蛋白质组学揭示拟南芥中过表达马铃薯Patatin相关磷脂酶pPLAIIIδ导致细胞伸长减少的机制
Proteomic insight into reduced cell elongation resulting from overexpression of patatin-related phospholipase pPLAIIIδ in Arabidopsis thaliana.
作者信息
Zheng Yong, Li Maoyin, Wang Xuemin
机构信息
Hubei Key Laboratory of Genetic Regulation and Integrative Biology; College of Life Sciences; Huazhong Normal University; Wuhan, PR China; Department of Biology; University of Missouri; St. Louis, MO USA; Donald Danforth Plant Science Center; St. Louis, MO USA.
Department of Biology; University of Missouri; St. Louis, MO USA; Donald Danforth Plant Science Center; St. Louis, MO USA.
出版信息
Plant Signal Behav. 2014;9(3):e28519. doi: 10.4161/psb.28519. Epub 2014 Apr 4.
Patatin-containing phospholipase A (pPLA) hydrolyzes membrane glycerolipids, producing free fatty acids and lysoglycerolipids. Ten pPLAs in the Arabidopsis thaliana genome are grouped into 3 subfamilies, and pPLAIIIs differ from pPLAI and IIs in their catalytic motifs and overexpression (OE) of pPLAIIIs reduces cell elongation and cellulose content. To probe the question of how pPLAIII overexpression results in the changes, comparative proteomic analyses were conducted between pPLAIIIδ-OE and WT seedlings. The data indicate a change in the microtubule-associated protein, MAP18. MAP18 is involved in destabilizing cortical microtubules and modulating directional cell growth. The result suggests that pPLAIII and their derived products may regulate cytoskeletal dynamics leading to retardation in anisotropic growth.
含patatin的磷脂酶A(pPLA)可水解膜甘油脂,产生游离脂肪酸和溶血甘油脂。拟南芥基因组中的10种pPLA被分为3个亚家族,pPLAIII与pPLAI和pPLAII在催化基序上存在差异,pPLAIII的过表达(OE)会降低细胞伸长和纤维素含量。为探究pPLAIII过表达如何导致这些变化的问题,对pPLAIIIδ-OE幼苗和野生型(WT)幼苗进行了比较蛋白质组学分析。数据表明微管相关蛋白MAP18发生了变化。MAP18参与破坏皮层微管的稳定性并调节细胞的定向生长。结果表明,pPLAIII及其衍生产物可能调节细胞骨架动力学,导致各向异性生长迟缓。
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