Xanthophyll-cycle based model of the rapid photoprotection of Nannochloropsis in response to regular and irregular light/dark sequences.

The Journal of chemical physics Pub Date : 2022-05-09 DOI:10.1063/5.0089335

Audrey H. Short, Thomas P Fay, Thien Crisanto, Johanna Hall, Collin J. Steen, K. Niyogi, David T. Limmer, G. Fleming

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引用次数: 10

Abstract

We explore the photoprotection dynamics of Nannochloropsis oceanica using time-correlated single photon counting under regular and irregular actinic light sequences. The varying light sequences mimic natural conditions, allowing us to probe the real-time response of non-photochemical quenching (NPQ) pathways. Durations of fluctuating light exposure during a fixed total experimental time and prior light exposure of the algae are both found to have a profound effect on NPQ. These observations are rationalized with a quantitative model based on the xanthophyll cycle and the protonation of LHCX1. The model is able to accurately describe the dynamics of non-photochemical quenching across a variety of light sequences. The combined model and observations suggest that the accumulation of a quenching complex, likely zeaxanthin bound to a protonated LHCX1, is responsible for the gradual rise in NPQ. Additionally, the model makes specific predictions for the light sequence dependence of xanthophyll concentrations that are in reasonable agreement with independent chromatography measurements taken during a specific light/dark sequence.

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基于叶黄素循环的纳米叶绿体对规则和不规则光/暗序列的快速光保护模型

利用时间相关的单光子计数方法，研究了海洋纳米绿藻在规则光化序列和不规则光化序列下的光保护动力学。不同的光序列模拟自然条件，使我们能够探测非光化学猝灭(NPQ)途径的实时响应。在固定的总实验时间内，波动光照射的持续时间和藻类先前的光照射都对NPQ有深远的影响。基于叶黄素循环和LHCX1质子化的定量模型对这些观察结果进行了合理化。该模型能够准确地描述跨各种光序列的非光化学猝灭动力学。综合模型和观察结果表明，猝灭复合物的积累，可能是玉米黄质与质子化的LHCX1结合，是NPQ逐渐上升的原因。此外，该模型对叶黄素浓度的光序列依赖性做出了具体的预测，这些预测与在特定光/暗序列期间进行的独立色谱测量相一致。

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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The Journal of chemical physics

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