毒力
生物
李斯特菌
单核细胞增生李斯特菌
基因
操纵子
遗传学
转座因子
微生物学
反义RNA
非翻译区
核糖核酸
突变体
基因组
细菌
抄写(语言学)
语言学
哲学
作者
Alejandro Toledo‐Arana,Olivier Dussurget,Georgios Nikitas,Nina Sesto,Hélène Guet‐Revillet,Damien Balestrino,Edmund Loh,Jonas Gripenland,Teresa Tiensuu,Karolis Vaitkevicius,Mathieu Barthelemy,Massimo Vergassola,Marie‐Anne Nahori,Guillaume Soubigou,Béatrice Regnault,Jean‐Yves Coppée,Marc Lecuit,Jörgen Johansson,Pascale Cossart
出处
期刊:Nature
[Nature Portfolio]
日期:2009-05-17
卷期号:459 (7249): 950-956
被引量:873
摘要
The bacterium Listeria monocytogenes is ubiquitous in the environment and can lead to severe food-borne infections. It has recently emerged as a multifaceted model in pathogenesis. However, how this bacterium switches from a saprophyte to a pathogen is largely unknown. Here, using tiling arrays and RNAs from wild-type and mutant bacteria grown in vitro, ex vivo and in vivo, we have analysed the transcription of its entire genome. We provide the complete Listeria operon map and have uncovered far more diverse types of RNAs than expected: in addition to 50 small RNAs (<500 nucleotides), at least two of which are involved in virulence in mice, we have identified antisense RNAs covering several open-reading frames and long overlapping 5' and 3' untranslated regions. We discovered that riboswitches can act as terminators for upstream genes. When Listeria reaches the host intestinal lumen, an extensive transcriptional reshaping occurs with a SigB-mediated activation of virulence genes. In contrast, in the blood, PrfA controls transcription of virulence genes. Remarkably, several non-coding RNAs absent in the non-pathogenic species Listeria innocua exhibit the same expression patterns as the virulence genes. Together, our data unravel successive and coordinated global transcriptional changes during infection and point to previously unknown regulatory mechanisms in bacteria.
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