Protein and lipid characterization of wheat roots plasma membrane damaged by Fe and H 2 O 2 using ATR-FTIR method

Xin Zhao, Xiaojun Yang, Yong Shi, Guoxiong Chen, Xin‐rong Li
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引用次数: 8

Abstract

In plant cells the plasma membrane is a highly elaborated structure that functions as the point of exchange with adjoining cells, cell walls and the external environment. In this study, we investigated the structure and function characteristic of wheat root plasma membrane (PM) as affected by H2O2 and Fe by using fluorescence spectroscopic and attenuated total reflectance infrared (ATR-IR) techniques. The results showed that these oxidant damaged induced an obviously reduced membrane fluidity were observed in the roots PM treated with the 200 μM H2O2, FeSO4, and FeCl3. Computer-aided software analyses of the FTIR spectrum indicated that the content of the α-helices decreased and β-sheet increased in the secondary structures of proteins after exposure to the oxidants of 200 μM H2O2, FeSO4, and FeCl3. The number of P=O and C=C bonds area declined rapidly in the lipids of the membrane under the oxidants stress. These structural alterations might explain the reason of the roots PM instability under most of the abiotic stress.
用ATR-FTIR法表征铁和h2o2对小麦根质膜的破坏
在植物细胞中,质膜是一种高度复杂的结构,其功能是与相邻细胞、细胞壁和外部环境进行交换。本研究利用荧光光谱和衰减全反射红外(ATR-IR)技术研究了H2O2和Fe对小麦根质膜(PM)结构和功能的影响。结果表明,在200 μM H2O2、FeSO4和FeCl3处理下,这些氧化损伤导致根系PM膜流动性明显降低。计算机辅助软件FTIR分析表明,在200 μM H2O2、FeSO4和FeCl3的氧化作用下,蛋白质二级结构中α-螺旋的含量减少,β-片的含量增加。氧化胁迫下膜脂质中P=O和C=C键面积迅速减少。这些结构变化可能解释了在大多数非生物胁迫下根系PM不稳定的原因。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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