Membrane Proteomic Responses in Sugar Beet Roots to Salt Stress

Journal of proteomics & bioinformatics Pub Date : 2021-01-01 DOI:10.35248/0974-276X.21.14.541

Jinna Li, Jianing Kang, P. Liao, Bing-Yun Yu, Sixue Chen, Haiying Li, Chunquan Ma

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引用次数: 1

Abstract

Salt stress as one of the major abiotic stresses limits the world crop production. Sugar beet monosomic addition line M14 is a unique germplasm with salt stress tolerance, and root is directly exposed to salt stress in the soil. Here we report changes in root membrane proteome of the M14 plants in response to 0, 200 mM and 400 mM NaCl treatment using iTRAQ LC-MS/MS quantitative proteomics. A total of 115 differentially expressed membrane proteins (96 increased and 19 decreased) were identified with a significant fold change of >2.0. The proteins were mainly involved in the processes of transport, signaling, stress and defense, energy, protein degradation, and transcription. Transcriptional changes of 10 genes encoding the differential membrane proteins were analyzed using real-time PCR, and seven genes showed a positive correlation between transcriptional and protein levels. These results have revealed interesting mechanisms underlying the M14 root response to the salt stress, which may have potential applications toward improving crop salt tolerance through genetic engineering and molecular breeding.

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甜菜根膜蛋白质组学对盐胁迫的响应

盐胁迫是制约世界作物生产的主要非生物胁迫之一。甜菜单体附加系M14是一种独特的耐盐胁迫种质，根系在土壤中直接受到盐胁迫。本研究利用iTRAQ LC-MS/MS定量蛋白质组学技术，报道了M14植株在0、200和400 mM NaCl处理下根膜蛋白质组学的变化。共鉴定出115个差异表达膜蛋白(96个升高，19个降低)，bbb2.0显著翻倍变化。这些蛋白主要参与转运、信号转导、应激和防御、能量、蛋白质降解和转录等过程。利用实时荧光定量PCR分析了编码差异膜蛋白的10个基因的转录变化，其中7个基因的转录与蛋白水平呈正相关。这些结果揭示了M14根系对盐胁迫响应的有趣机制，可能在通过基因工程和分子育种提高作物耐盐性方面具有潜在的应用价值。

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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Journal of proteomics & bioinformatics

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