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机构地区:[1]中国水稻研究所水稻生物学国家重点实验室,杭州310006 [2]杭州师范大学生命与环境科学学院,杭州310036
出 处:《中国稻米》2014年第4期1-8,共8页China Rice
基 金:国家自然科学基金(31171532);中央级公益性科研院所专项资金项目(2009RG002-1)
摘 要:水稻根系是非常重要的吸收营养和水分的器官,其生长与发育受多个植物激素协同调控。本文综述了生长素对水稻根形态建成调控的分子遗传学研究进展,影响生长素合成的YUCCA基因是通过控制生长素在植株体内的浓度来改变根的形态。而生长素运输主要通过调控生长素输出载体PIN和生长素输入载体AUXI的极性分布,影响侧根和不定根的发育,以及根的向重性。此外,TIR1、Aux/IAA与ARF互作在生长素信号转导中起重要的调控作用。其他激素可以通过信号转导途径影响生长素的分布,调控根系统的建成。但目前水稻相关基因的克隆进展缓慢,对生长素调控网络认识还不够清晰。因此,更为深入的研究水稻生长素相关基因将对理解水稻根系发育的分子机制具有重要意义。Rice root is the main organ for nutrient and water absorption, its growth and development are regulated by several plant hormones collaboratively. Of which,auxin is the extensively studied. In this paper, the author elucidate the development process and molecular mechanism of rice root architecture by analyzing the regulating genes that have been cloned. Comprehensive analysis re-veals that the root shape is altered by auxin biosynthesis genes that regulate auxin concentration. Auxin transport regulate the devel-opment of lateral root and crown root through controlling auxin influx and efflux. Auxin signal transduction, which affects the root sys-tem, is regulated by TIR1、Aux/IAA and ARF. Besides the distrubition of auxin is influenced by acting with other plant hormones. However,these cloned root shape genes in rice is still insufficient, and the outline of molecular regulation network of auxin is not clear. Therefore,it is important to further understand molecular mechanism of auxin in rice root by screening and collecting rice auxin mutants with root mutations.
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