肌醇-1-磷酸合酶是极性生长素运输和器官发育所必需的。
myo-Inositol-1-phosphate synthase is required for polar auxin transport and organ development.
机构信息
Donald Danforth Plant Science Center, St. Louis, MO 63132, USA.
出版信息
J Biol Chem. 2010 Jul 30;285(31):24238-47. doi: 10.1074/jbc.M110.123661. Epub 2010 Jun 1.
Abstract
myo-Inositol-1-phosphate synthase is a conserved enzyme that catalyzes the first committed and rate-limiting step in inositol biosynthesis. Despite its wide occurrence in all eukaryotes, the role of myo-inositol-1-phosphate synthase and de novo inositol biosynthesis in cell signaling and organism development has been unclear. In this study, we isolated loss-of-function mutants in the Arabidopsis MIPS1 gene from different ecotypes. It was found that all null mips1 mutants are defective in embryogenesis, cotyledon venation patterning, root growth, and root cap development. The mutant roots are also agravitropic and have reduced basipetal auxin transport. mips1 mutants have significantly reduced levels of major phosphatidylinositols and exhibit much slower rates of endocytosis. Treatment with brefeldin A induces slower PIN2 protein aggregation in mips1, indicating altered PIN2 trafficking. Our results demonstrate that MIPS1 is critical for maintaining phosphatidylinositol levels and affects pattern formation in plants likely through regulation of auxin distribution.
摘要
肌醇-1-磷酸合酶是一种保守的酶,催化肌醇生物合成的第一步和限速步骤。尽管它广泛存在于所有真核生物中,但肌醇-1-磷酸合酶和从头合成肌醇在细胞信号转导和生物体发育中的作用尚不清楚。在这项研究中,我们从不同生态型的拟南芥中分离到肌醇-1-磷酸合酶基因(MIPS1)的功能缺失突变体。结果发现,所有的 mips1 突变体在胚胎发生、子叶叶脉模式形成、根生长和根冠发育方面都有缺陷。突变体的根也表现出向重力性缺陷,并减少了向基生长素运输。mips1 突变体中主要的磷脂酰肌醇水平显著降低,内吞作用的速度也明显减慢。用布雷菲德菌素 A 处理会诱导 mips1 中 PIN2 蛋白聚合速度变慢,表明 PIN2 运输发生改变。我们的结果表明,MIPS1 对于维持磷脂酰肌醇水平至关重要,并可能通过调节生长素分布来影响植物的形态发生。
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