在水稻中,一种古老的 P 环 GTP 酶受一种高等植物特异性调节蛋白的调控。
An ancient P-loop GTPase in rice is regulated by a higher plant-specific regulatory protein.
机构信息
State Key Laboratory of Agrobiotechnology and School of Life Sciences, Chinese University of Hong Kong, Shatin, Hong Kong.
出版信息
J Biol Chem. 2010 Nov 26;285(48):37359-69. doi: 10.1074/jbc.M110.172080. Epub 2010 Sep 28.
Abstract
YchF is a subfamily of the Obg family in the TRAFAC class of P-loop GTPases. The wide distribution of YchF homologues in both eukarya and bacteria suggests that they are descendents of an ancient protein, yet their physiological roles remain unclear. Using the OsYchF1-OsGAP1 pair from rice as the prototype, we provide evidence for the regulation of GTPase/ATPase activities and RNA binding capacity of a plant YchF (OsYchF1) by its regulatory protein (OsGAP1). The effects of OsGAP1 on the subcellular localization/cycling and physiological functions of OsYchF1 are also discussed. The finding that OsYchF1 and OsGAP1 are involved in plant defense response might shed light on the functional roles of YchF homologues in plants. This work suggests that during evolution, an ancestral P-loop GTPase/ATPase may acquire new regulation and function(s) by the evolution of a lineage-specific regulatory protein.
摘要
YchF 是 P 环 GTP 酶 TRAFAC 类 Obg 家族的一个亚家族。YchF 同源物在真核生物和细菌中的广泛分布表明它们是古老蛋白质的后代,但它们的生理作用仍不清楚。本文以水稻中的 OsYchF1-OsGAP1 对作为原型,为植物 YchF(OsYchF1)的调节蛋白(OsGAP1)对 GTPase/ATPase 活性和 RNA 结合能力的调节提供了证据。还讨论了 OsGAP1 对 OsYchF1 的亚细胞定位/循环和生理功能的影响。发现 OsYchF1 和 OsGAP1 参与植物防御反应,这可能揭示了 YchF 同源物在植物中的功能作用。这项工作表明,在进化过程中,祖先 P 环 GTPase/ATPase 通过谱系特异性调节蛋白的进化可能获得新的调节和功能。
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