在植物内源性蛋白质组和植物表达中发现活跃的鼠、植物和真菌细胞色素 P450。

Discovery of active mouse, plant and fungal cytochrome P450s in endogenous proteomes and upon expression in planta.

机构信息

The Plant Chemetics Laboratory, Department of Biology, University of Oxford, Oxford, UK.

Chemistry Research Laboratory, Department of Chemistry, University of Oxford, Oxford, UK.

出版信息

Sci Rep. 2024 May 2;14(1):10091. doi: 10.1038/s41598-024-60333-x.

DOI:10.1038/s41598-024-60333-x

PMID:38698065

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11066006/

Abstract

Eukaryotes produce a large number of cytochrome P450s that mediate the synthesis and degradation of diverse endogenous and exogenous metabolites. Yet, most of these P450s are uncharacterized and global tools to study these challenging, membrane-resident enzymes remain to be exploited. Here, we applied activity profiling of plant, mouse and fungal P450s with chemical probes that become reactive when oxidized by P450 enzymes. Identification by mass spectrometry revealed labeling of a wide range of active P450s, including six plant P450s, 40 mouse P450s and 13 P450s of the fungal wheat pathogen Zymoseptoria tritici. We next used transient expression of GFP-tagged P450s by agroinfiltration to show ER-targeting and NADPH-dependent, activity-based labeling of plant, mouse and fungal P450s. Both global profiling and transient expression can be used to detect a broad range of active P450s to study e.g. their regulation and discover selective inhibitors.

摘要

真核生物产生大量细胞色素 P450，介导各种内源性和外源性代谢物的合成和降解。然而，这些 P450 中的大多数尚未被描述，并且用于研究这些具有挑战性的膜驻留酶的全球工具仍有待开发。在这里，我们应用化学探针对植物、小鼠和真菌 P450 的活性进行了分析，这些探针在被 P450 酶氧化时会变得具有反应性。通过质谱鉴定揭示了广泛的活性 P450 的标记，包括六种植物 P450、40 种小鼠 P450 和真菌小麦病原体玉蜀黍平脐蠕孢中的 13 种 P450。接下来，我们通过农杆菌浸润瞬时表达 GFP 标记的 P450，显示了植物、小鼠和真菌 P450 的 ER 靶向和 NADPH 依赖性、基于活性的标记。全局分析和瞬时表达都可用于检测广泛的活性 P450，以研究例如它们的调节和发现选择性抑制剂。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/db83/11066006/88e5e866e730/41598_2024_60333_Fig1_HTML.jpg

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在植物内源性蛋白质组和植物表达中发现活跃的鼠、植物和真菌细胞色素 P450。

Discovery of active mouse, plant and fungal cytochrome P450s in endogenous proteomes and upon expression in planta.

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