Natural diversifying evolution of nonribosomal peptide synthetases in a defensive symbiont reveals nonmodular functional constraints

PNAS Nexus Pub Date : 2024-09-13 DOI:10.1093/pnasnexus/pgae384

Zhiyuan Li, Laura P Ióca, Ruolin He, Mohamed S Donia

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Abstract

The modular architecture of nonribosomal peptide synthetases (NRPSs) has inspired efforts to study their evolution and engineering. Here, we analyze in detail a unique family of NRPSs from the defensive intracellular bacterial symbiont, Candidatus Endobryopsis kahalalidifaciens. We show that intensive and indiscriminate recombination events erase trivial sequence covariations induced by phylogenetic relatedness, revealing nonmodular functional constraints and clear recombination units. Moreover, we reveal unique substrate specificity determinants for multiple enzymatic domains, allowing us to accurately predict and experimentally discover the products of an orphan NRPS in Ca. E. kahalalidifaciens directly from environmental samples of its algal host. Finally, we expanded our analysis to 1531 diverse NRPS pathways and revealed similar functional constraints to those observed in Ca. E. kahalalidifaciens’ NRPSs. Our findings reveal the sequence bases of genetic exchange, functional constraints, and substrate specificity in Ca. E. kahalalidifaciens’ NRPSs, and highlight them as a uniquely primed system for diversifying evolution.

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防御性共生体中非核糖体肽合成酶的自然多样化进化揭示了非模块化功能限制

非核糖体肽合成酶（NRPSs）的模块化结构激发了人们研究其进化和工程学的努力。在这里，我们详细分析了细胞内防御性细菌共生体 Candidatus Endobryopsis kahalalidifaciens 的一个独特的 NRPSs 家族。我们发现，密集和无差别的重组事件消除了系统发育相关性引起的微不足道的序列共变，揭示了非模块化的功能限制和清晰的重组单元。此外，我们还揭示了多个酶结构域的独特底物特异性决定因素，使我们能够准确预测并通过实验发现 Ca.E. kahalidifaciens 的孤儿 NRPS 产物。最后，我们将分析范围扩大到 1531 种不同的 NRPS 通路，发现了与 Ca.E. kahalidifaciens 的 NRPSs 中观察到的类似功能限制。我们的发现揭示了 Ca.E. kahalidifaciens 的 NRPSs 中基因交换、功能限制和底物特异性的序列基础，并强调它们是一个独特的多样化进化系统。

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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PNAS Nexus

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