卵硫醇生物合成中亚砜合成酶的复杂进化史

M. Gerdol, M. Sollitto, A. Pallavicini, I. Castellano
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引用次数: 23

摘要

亚砜合成酶是参与小的含硫天然产物的生物合成的酶。它们的酶活性代表了一种独特的硫转移策略,即在组氨酸的咪唑环上插入一个硫原子。迄今为止,已知只有两种酶具有这一功能:参与真菌和细菌中麦角硫因生物合成的亚硫化物合成酶EgtB,以及参与卵硫醇生物合成的5-组氨酸半胱氨酸亚硫化物合成酶OvoA,卵硫醇存在于海洋无脊椎动物、一些变形细菌和原生生物的卵和生物体液中。特别是卵硫醇,由于其独特的氧化还原特性,可能是最有趣的海洋含硫分子。虽然它们一直被认为是细胞保护分子,但新的证据表明,它们的生物活性和生态作用可能比原先想象的要复杂得多。在此,我们研究了后生动物OvoA的进化历史,报告了其单系的古老起源,可以追溯到最近的共同祖先Choanozoa。然而,我们发现OvoA在几个主要的现存分类群中缺失,并根据后生动物中记录的大量基因组减少事件讨论了这种斑块分布。我们还强调了两个有趣的通过水平基因转移进行二次获取的案例,这发生在水螅动物和蛭形轮虫中。这种代谢途径的进化成功可能归因于其在维持细胞氧化还原稳态中的作用,这使得生物体能够在不同的环境中生存。
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The complex evolutionary history of sulfoxide synthase in ovothiol biosynthesis
Sulfoxide synthases are enzymes involved in the biosynthesis of small sulfur-containing natural products. Their enzymatic activity represents a unique sulfur transfer strategy in nature that is the insertion of a sulfur atom on the imidazole ring of histidine. To date, only two enzymes are known to carry out this function: the sulfoxide synthase EgtB, involved in the biosynthesis of ergothioneine in fungi and bacteria, and the 5-histidylcysteine sulfoxide synthase OvoA, involved in the biosynthesis of ovothiols, found in the eggs and biological fluids of marine invertebrates, some proteobacteria and protists. In particular, ovothiols, thanks to their unique redox properties, are probably the most intriguing marine sulfur-containing molecules. Although they have long been considered as cellular protective molecules, new evidence suggest that their biological activities and ecological role might be more complex than originally thought. Here, we investigate the evolutionary history of OvoA in Metazoa, reporting its monophyletic ancient origins, which could be traced back to the latest common ancestor of Choanozoa. Nevertheless, we show that OvoA is missing in several major extant taxa and we discuss this patchy distribution in the light of the massive genome reduction events documented in Metazoa. We also highlight two interesting cases of secondary acquisition through horizontal gene transfer, which occurred in hydrozoans and bdelloid rotifers. The evolutionary success of this metabolic pathway is probably ascribable to its role in the maintenance of cellular redox homeostasis, which enables organisms to survive in different environmental niches.
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