Differential sensitivities of photosynthetic component processes govern oxidative stress levels and net assimilation rates in virus-infected cotton.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
ACS Applied Bio Materials Pub Date : 2023-10-01 Epub Date: 2023-07-20 DOI:10.1007/s11120-023-01038-6
Ved Parkash, John L Snider, Cristiane Pilon, Sudeep Bag, David Jespersen, Gurpreet Virk, Kamalpreet Kaur Dhillon
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Abstract

Cotton (Gossypium hirsutum L.) leafroll dwarf virus disease (CLRDD) is a yield-limiting threat to cotton production and can substantially limit net photosynthetic rates (AN). Previous research showed that AN was more sensitive to CLRDD-induced reductions in stomatal conductance than electron transport rate (ETR) through photosystem II (PSII). This observation coupled with leaf reddening symptomology led to the hypothesis that differential sensitivities of photosynthetic component processes to CLRDD would contribute to declines in AN and increases in oxidative stress, stimulating anthocyanin production. Thus, an experiment was conducted to define the relative sensitivity of photosynthetic component processes to CLRDD and to quantify oxidative stress and anthocyanin production in field-grown cotton. Among diffusional limitations to AN, reductions in mesophyll conductance and CO2 concentration in the chloroplast were the greatest constraints to AN under CLRDD. Multiple metabolic processes were also adversely impacted by CLRDD. ETR, RuBP regeneration, and carboxylation were important metabolic (non-diffusional) limitations to AN in symptomatic plants. Photorespiration and dark respiration were less sensitive than photosynthetic processes, contributing to declines in AN in symptomatic plants. Among thylakoid processes, reduction of PSI end electron acceptors was the most sensitive to CLRDD. Oxidative stress indicators (H2O2 production and membrane peroxidation) and anthocyanin contents were substantially higher in symptomatic plants, concomitant with reductions in carotenoid content and no change in energy dissipation by PSII. We conclude that differential sensitivities of photosynthetic processes to CLRDD and limited potential for energy dissipation at PSII increases oxidative stress, stimulating anthocyanin production as an antioxidative mechanism.

Abstract Image

光合成分过程的不同敏感性决定了感染病毒的棉花的氧化应激水平和净同化率。
棉花(Gossypium hirsutum L.)卷叶矮缩病毒病(CLRDD)是棉花产量的限制性威胁,并可显著限制净光合速率(AN)。先前的研究表明,AN对CLRDD诱导的气孔导度降低比通过光系统II(PSII)的电子传输速率(ETR)更敏感。这一观察结果与叶片变红症状相结合,导致了一种假设,即光合成分过程对CLRDD的不同敏感性将导致AN的下降和氧化应激的增加,从而刺激花青素的产生。因此,进行了一项实验来确定光合成分过程对CLRDD的相对敏感性,并量化田间种植的棉花的氧化应激和花青素的产生。在AN的扩散限制中,叶肉电导和叶绿体中CO2浓度的降低是CLRDD下AN的最大限制。多种代谢过程也受到CLRDD的不利影响。ETR、RuBP再生和羧化是有症状植物中AN的重要代谢(非扩散)限制。光呼吸和暗呼吸不如光合过程敏感,这有助于症状植物中AN的下降。在类囊体过程中,PSI末端电子受体的还原对CLRDD最敏感。在有症状的植物中,氧化应激指标(H2O2产生和膜过氧化)和花青素含量显著较高,同时类胡萝卜素含量降低,PSII的能量耗散没有变化。我们的结论是,光合过程对CLRDD的不同敏感性和PSII能量耗散的有限潜力增加了氧化应激,刺激花青素的产生,这是一种抗氧化机制。
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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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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