对一种远红异藻花青素进行晶体学和生物化学分析,以解决超红移的机制问题。

IF 2.9 3区 生物学 Q2 PLANT SCIENCES
Photosynthesis Research Pub Date : 2024-12-01 Epub Date: 2024-01-06 DOI:10.1007/s11120-023-01066-2
Li-Juan Zhou, Astrid Höppner, Yi-Qing Wang, Jian-Yun Hou, Hugo Scheer, Kai-Hong Zhao
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引用次数: 0

摘要

远红吸收异藻蓝蛋白(APC)是在能够进行远红光光螯合(FaRLiP)和弱光光螯合(LoLiP)的蓝藻中发现的,它吸收远红光,作为光收集蛋白在能量转移中发挥作用。我们报告了一种优化的方法,通过在大肠杆菌中合成和改进的纯化方案,获得了高纯度的Chroococcidiopsis thermalis sp.三聚体(PCB-ApcD5/PCB-ApcB2)3 的晶体结构已解析到 2.8 Å。与吸收波长范围在 650-670 nm 的传统 APC 相比,其主要区别在于发色团大体平坦,共平面性特别是从 BCD 环延伸到 A 环。在与β亚基复配时,它甚至会进一步红移(λmax,吸收 = 707 nm,λmax,发射 = 721 nm)。诱变数据证实了环 A 与这种偏移的相关性。已生成的 α 亚基变体 I123M 在没有 β 亚基的情况下已显示出强烈的 FR 波段,我们讨论了一个可能的模型。已知还有两种机制可以使发色团光谱发生红移:内酰胺-内酰胺同分异构和发色团的去质子化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Crystallographic and biochemical analyses of a far-red allophycocyanin to address the mechanism of the super-red-shift.

Crystallographic and biochemical analyses of a far-red allophycocyanin to address the mechanism of the super-red-shift.

Far-red absorbing allophycocyanins (APC), identified in cyanobacteria capable of FRL photoacclimation (FaRLiP) and low-light photoacclimation (LoLiP), absorb far-red light, functioning in energy transfer as light-harvesting proteins. We report an optimized method to obtain high purity far-red absorbing allophycocyanin B, AP-B2, of Chroococcidiopsis thermalis sp. PCC7203 by synthesis in Escherichia coli and an improved purification protocol. The crystal structure of the trimer, (PCB-ApcD5/PCB-ApcB2)3, has been resolved to 2.8 Å. The main difference to conventional APCs absorbing in the 650-670 nm range is a largely flat chromophore with the co-planarity extending, in particular, from rings BCD to ring A. This effectively extends the conjugation system of PCB and contributes to the super-red-shifted absorption of the α-subunit (λmax = 697 nm). On complexation with the β-subunit, it is even further red-shifted (λmax, absorption = 707 nm, λmax, emission = 721 nm). The relevance of ring A for this shift is supported by mutagenesis data. A variant of the α-subunit, I123M, has been generated that shows an intense FR-band already in the absence of the β-subunit, a possible model is discussed. Two additional mechanisms are known to red-shift the chromophore spectrum: lactam-lactim tautomerism and deprotonation of the chromophore that both mechanisms appear inconsistent with our data, leaving this question unresolved.

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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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