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FTR 样铁氧还蛋白:硫氧还蛋白还原酶家族第 4 组原型的催化活性受独特的 = 7/2 和 = 1/2 [4Fe-4S] 簇调节。

Catalytic Activity of the Archetype from Group 4 of the FTR-like Ferredoxin:Thioredoxin Reductase Family Is Regulated by Unique = 7/2 and = 1/2 [4Fe-4S] Clusters.

机构信息

School of Chemical and Biomolecular Sciences, Southern Illinois University-Carbondale, Carbondale, Illinois 62901, United States.

Department of Chemistry, The Carnegie Mellon University, Pittsburgh,, Pennsylvania 15213, United States.

出版信息

Biochemistry. 2024 Jun 18;63(12):1588-1598. doi: 10.1021/acs.biochem.3c00651. Epub 2024 May 31.

DOI:10.1021/acs.biochem.3c00651
PMID:38817151
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11234629/
Abstract

Thioredoxin reductases (TrxR) activate thioredoxins (Trx) that regulate the activity of diverse target proteins essential to prokaryotic and eukaryotic life. However, very little is understood of TrxR/Trx systems and redox control in methanogenic microbes from the domain (methanogens), for which genomes are abundant with annotations for ferredoxin:thioredoxin reductases [Fdx/thioredoxin reductase (FTR)] from group 4 of the widespread FTR-like family. Only two from the FTR-like family are characterized: the plant-type FTR from group 1 and FDR from group 6. Herein, the group 4 archetype (AFTR) from was characterized to advance understanding of the family and TrxR/Trx systems in methanogens. The modeled structure of AFTR, together with EPR and Mössbauer spectroscopies, supports a catalytic mechanism similar to plant-type FTR and FDR, albeit with important exceptions. EPR spectroscopy of reduced AFTR identified a transient [4Fe-4S] cluster exhibiting a mixture of = 7/2 and typical = 1/2 signals, although rare for proteins containing [4Fe-4S] clusters, it is most likely the on-pathway intermediate in the disulfide reduction. Furthermore, an active site histidine equivalent to residues essential for the activity of plant-type FTR and FDR was found dispensable for AFTR. Finally, a unique thioredoxin system was reconstituted from AFTR, ferredoxin, and Trx2 from , for which specialized target proteins were identified that are essential for growth and other diverse metabolisms.

摘要

硫氧还蛋白还原酶 (TrxR) 可激活硫氧还蛋白 (Trx),调节各种靶蛋白的活性,这些靶蛋白对原核生物和真核生物的生命活动至关重要。然而,对于域(产甲烷菌)中的产甲烷微生物中的 TrxR/Trx 系统和氧化还原调控,人们知之甚少,这些微生物的基因组中富含广泛的 FTR 样家族第 4 组的铁氧还蛋白:硫氧还蛋白还原酶 [Fdx/硫氧还蛋白还原酶 (FTR)] 的注释。只有两种 FTR 样家族被表征:来自第 1 组的植物型 FTR 和来自第 6 组的 FDR。在此,表征了来自 的第 4 组原型 (AFTR),以深入了解家族和产甲烷菌中的 TrxR/Trx 系统。AFTR 的模型结构以及 EPR 和 Mössbauer 光谱学支持类似于植物型 FTR 和 FDR 的催化机制,尽管存在重要的例外。还原型 AFTR 的 EPR 光谱鉴定出一种瞬态 [4Fe-4S] 簇,其表现出 = 7/2 和典型的 = 1/2 信号的混合物,尽管对于含有 [4Fe-4S] 簇的蛋白质来说很少见,但它很可能是二硫键还原的途径中的中间产物。此外,发现植物型 FTR 和 FDR 活性所必需的活性位点组氨酸等效物对 AFTR 是可有可无的。最后,从 中的 AFTR、铁氧还蛋白和 Trx2 重新构建了一个独特的硫氧还蛋白系统,鉴定出对生长和其他多样化代谢至关重要的专门靶蛋白。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9d45/11234629/0739764ff55c/nihms-2006911-f0007.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9d45/11234629/14f451e0c187/nihms-2006911-f0006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9d45/11234629/0739764ff55c/nihms-2006911-f0007.jpg

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