地衣芽孢杆菌 BlEst2 的前肽和成熟形式结构揭示了 C 端结构域的自动抑制作用

Aline Minali Nakamura, Andre Schutzer Godoy, Marco Antônio Seiki Kadowaki, Lucas N. Trentin, Sinkler E. T. Gonzalez, Munir S. Skaf, Igor Polikarpov
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引用次数: 0

摘要

羧基酯酶是α/β-倍水解酶的一个主要类别,负责酯键的裂解和形成。这些酶在自然界中普遍存在,对动物、植物和微生物中内源性和外源性羧基酯的新陈代谢至关重要。除了其重要的生理作用外,羧基酯酶还是生物技术中重要的生物催化剂之一。BlEst2 是一种以前被归类为地衣芽孢杆菌酯酶的酶,但它在很大程度上仍未被定性。在本研究中,我们阐明了 BlEst2 的结构生物学、分子动力学和生物化学特征。我们的研究结果表明,BlEst2 具有类似于脂肪酶 ESTHER Block L 的典型 α/β-hydrolase 折叠结构,并通过两个额外的辅助 C 端结构域进一步增强。值得注意的是,催化结构域有两个插入物,这两个插入物占据了α/β-水解酶蛋白中的保守位置,通常构成脂肪酶结构中的 "盖 "结构域。有趣的是,我们在体外裂解 C 端结构域时发现了 BlEst2 活性形式的结构。激活后,BlEst2 显示出明显升高的水解活性。这一观察结果表明,分子内 C-末端结构域起到了分子内抑制剂的调节作用。有趣的是,尽管 BlEst2 表现出类似酯酶的活性,但其结构特征更接近于脂肪酶。这表明 BlEst2 有可能代表羧基酯水解酶领域中一个以前未被认识的亚群。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Structures of BlEst2 from Bacillus licheniformis in its propeptide and mature forms reveal autoinhibitory effects of the C‐terminal domain
Carboxylesterases comprise a major class of α/β‐fold hydrolases responsible for the cleavage and formation of ester bonds. Found ubiquitously in nature, these enzymes are crucial for the metabolism of both endogenous and exogenous carboxyl esters in animals, plants and microorganisms. Beyond their essential physiological roles, carboxylesterases stand out as one of the important classes of biocatalysts for biotechnology. BlEst2, an enzyme previously classified as Bacillus licheniformis esterase, remains largely uncharacterized. In the present study, we elucidate the structural biology, molecular dynamics and biochemical features of BlEst2. Our findings reveal a canonical α/β‐hydrolase fold similar to the ESTHER block L of lipases, further augmented by two additional accessory C‐terminal domains. Notably, the catalytic domain demonstrates two insertions, which occupy conserved locations in α/β‐hydrolase proteins and commonly form the lid domain in lipase structures. Intriguingly, our in vitro cleavage of C‐terminal domains revealed the structure of the active form of BlEst2. Upon activation, BlEst2 showed a markedly elevated hydrolytic activity. This observation implies that the intramolecular C‐terminal domain serves as a regulatory intramolecular inhibitor. Interestingly, despite exhibiting esterase‐like activity, BlEst2 structural characteristics align more closely with lipases. This suggests that BlEst2 could potentially represent a previously unrecognized subgroup within the realm of carboxyl ester hydrolases.
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