解析植物细胞增殖紊乱的农杆菌蛋白 6b 的分子机理。
Molecular insights into plant cell proliferation disturbance by Agrobacterium protein 6b.
机构信息
Department of Biological Sciences, National University of Singapore, Singapore 117543, Singapore.
出版信息
Genes Dev. 2011 Jan 1;25(1):64-76. doi: 10.1101/gad.1985511. Epub 2010 Dec 14.
Abstract
The Agrobacterium Ti plasmid (T-DNA) 6b proteins interact with many different host proteins implicated in plant cell proliferation. Here, we show that Arabidopsis plants overexpressing 6b display microRNA (miRNA) deficiency by directly targeting SERRATE and AGO1 via a specific loop fragment (residues 40-55). In addition, we report the crystal structures of Agrobacterium tumefaciens AK6b at 2.1 Å, Agrobacterium vitis AB6b at 1.65 Å, and Arabidopsis ADP ribosylation factor (ARF) at 1.8 Å. The 6b structure adopts an ADP-ribosylating toxin fold closely related to cholera toxin. In vitro ADP ribosylation analysis demonstrates that 6b represents a new toxin family, with Tyr 66, Thr 93, and Tyr 153 as the ADP ribosylation catalytic residues in the presence of Arabidopsis ARF and GTP. Our work provides molecular insights, suggesting that 6b regulates plant cell growth by the disturbance of the miRNA pathway through its ADP ribosylation activity.
摘要
农杆菌 Ti 质粒(T-DNA)6b 蛋白与许多不同的宿主蛋白相互作用,这些蛋白参与植物细胞增殖。在这里,我们通过特定的环片段(残基 40-55)直接靶向 SERRATE 和 AGO1,表明过表达 6b 的拟南芥植物表现出 miRNA 缺陷。此外,我们报告了农杆菌 tumefaciens AK6b 在 2.1 Å、农杆菌 vitis AB6b 在 1.65 Å 和拟南芥 ADP 核糖基化因子(ARF)在 1.8 Å 的晶体结构。6b 结构采用 ADP-核糖基化毒素折叠,与霍乱毒素密切相关。体外 ADP 核糖基化分析表明,6b 代表一个新的毒素家族,在拟南芥 ARF 和 GTP 的存在下,Tyr66、Thr93 和 Tyr153 是 ADP 核糖基化的催化残基。我们的工作提供了分子见解,表明 6b 通过其 ADP 核糖基化活性干扰 miRNA 途径来调节植物细胞生长。
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