Guo Di, Gao Xiaorong, Li Hao, Zhang Tao, Chen Gu, Huang Pingbo, An Lijia, Li Ning
Department of Biology, The Hong Kong University of Science and Technology, Clear Water Bay, Hong Kong SAR, China.
Plant Mol Biol. 2008 Mar;66(4):345-60. doi: 10.1007/s11103-007-9273-5. Epub 2007 Dec 19.
Egy1 was isolated as an ethylene-dependent gravitropism-deficient Arabidopsis mutant. Molecular studies reveal that EGY1 gene encodes a 59-kDa plastid-targeted metalloprotease. It is actively expressed in hypocotyl tissue and targets to endodermal and cortex plastid. Its protein level is up-regulated by both ethylene and light. CAB protein accumulation and chlorophyll level is severely reduced in hypocotyls and endodermal cells, respectively. Sucrose is able to restore the severely reduced starch and lipid contents as well as the deficient endodermal plastid size found in light-grown egy1 hypocotyls yet it fails to rescue the reduced plastid number and chlorophyll level in egy1 endodermal cells. The loss-of-function egy1 mutation results in a smaller size (1.9 +/- 0.3 microm in diameter) and less number (5 +/- 1) of plastids in endodermal cells, which are nearly 50% of the wild-type. EGY1 is specially required for the development of full-size endodermal plastid in seedlings that are grown on sucrose-free media under light. It plays a direct role in controlling the light-induced chlorophyll production, grana formation and plastid replication in endodermal cell. However, it plays an indirect role in regulation of endodermal plastid size. It is likely that the ethylene-dependent gravitropism-deficient phenotype of egy1 hypocotyls may result from the smaller size and less number of endodermal plastids. Gravicurvature assays performed on ethylene-insensitive mutants, etr1-1, etr2-1, ers2-1, ein4-1 and ein2-5, have clearly demonstrated the necessary role for ethylene in vigorous gravitropism of light-grown hypocotyls. The degree of ethylene-dependent gravicurvature is positively correlated with the combined state of endodermal plastid mass and number. Neither ethylene nor EGY1-regulated full-size endodermal plastid is sufficient for promotion of vigorous hypocotyl gravitropism. Presence of 4 full-size plastids per endodermal cell together with ethylene pretreatment of hypocotyls becomes sufficient to trigger vigorous gravicurvature in light-grown seedlings. A model is therefore proposed to address the role of EGY1 in regulation of endodermal plastid size and number as well as the stimulatory effect of ethylene on hypocotyl gravitropism.
Egy1是作为一种乙烯依赖型向重力性缺陷的拟南芥突变体分离出来的。分子研究表明,EGY1基因编码一种靶向质体的59 kDa金属蛋白酶。它在胚轴组织中活跃表达,并靶向内皮层和皮层质体。其蛋白质水平受乙烯和光的上调。胚轴和内皮层细胞中的CAB蛋白积累和叶绿素水平分别严重降低。蔗糖能够恢复在光照下生长的egy1胚轴中严重降低的淀粉和脂质含量以及内皮层质体大小缺陷,但它无法挽救egy1内皮层细胞中质体数量减少和叶绿素水平降低的情况。功能缺失的egy1突变导致内皮层细胞中质体尺寸更小(直径为1.9±0.3微米)且数量更少(5±1个),几乎是野生型的50%。EGY1是在无蔗糖培养基上光照下生长的幼苗中发育全尺寸内皮层质体所特别需要的。它在控制内皮层细胞中光诱导的叶绿素产生、基粒形成和质体复制方面起直接作用。然而,它在调节内皮层质体大小方面起间接作用。egy1胚轴的乙烯依赖型向重力性缺陷表型可能是由于内皮层质体尺寸更小和数量更少导致的。对乙烯不敏感突变体etr1 - 1、etr2 - 1、ers2 - 1、ein4 - 1和ein2 - 5进行的向重力弯曲试验清楚地证明了乙烯在光照下生长的胚轴强烈向重力性中的必要作用。乙烯依赖型向重力弯曲的程度与内皮层质体质量和数量的综合状态呈正相关。乙烯和EGY1调节的全尺寸内皮层质体都不足以促进胚轴的强烈向重力性。每个内皮层细胞存在4个全尺寸质体以及对胚轴进行乙烯预处理足以触发光照下生长的幼苗的强烈向重力弯曲。因此提出了一个模型来阐述EGY1在调节内皮层质体大小和数量以及乙烯对胚轴向重力性的刺激作用中的作用。
