EPR studies of ferredoxin in spinach and cyanobacterial thylakoids related to photosystem I-driven NADP+ reduction.

IF 2.9 3区 生物学 Q2 PLANT SCIENCES
Photosynthesis Research Pub Date : 2024-12-01 Epub Date: 2024-03-05 DOI:10.1007/s11120-023-01072-4
Lisa M Utschig, Colin L Duckworth, Jens Niklas, Oleg G Poluektov
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引用次数: 0

Abstract

Photosynthetic light-dependent reactions occur in thylakoid membranes where embedded proteins capture light energy and convert it to chemical energy in the form of ATP and NADPH for use in carbon fixation. One of these integral membrane proteins is Photosystem I (PSI). PSI catalyzes light-driven transmembrane electron transfer from plastocyanin (Pc) to oxidized ferredoxin (Fd). Electrons from reduced Fd are used by the enzyme ferredoxin-NADP+ reductase (FNR) for the reduction of NADP+ to NADPH. Fd and Pc are both small soluble proteins whereas the larger FNR enzyme is associated with the membrane. To investigate electron shuttling between these diffusible and embedded proteins, thylakoid photoreduction of NADP+ was studied. As isolated, both spinach and cyanobacterial thylakoids generate NADPH upon illumination without extraneous addition of Fd. These findings indicate that isolated thylakoids either (i) retain a "pool" of Fd which diffuses between PSI and membrane bound FNR or (ii) that a fraction of PSI is associated with Fd, with the membrane environment facilitating PSI-Fd-FNR interactions which enable multiple turnovers of the complex with a single Fd. To explore the functional association of Fd with PSI in thylakoids, electron paramagnetic resonance (EPR) spectroscopic methodologies were developed to distinguish the signals for the reduced Fe-S clusters of PSI and Fd. Temperature-dependent EPR studies show that the EPR signals of the terminal [4Fe-4S] cluster of PSI can be distinguished from the [2Fe-2S] cluster of Fd at > 30 K. At 50 K, the cw X-band EPR spectra of cyanobacterial and spinach thylakoids reduced with dithionite exhibit EPR signals of a [2Fe-2S] cluster with g-values gx = 2.05, gy = 1.96, and gz = 1.89, confirming that Fd is present in thylakoid preparations capable of NADP+ photoreduction. Quantitation of the EPR signals of P700+ and dithionite reduced Fd reveal that Fd is present at a ratio of ~ 1 Fd per PSI monomer in both spinach and cyanobacterial thylakoids. Light-driven electron transfer from PSI to Fd in thylakoids confirms Fd is functionally associated (< 0.4 Fd/PSI) with the acceptor end of PSI in isolated cyanobacterial thylakoids. These EPR experiments provide a benchmark for future spectroscopic characterization of Fd interactions involved in multistep relay of electrons following PSI charge separation in the context of photosynthetic thylakoid microenvironments.

Abstract Image

与光系统 I 驱动的 NADP+ 还原有关的菠菜和蓝藻叶绿体中铁氧还蛋白的 EPR 研究。
光合作用依赖光的反应发生在类囊体膜中,其中的嵌入式蛋白质捕捉光能,并将其转化为 ATP 和 NADPH 形式的化学能,用于碳固定。光系统 I(PSI)就是这些整体膜蛋白之一。PSI 催化光驱动的跨膜电子转移,从质体花青素(Pc)转移到氧化的铁氧还原蛋白(Fd)。还原 Fd 的电子被铁毒素-NADP+还原酶(FNR)用于将 NADP+ 还原成 NADPH。Fd 和 Pc 都是小型可溶性蛋白,而较大的 FNR 酶则与膜有关。为了研究这些扩散蛋白和嵌入蛋白之间的电子穿梭,我们对 NADP+ 的类囊体光反应进行了研究。经分离,菠菜和蓝藻的硫球都能在光照下产生 NADPH,而无需额外添加 Fd。这些研究结果表明,离体的硫球要么(i)保留了在 PSI 和膜结合 FNR 之间扩散的 Fd "池",要么(ii)一部分 PSI 与 Fd 相关联,膜环境促进了 PSI-Fd-FNR 的相互作用,从而使单个 Fd 的复合物能够多次翻转。为了探索 Fd 与硫球中 PSI 的功能关联,我们开发了电子顺磁共振(EPR)光谱方法,以区分 PSI 和 Fd 的还原 Fe-S 簇的信号。与温度相关的 EPR 研究表明,在 > 30 K 时,PSI 的末端 [4Fe-4S] 簇的 EPR 信号可与 Fd 的 [2Fe-2S] 簇区分开来。在 50 K 时,用连二亚硫酸盐还原的蓝藻和菠菜硫球的 cw X 波段 EPR 光谱显示出[2Fe-2S]簇的 EPR 信号,其 g 值为 gx = 2.05、gy = 1.96 和 gz = 1.89,证实 Fd 存在于能够进行 NADP+ 光还原的硫球制备物中。对 P700+ 和亚硫酸氢盐还原 Fd 的 EPR 信号的定量分析显示,在菠菜和蓝藻的硫球中,Fd 的存在比例为每个 PSI 单体约 1 个 Fd。光驱动的电子传递从PSI到Fd,证实了Fd在功能上与菠菜和蓝藻的叶绿体中的PSI单体(P700+和二亚硫酸盐还原的Fd)有关。
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来源期刊
Photosynthesis Research
Photosynthesis Research 生物-植物科学
CiteScore
6.90
自引率
8.10%
发文量
91
审稿时长
4.5 months
期刊介绍: Photosynthesis Research is an international journal open to papers of merit dealing with both basic and applied aspects of photosynthesis. It covers all aspects of photosynthesis research, including, but not limited to, light absorption and emission, excitation energy transfer, primary photochemistry, model systems, membrane components, protein complexes, electron transport, photophosphorylation, carbon assimilation, regulatory phenomena, molecular biology, environmental and ecological aspects, photorespiration, and bacterial and algal photosynthesis.
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