Department of Cell and Molecular Biology, Biomedical Center, Uppsala University, Uppsala, Sweden.
EMBO J. 2010 Jun 2;29(11):1840-50. doi: 10.1038/emboj.2010.73. Epub 2010 Apr 20.
Escherichia coli produces proteinaceous surface structures called curli that are involved in adhesion and biofilm formation. CsgD is the transcriptional activator of curli genes. We show here that csgD expression is, in part, controlled post-transcriptionally by two redundant small RNAs (sRNAs), OmrA and OmrB. Their overexpression results in curli deficiency, in accordance with the inhibition of chromosomally encoded, FLAG-tagged CsgD. Downregulation of csgD occurs by a direct antisense interaction within the csgD 5'-UTR, far upstream of the ribosome-binding site (RBS). OmrA/B downregulate plasmid-borne csgD-gfp fusions in vivo, and inhibit CsgD translation in vitro. The RNA chaperone Hfq is required for normal csgD mRNA and OmrA/B levels in the cell, and enhances sRNA-dependent inhibition of csgD translation in vitro. Translational inhibition involves two phylogenetically conserved secondary structure modules that are supported by chemical and enzymatic probing. The 5'-most element is necessary and sufficient for regulation, the one downstream comprises the RBS and affects translational efficiency. OmrA/B are two antisense RNAs that regulate a transcription factor to alter a morphotype and group behaviour.
大肠杆菌产生称为菌毛的蛋白质表面结构,参与黏附和生物膜形成。CsgD 是菌毛基因的转录激活因子。我们在这里表明,csgD 的表达部分受到两个冗余的小 RNA(sRNA),OmrA 和 OmrB 的转录后调控。它们的过表达导致菌毛缺失,与抑制染色体编码的、FLAG 标记的 CsgD 一致。csgD 的下调是通过在核糖体结合位点(RBS)上游很远的 5'UTR 内的直接反义相互作用发生的。OmrA/B 在体内下调质粒携带的 csgD-gfp 融合体,并在体外抑制 CsgD 的翻译。RNA 伴侣 Hfq 在细胞中正常的 csgD mRNA 和 OmrA/B 水平中是必需的,并且增强了体外 sRNA 依赖性抑制 csgD 翻译的作用。翻译抑制涉及两个系统发育上保守的二级结构模块,它们由化学和酶探测支持。最上游的 5' 元件是调节所必需和充分的,下游的元件包含 RBS 并影响翻译效率。OmrA/B 是两个反义 RNA,它们调节转录因子以改变形态和群体行为。