蓝光诱导黄化野生型和向光素突变体拟南芥幼苗的H+和Ca2+流-文献综述-资讯-生物在线

蓝光诱导黄化野生型和向光素突变体拟南芥幼苗的H+和Ca2+流

作者:旭月(北京)科技有限公司 2009-05-18T00:00 (访问量:4484)

    蓝光诱导的H+和Ca2+流与植物的向光性
蓝光诱导黄化野生型和向光素突变体拟南芥幼苗的H+和Ca2+

蓝光是控制植物生长和形态发育的重要因子,引起植物子叶扩展,抑制胚轴伸长,这些反应发生的同时或者随后伴随着膜电势和离子转运的变化。非损伤微测技术由于其非损伤性、长时间监测、动态测量和易操作的特点则能非常好地研究离子转运的问题。

使用非损伤微测技术(MIFE)研究了H+和Ca2+离子流动力学和拟南芥蓝光响应的关系:发现蓝光处理的最初10min内诱导了H+和Ca2+转运体活性的显著变化,3-5min时变化达到最大,蓝光立即诱导了野生型和phot2突变体Ca2+内流,而phot1和phot1/phot突变体中Ca2+流保持稳定,说明PHOT1调节Ca2+从质外体吸收进入细胞质;另外,发现光受体调节的H+和Ca2+流存在于切掉胚轴尖端的幼苗,并可能也存在于子叶中,沿着子叶弯勾到胚轴处观察到了Ca2+和H+浓度有波浪形的变化。Ca2+流在蓝光处理下几乎立即就出现,但是H+流滞后了1.5min,而在野生型中H+流变化很小。

在植物的向光反应的信号转导途径过程中,细胞内的[Ca2+]需要维持在一个较高的水平,而PHOT1调节质外体中的Ca2+进入细胞质。这项工作对于认识植物的向光反应的动态过程非常有意义,通过H+和Ca2+的离子动力学有助于揭开植物响应蓝光的机制。

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上图
蓝光处理后胚轴和子叶的H+、Ca2+流和pH变化(正值为内流)
关键词:蓝光(blue light,BL);非损伤微测技术(the noninvasive ion-selective microelectrode,MIFE); 向光素(phototropin);H+;Ca2+
参考文献:Olga Babourina, et al. PNAS, 2002, 99: 2433-2438
 

Abstract

Ion flux kinetics associated with blue light (BL) treatment of two wild types (WTs) and the phot1, phot2 and phot1/phot2 mutants of Arabidopsis were studied by using the MIFE noninvasive ion-selective microelectrode technique. BL induced significant changes in activity of H+ and Ca2+ transporters within the first 10 min of BL onset, peaking between 3 and 5 min. In all WT plants and in phot2 mutants, BL induced immediate Ca2+ influx. In phot1 and phot1/phot2 mutants, net Ca2+ flux remained steady. It is suggested that PHOT1 regulates Ca2+ uptake into the cytoplasm from the apoplast. Changes in ion fluxes were measured from cotyledons of intact seedlings and from the cut top of the hypocotyl of decapitated seedlings. Thus the photoreceptors mediating BL-induced Ca2+ and H+ fluxes are present in the rest of the decapitated seedling and probably in the cotyledons as well. The H+ and Ca2+ flux responses to BL appear not to be linked because, (i) when changes were observed for both ions, Ca2+ flux changed almost immediately, whereas H+ flux lagged by about 1.5 min; (ii) in the Wassilewskija ecotype, changes in H+ fluxes were small. Finally, wave-like changes in Ca2+ and H+ concentrations were observed along the cotyledon–hook axis regardless of its orientation to the light.

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