Inhomogeneous energy transfer dynamics from iron-stress-induced protein A to photosystem I

Frontiers in Plant Science Pub Date : 2024-05-16 DOI:10.3389/fpls.2024.1393886

P. Akhtar, Sanjib Jana, P. Lambrev, Howe-Siang Tan

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Abstract

Cyanobacteria respond to iron limitation by producing the pigment-protein complex IsiA, forming rings associated with photosystem I (PSI). Initially considered a chlorophyll-storage protein, IsiA is known to act as an auxiliary light-harvesting antenna of PSI, increasing its absorption cross-section and reducing the need for iron-rich PSI core complexes. Spectroscopic studies have demonstrated efficient energy transfer from IsiA to PSI. Here we investigate the room-temperature excitation dynamics in isolated PSI–IsiA, PSI, IsiA monomer complexes and IsiA aggregates using two-dimensional electronic spectroscopy. Cross analyses of the data from these three samples allow us to resolve components of energy transfer between IsiA and PSI with lifetimes of 2—3 ps and around 20 ps. Structure-based Förster theory calculations predict a single major timescale of IsiA-PSI equilibration, that depends on multiple energy transfer routes between different IsiA subunits in the ring. Despite the experimentally observed lifetime heterogeneity, which is attributed to structural heterogeneity of the supercomplexes, IsiA is found to be a unique, highly efficient, membrane antenna complex in cyanobacteria.

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从铁应激诱导蛋白 A 到光系统 I 的非均相能量传递动力学

蓝藻通过产生色素-蛋白质复合体 IsiA，形成与光系统 I（PSI）相关的环来应对铁限制。IsiA 最初被认为是一种叶绿素储存蛋白，但目前已知它可以作为 PSI 的辅助采光天线，增加其吸收截面，减少对富含铁的 PSI 核心复合物的需求。光谱研究表明，IsiA 能有效地将能量转移到 PSI。在此，我们利用二维电子能谱研究了分离的 PSI-IsiA、PSI、IsiA 单体复合物和 IsiA 聚集体的室温激发动力学。通过对这三种样品的数据进行交叉分析，我们解析了 IsiA 和 PSI 之间的能量转移成分，其生命期分别为 2-3 ps 和 20 ps 左右。基于结构的佛斯特理论计算预测了 IsiA-PSI 平衡的单一主要时间尺度，它取决于环中不同 IsiA 亚基之间的多种能量转移途径。尽管实验观察到的寿命异质性可归因于超级复合物的结构异质性，但仍发现 IsiA 是蓝藻中一种独特、高效的膜天线复合物。

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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Frontiers in Plant Science

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