玉米根系H+- atp酶的电子细胞化学研究

IF 0.4 Q4 PLANT SCIENCES
O. Nedukha, E. Kordyum, G. Shevchenko, J. V. Ovcharenko
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引用次数: 0

摘要

Mg2+激活的ÐÂ +-ÐÂ′Ð′Pase在21日龄玉米根远端伸长区(DEZ)皮质细胞定位的电子细胞化学研究结果。“Perejaslavsky”和简历。“Dostatok”)在不同的土壤湿度(70%和20%)下生长。利用电子细胞化学方法证实了H+- atp酶参与了玉米对土壤水分减少条件的适应过程。土壤湿度降低(至20%)对根系DEZ细胞细胞膜内H+- atp酶活性位置的重新分布有影响。我们提出发现的差异减少产品的细胞化学的反应在质膜和液泡膜上增加他们的区域细胞的液泡丢在干旱条件下的根明显提高膨细胞对优化他们的增长和最佳生理状态和植物适应减少水分在土壤中。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Electroncytochemical study of H+-ATPase in maize roots
The results of electron-cytochemical study of the localization of Mg2+-activated Н+-АТPase in Zea mays cortex cells of distal elongation zone (DEZ) of roots of 21-days old plants (cv. ‘Perejaslavsky’ and cv. ‘Dostatok’) grown under different soil moisture (70% and 20%) are presented. The participation of H+-ATPase in processes of maize adaptation to the conditions of reduced soil moisture was confirmed by electron-cytochemical method. The redistribution of H+-ATPase activity location in the cell membranes of DEZ cells of roots are revealed under influence of lowered soil humidity (to 20%). We proposed that the detected differences in reducing of products area of cytochemical reaction on plasma membrane and increasing of their area on tonoplast of vacuoles in the cells of DEZ of roots under conditions of drought obviously enhance turgor cells for optimize their growth and optimal physiological state and also for plant adaptation to reduce moisture in the soil.
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来源期刊
Modern Phytomorphology
Modern Phytomorphology PLANT SCIENCES-
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