调控 DnaA 复合物组装:填补空缺的时候到了。
Regulating DnaA complex assembly: it is time to fill the gaps.
机构信息
Department of Biological Sciences, 234 Olin Life Sciences, Florida Institute of Technology, 150 W. University Blvd., Melbourne, FL 32901, USA.
出版信息
Curr Opin Microbiol. 2010 Dec;13(6):766-72. doi: 10.1016/j.mib.2010.10.001. Epub 2010 Oct 27.
Abstract
New rounds of bacterial chromosome replication are triggered during each cell division cycle by the initiator protein, DnaA. For precise timing, interactions of DnaA-ATP monomers with the replication origin, oriC, must be carefully regulated during formation of complexes that unwind origin DNA and load replicative helicase. Recent studies in Escherichia coli suggest that high and low affinity DnaA recognition sites are positioned within oriC to direct staged assembly of bacterial pre-replication complexes, with DnaA contacting low affinity sites as it oligomerizes to 'fill the gaps' between high affinity sites. The wide variability of oriC DnaA recognition site patterns seen in nature may reflect myriad gap-filling strategies needed to couple oriC function to the lifestyle of different bacterial types.
摘要
新一轮的细菌染色体复制是由起始蛋白 DnaA 在每个细胞分裂周期触发的。为了精确的时间控制,在形成解开复制原点 DNA 并加载复制解旋酶的复合物的过程中,DnaA-ATP 单体与复制原点 oriC 的相互作用必须得到仔细的调节。最近在大肠杆菌中的研究表明,高亲和性和低亲和性 DnaA 识别位点位于 oriC 内,以指导细菌预复制复合物的分阶段组装,DnaA 在寡聚化以“填补”高亲和性位点之间的“间隙”时与低亲和性位点结合。在自然界中观察到的 oriC DnaA 识别位点模式的广泛可变性可能反映了将 oriC 功能与不同细菌类型的生活方式相耦合所需的无数种填补“间隙”的策略。
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