5-脱氧腺苷代谢:不仅仅是“废物处理”。

Pub Date : 2021-01-01 Epub Date: 2021-06-14 DOI:10.1159/000516105
Johanna Rapp, Karl Forchhammer
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引用次数: 1

摘要

5-脱氧腺苷(5dAdo)是生命所有领域中许多自由基SAM酶反应的副产物,也是自由基SAM酶本身的抑制剂。因此,回收或处理这种有毒副产品的途径肯定存在,但在很大程度上仍未被探索。在这篇综述中,我们讨论了近年来关于典型和非典型5dAdo打捞途径的最新知识。我们重点报道了在某些生物体中,通过特定途径回收5dAdo如何通过为合成次级代谢物提供中间体或为合成中央碳代谢代谢物提供碳源而赋予生长优势的研究。然而,在生物体中存在另一种循环途径,即使用5dAdo作为底物合成和排泄7-脱氧sedoheptulose,这是莽草酸途径中一种酶的化感抑制剂,从而竞争自己的生态位。值得注意的是,5dAdo修复的大多数步骤都是混杂酶活性的结果。这种策略使即使是基因组较小的生物体也能合成生物活性化合物,它们可以在特定条件下利用这些化合物来获得竞争增长优势。我们的结论强调,出乎意料的是,5dAdo打捞途径似乎并不普遍存在,这就对这些物种中这种有毒副产品的命运提出了疑问。这一观察结果还表明,可能存在其他可能依赖于混杂酶活性的5dAdo挽救途径。未来的挑战将是揭示这些“神秘的”5dAdo回收途径。
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5-Deoxyadenosine Metabolism: More than "Waste Disposal".

5-Deoxyadenosine (5dAdo) is a by-product of many radical SAM enzyme reactions in all domains of life, and an inhibitor of the radical SAM enzymes themselves. Hence, pathways to recycle or dispose of this toxic by-product must exist but remain largely unexplored. In this review, we discuss the current knowledge about canonical and atypical 5dAdo salvage pathways that have been characterized in the last years. We highlight studies that report on how, in certain organisms, the salvage of 5dAdo via specific pathways can confer a growth advantage by providing either intermediates for the synthesis of secondary metabolites or a carbon source for the synthesis of metabolites of the central carbon metabolism. Yet, an alternative recycling route exists in organisms that use 5dAdo as a substrate to synthesize and excrete 7-deoxysedoheptulose, an allelopathic inhibitor of one enzyme of the shikimate pathway, thereby competing for their own niche. Remarkably, most steps of 5dAdo salvage are the result of the activity of promiscuous enzymes. This strategy enables even organisms with a small genome to synthesize bioactive compounds which they can deploy under certain conditions to gain a competitive growth advantage. We conclude emphasizing that, unexpectedly, 5dAdo salvage pathways seem not to be ubiquitously present, raising questions about the fate of such a toxic by-product in those species. This observation also suggests that additional 5dAdo salvage pathways, possibly relying on the activity of promiscuous enzymes, may exist. The future challenge will be to bring to light these "cryptic" 5dAdo recycling pathways.

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