INSERM, Équipe Avenir, Limoges, France.
J Bacteriol. 2011 Oct;193(20):5675-82. doi: 10.1128/JB.05246-11. Epub 2011 Aug 19.
Class 1 integrons are widespread genetic elements responsible for dissemination of antibiotic resistance among Gram-negative bacteria. Integrons allow bacteria to capture and express gene cassettes (GCs) via an integrase (IntI1) and a promoter (Pc) contained in the integron functional platform. GCs are transcribed from Pc, of which 13 variants of different strengths have been described, or, occasionally, from both Pc and a second promoter (P2). The intI1 promoter (PintI1) is repressed by LexA, which is the transcriptional repressor of the global regulatory SOS response network. Moreover, PintI1 lies face to face with Pc and overlaps P2, both configurations being propitious to transcriptional interference (TI). In this study, we analyzed possible transcriptional interference by quantifying transcripts produced from Pc, P2, and PintI1. We found that the Pc promoter interferes with the level of intI1 transcription but that this effect depends on the Pc variant: the strong Pc variant prevents intI1 expression, in contrast to the other variants. Although P2 formation results in LexA binding site disruption and thus prevents SOS regulation of intI1 expression, P2 does not interfere with PintI1. These findings reveal a tight relationship between GC and integrase expression.
Class 1 整合子是广泛存在于革兰氏阴性菌中的遗传元件,负责传播抗生素耐药性。整合子允许细菌通过整合酶(IntI1)和整合子功能平台中包含的启动子(Pc)捕获和表达基因盒(GCs)。GCs 从 Pc 转录,已经描述了 13 种不同强度的变体,或者偶尔从 Pc 和第二个启动子(P2)转录。IntI1 启动子(PintI1)受 LexA 抑制,LexA 是全局调控 SOS 反应网络的转录抑制剂。此外,PintI1 与 Pc 面对面且与 P2 重叠,这两种构象都有利于转录干扰(TI)。在这项研究中,我们通过定量分析 Pc、P2 和 PintI1 产生的转录本,分析了可能存在的转录干扰。我们发现 Pc 启动子干扰了 intI1 转录的水平,但这种影响取决于 Pc 变体:强 Pc 变体阻止 intI1 的表达,而其他变体则不会。尽管 P2 的形成导致 LexA 结合位点的破坏,从而阻止了 SOS 对 intI1 表达的调控,但 P2 不会干扰 PintI1。这些发现揭示了 GC 和整合酶表达之间的紧密关系。
