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单一氨基酸突变将 BLUF 结构域的光化学与 OaPAC 的酶功能解耦,并将酶驱动至开启状态。

Single Amino Acid Mutation Decouples Photochemistry of the BLUF Domain from the Enzymatic Function of OaPAC and Drives the Enzyme to a Switched-on State.

机构信息

Department of Chemistry, Stony Brook University, New York 11794, United States.

Department of Biophysics, Medical School, University of Pecs, Szigeti str. 12, 7624 Pecs, Hungary.

出版信息

J Mol Biol. 2024 Mar 1;436(5):168312. doi: 10.1016/j.jmb.2023.168312. Epub 2023 Oct 10.

DOI:10.1016/j.jmb.2023.168312
PMID:37827329
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11256462/
Abstract

Photoactivated adenylate cyclases (PACs) are light-activated enzymes that combine a BLUF (blue-light using flavin) domain and an adenylate cyclase domain that are able to increase the levels of the important second messenger cAMP (cyclic adenosine monophosphate) upon blue-light excitation. The light-induced changes in the BLUF domain are transduced to the adenylate cyclase domain via a mechanism that has not yet been established. One critical residue in the photoactivation mechanism of BLUF domains, present in the vicinity of the flavin is the glutamine amino acid close to the N5 of the flavin. The role of this residue has been investigated extensively both experimentally and theoretically. However, its role in the activity of the photoactivated adenylate cyclase, OaPAC has never been addressed. In this work, we applied ultrafast transient visible and infrared spectroscopies to study the photochemistry of the Q48E OaPAC mutant. This mutation altered the primary electron transfer process and switched the enzyme into a permanent 'on' state, able to increase the cAMP levels under dark conditions compared to the cAMP levels of the dark-adapted state of the wild-type OaPAC. Differential scanning calorimetry measurements point to a less compact structure for the Q48E OaPAC mutant. The ensemble of these findings provide insight into the important elements in PACs and how their fine tuning may help in the design of optogenetic devices.

摘要

光激活腺苷酸环化酶(PACs)是一种光激活酶,它结合了 BLUF(蓝光利用黄素)结构域和腺苷酸环化酶结构域,能够在蓝光激发下增加重要的第二信使 cAMP(环磷酸腺苷)的水平。BLUF 结构域中光诱导的变化通过尚未确定的机制传递到腺苷酸环化酶结构域。BLUF 结构域光激活机制中的一个关键残基,存在于黄素附近,是靠近黄素 N5 的谷氨酸残基。该残基的作用已经在实验和理论上进行了广泛的研究。然而,它在光激活的腺苷酸环化酶 OaPAC 的活性中的作用从未被涉及。在这项工作中,我们应用超快瞬态可见和红外光谱来研究 Q48E OaPAC 突变体的光化学。这种突变改变了初级电子转移过程,并将酶转换为永久的“开启”状态,与野生型 OaPAC 的黑暗适应状态相比,能够在黑暗条件下增加 cAMP 水平。差示扫描量热法测量表明 Q48E OaPAC 突变体的结构不太紧凑。这些发现的综合提供了对 PACs 中重要元素的深入了解,以及它们的精细调整如何有助于光遗传学设备的设计。

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本文引用的文献

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Unraveling the Photoactivation Mechanism of a Light-Activated Adenylyl Cyclase Using Ultrafast Spectroscopy Coupled with Unnatural Amino Acid Mutagenesis.
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IUCrJ. 2024 Nov 1;11(Pt 6):991-1006. doi: 10.1107/S2052252524010170.
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