类 ParB BisD-CTP DNA 夹子在假单胞菌低频转移能力发育过程中精心策划的长距离基因激活

Hammam Antar, Nicolas Carraro, Stephan Gruber, Jan Roelof van der Meer
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摘要

整合共轭元件(ICEs)是一种移动 DNA,它一直整合在宿主细菌基因组中,直到激活切除并通过共轭转移到受体细胞。ICE 的转移是在一小部分细胞中开始的,这些细胞经历了分级基因表达级联,最终形成转移能力。在这项研究中,我们证明了静止期假单胞菌细胞中 ICEclc 基因的转移能力形成是由双组分转录激活因子 BisC 和 BisD 的协调活动调控的。对标记的 BisC 或 BisD 进行染色质免疫沉淀,然后进行高通量测序,结果表明这两种蛋白都聚集在假单胞菌细胞中 ICEclc 转移能力启动子周围的相似位点。基因剖析和单细胞显微镜检查表明,BisD 是一种双结构域蛋白,具有 C 端基因激活结构域和 N 端 ParB 样结构域,可形成二聚体 DNA 夹,在远处自我加载,并在广泛的一维 DNA 滑动后到达目标启动子。在 P. putida ICEclc 细胞中表达的 mCherry-BisD 会形成离散的荧光病灶,这取决于 ICE 上的 parS 样序列。这种病灶的形成与染色体 DNA 上聚集的典型 ParB 蛋白类似,但在 BisD 的情况下,它同时与染色体和切除的 ICE 分子相对应。BisD 在约 50 kb 的 ICE-DNA 上的滑动是不对称的,并且与 ICE 基因的转录方向一致。这可能有助于确定转移能力形成的激活时间顺序,优化 ICE 转移。鉴于 ICEclc 在静止期细胞中被激活,我们推测 BisD 并不参与在子细胞中分离切除的 ICE-DNA,而是积极引导 ICE-DNA 分子向转移能力细胞中产生的(多个)共轭系统转移。因此,BisD 是一种双功能蛋白,集基因激活和 DNA 分离功能于一身。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Orchestrated long-distance gene activation by a ParB-like BisD-CTP DNA clamp in low-frequency transfer competence development in Pseudomonas putida
Integrative conjugative elements (ICEs) are mobile DNA that remain integrated within the host bacterial genome until they activate their excision and transfer to recipient cells via conjugation. ICE transfer is initiated in a small subpopulation of cells that undergo a hierarchical gene expression cascade leading to transfer competence formation. In this study, we demonstrate that transfer competence formation of the ICEclc element in stationary phase Pseudomonas putida cells is regulated by the coordinated activity of a two-component transcriptional activator, BisC and BisD. Chromatin immunoprecipitation of tagged BisC or BisD followed by high throughput sequencing showed that both proteins accumulate at similar sites around ICEclc transfer competence promoters in P. putida cells. Genetic dissection and single cell microscopy showed that BisD is a dual domain protein, with a C-terminal gene activator domain and an N-terminal ParB-like domain, forming dimeric DNA clamps that self-load at distant sites and reach target promoters after extensive one-dimensional DNA sliding. Expressed mCherry-BisD in P. putida ICEclc cells form discrete fluorescent foci, dependent on parS-like sequences on the ICE. This focus formation is similar as what is seen with canonical ParB proteins accumulating on chromosomal DNA, but in case of BisD corresponds to both chromosomal and excised ICE-molecules. Sliding of BisD over ~50 kb of ICE-DNA is asymmetric and follows the direction of ICE gene transcription. This may help to establish a temporal order of activation of transfer competence formation, optimizing ICE transfer. Given that ICEclc is activated in stationary phase cells, we hypothesize that BisD is not involved in segregating excised ICE-DNA among daughter cells, but rather in actively directing ICE-DNA molecules towards the (multiple) conjugative systems that are produced in transfer competent cells. BisD thus serves as a twin function protein, integrating gene activation and DNA segregation functions.
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