with the wild type. We conclude that RNase LS regulates Crp-cAMP concentration by degrading the cyaA transcripts.
大肠杆菌核糖核酸酶LS最初被鉴定为噬菌体T4的潜在拮抗剂;该活性需要大肠杆菌rnlA基因。当rnlA突变细胞在含有高浓度NaCl的Luria-Bertani琼脂上生长时,其生长受到显著损害,而在crp或cyaA中引入突变可减轻NaCl敏感性。rnlA中的突变导致Crp过表达五倍。同时,rnlA突变体中sigma(38)的表达比野生型低两到三倍,这可能是其对高NaCl浓度敏感的原因。通过缺失Crp结合位点II消除了Crp的过量产生,在异常高浓度的cAMP存在下,Crp结合该位点以增强自身转录。一致地,在cyaA中引入突变也消除了Crp的过量产生。事实上,CyaA、cAMP和cyaA转录本均积累到高水平,并且在诱导后,与野生型相比,rnlA突变体中的cyaA转录本明显稳定。我们得出结论,核糖核酸酶LS通过降解cyaA转录本来调节Crp-cAMP浓度。
