高效黄瓜根系中铁的摄取机制。
Fe uptake mechanism in fe-efficient cucumber roots.
机构信息
Istituto Chimica Agraria, Università di Milano, Via Celoria 2, Milano, Italy.
出版信息
Plant Physiol. 1990 Apr;92(4):908-11. doi: 10.1104/pp.92.4.908.
Abstract
Fe-efficient plants respond to iron stress both by morphological and physiological modifications. In roots of a Fe-efficient plant (Cucumis sativus L.) grown in the presence or in the absence of iron, the capacity to acidify the external medium, change in the transmembrane electrical potential, and the ATPase activity have been determined. Roots from plants grown in the absence of iron showed a great capacity to acidify the external medium, a higher transmembrane electrical potential difference (-145 millivolts, versus -105 millivolts), and a higher ATPase activity (+30%). The administration of Fe(2+), but not Fe(3+), caused a block of the acidification capacity, a great decrease in the transmembrane electrical potential difference in root cells, and a large inhibition of the ATPase activity of isolated microsomal membrane vesicles.
摘要
高效固氮植物通过形态和生理的改变来应对铁胁迫。在含有或不含有铁的条件下培养的高效固氮植物(黄瓜)的根中,测定了酸化外部介质、跨膜电势能变化和 ATP 酶活性的能力。在没有铁的条件下生长的植物的根具有很强的酸化外部介质的能力,跨膜电势能差更高(-145 毫伏,而-105 毫伏),ATP 酶活性更高(+30%)。添加 Fe(2+)而不是 Fe(3+)会导致酸化能力受阻,根细胞的跨膜电势能差大幅下降,以及分离的微粒体膜泡的 ATP 酶活性受到很大抑制。
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