Cavity-Based Discovery of New Fatty Acid Photodecarboxylases.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-09-24 DOI:10.1002/cbic.202400631

Stefan Simić, Marco Cespugli, Michael C Hetmann, Ursula Kahler, Valentina Jurkaš, Marikagiusy Di Giacomo, Maria E Russo, Antonio Marzocchella, Christian C Gruber, Bettina M Nestl, Christoph K Winkler, Wolfgang Kroutil

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Abstract

Light-dependent fatty acid photodecarboxylases (FAPs) hold significant potential for biotechnology, due to their capability to produce alka(e)nes directly from the corresponding (un)saturated natural fatty acids requiring light as the only reagent. This study expands the family of FAPs through cavity-based enzyme discovery methods. Thirty enzyme candidates with potential photodecarboxylation activity were identified by matching the cavities of four related template structures against the Protein Data Bank's flavoproteins, a library of proteins identified via the Foldseek Search Server, and homology models of sequences resulting from BLAST. Subsequent docking experiments narrowed this library to ten promising enzymes, which were expressed and assessed in vitro, identifying four photodecarboxylases. Out of these enzymes, the GMC oxidoreductase from Coccomyxa sp. Obi (CoFAP) was characterized in detail, which revealed high activity in the decarboxylation reactions of palmitic acid and octanoic acid and a broad pH tolerance (pH 6.5-9.5).

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基于空腔的新型脂肪酸光脱羧酶的发现。

依赖光的脂肪酸光解羧酶（FAPs）能够直接从相应的（非）饱和天然脂肪酸中产生烷基烯烃，只需要光作为唯一的试剂，因此在生物技术领域具有巨大的潜力。本研究通过基于空腔的酶发现方法，扩展了 FAPs 家族。通过将四种相关模板结构的空腔与蛋白质数据库的黄蛋白质、通过 Foldseek 搜索服务器识别的蛋白质库以及 BLAST 得到的序列同源模型进行比对，确定了 30 种具有潜在光脱羧活性的候选酶。随后的对接实验将这个库缩小到十种有希望的酶，对这些酶进行了体外表达和评估，确定了四种光解羧酶。在这些酶中，对来自奥比椰子菌的 GMC 氧化还原酶（CoFAP）进行了详细表征，结果表明它在棕榈酸和辛酸的脱羧反应中具有很高的活性，并具有广泛的 pH 耐受性（pH 值为 6.5-9.5）。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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