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π蛋白二聚体结合于前导链合成起始位点附近的R6Kγ 原点富含A+T的区域:调控意义。

Dimers of pi protein bind the A+T-rich region of the R6K gamma origin near the leading-strand synthesis start sites: regulatory implications.

作者信息

Krüger R, Filutowicz M

机构信息

Department of Bacteriology, University of Wisconsin-Madison, Madison, Wisconsin 53706, USA.

出版信息

J Bacteriol. 2000 May;182(9):2461-7. doi: 10.1128/JB.182.9.2461-2467.2000.

Abstract

The replication of gamma origin, a minimal replicon derived from plasmid R6K, is controlled by the Rep protein pi. At low intracellular concentrations, pi activates the gamma origin, while it inhibits replication at elevated concentrations. Additionally, pi acts as a transcription factor (auto)repressing its own synthesis. These varied regulatory functions depend on pi binding to reiterated DNA sequences bearing a TGAGNG motif. However, pi also binds to a "non-iteron" site (i.e., not TGAGNG) that resides in the A+T-rich region adjacent to the iterons. This positioning places the non-iteron site near the start sites for leading-strand synthesis that also occur in the A+T-rich region of gamma origin. We have hypothesized that origin activation (at low pi levels) would require the binding of pi monomers to iterons, while the binding of pi dimers to the non-iteron site (at high pi levels) would be required to inhibit priming. Although monomers as well as dimers can bind to an iteron, we demonstrate that only dimers bind to the non-iteron site. Two additional pieces of data support the hypothesis of negative replication control by pi binding to the non-iteron site. First, pi binds to the non-iteron site about eight times less well than it binds to a single iteron. Second, hyperactive variants of pi protein (called copy-up) either do not bind to the non-iteron site or bind to it less well than wild-type pi. We propose a replication control mechanism whereby pi would directly inhibit primer formation.

摘要

γ 原点是源自质粒 R6K 的最小复制子,其复制受 Rep 蛋白 π 控制。在细胞内低浓度时,π 激活 γ 原点,而在浓度升高时则抑制复制。此外,π 作为转录因子自抑制自身的合成。这些多样的调节功能取决于 π 与带有 TGAGNG 基序的重复 DNA 序列的结合。然而,π 也与一个“非重复子”位点(即不是 TGAGNG)结合,该位点位于与重复子相邻的富含 A+T 的区域。这种定位使得非重复子位点靠近前导链合成的起始位点,前导链合成起始位点也出现在 γ 原点的富含 A+T 的区域。我们推测,在低 π 水平时原点激活需要 π 单体与重复子结合,而在高 π 水平时 π 二聚体与非重复子位点的结合则是抑制引发所必需的。尽管单体和二聚体都能与重复子结合,但我们证明只有二聚体能与非重复子位点结合。另外两条数据支持了 π 通过与非重复子位点结合进行负向复制控制的假说。第一,π 与非重复子位点的结合能力比与单个重复子的结合能力弱约八倍。第二,π 蛋白的高活性变体(称为复制增强型)要么不与非重复子位点结合,要么与它的结合能力比野生型 π 弱。我们提出一种复制控制机制,即 π 会直接抑制引物形成。

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