AlphaFold2- 指导下的 CoBaHMA 描述,CoBaHMA 是重金属相关超家族中一个新的细菌结构域家族。

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-06-01 Epub Date: 2024-01-22 DOI:10.1002/prot.26668
Geoffroy Gaschignard, Maxime Millet, Apolline Bruley, Karim Benzerara, Manuela Dezi, Feriel Skouri-Panet, Elodie Duprat, Isabelle Callebaut
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引用次数: 0

摘要

三维(3D)结构信息现在可以在蛋白质组尺度上获得,这可能有助于检测蛋白质超家族的远距离进化关系。在这里,我们通过结合(i)反式序列相似性搜索、(ii)聚类方法和(iii)使用 AlphaFold2 三维结构模型,鉴定了与类铁蛋白超折叠相关的新型蛋白质结构域家族,从而说明了这一点。该家族的结构域最初是在蓝藻细胞内碳酸钙的生物矿化过程中被发现的。它们是大型重金属相关(HMA)超家族的一部分,因特定的序列和结构特征而不同于后者。特别是,它们中的大多数都具有保守的碱性氨基酸(因此被称为 CoBaHMA,即保守的碱性残基 HMA),形成一个带正电荷的表面,很可能与阴离子伙伴相互作用。在细菌中,CoBaHMA 结构域以不同的模块化组织形式存在,有的以单链蛋白的形式存在,有的则是更大蛋白质的一部分,其中一些是参与运输或脂质代谢的膜蛋白。这表明 CoBaHMA 结构域可能具有调控功能,涉及与阴离子脂质的相互作用。这一假说在蓝藻细胞内碳酸钙分区的背景下可能会引起特别的共鸣。
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AlphaFold2-guided description of CoBaHMA, a novel family of bacterial domains within the heavy-metal-associated superfamily.

Three-dimensional (3D) structure information, now available at the proteome scale, may facilitate the detection of remote evolutionary relationships in protein superfamilies. Here, we illustrate this with the identification of a novel family of protein domains related to the ferredoxin-like superfold, by combining (i) transitive sequence similarity searches, (ii) clustering approaches, and (iii) the use of AlphaFold2 3D structure models. Domains of this family were initially identified in relation with the intracellular biomineralization of calcium carbonates by Cyanobacteria. They are part of the large heavy-metal-associated (HMA) superfamily, departing from the latter by specific sequence and structural features. In particular, most of them share conserved basic amino acids  (hence their name CoBaHMA for Conserved Basic residues HMA), forming a positively charged surface, which is likely to interact with anionic partners. CoBaHMA domains are found in diverse modular organizations in bacteria, existing in the form of monodomain proteins or as part of larger proteins, some of which are membrane proteins involved in transport or lipid metabolism. This suggests that the CoBaHMA domains may exert a regulatory function, involving interactions with anionic lipids. This hypothesis might have a particular resonance in the context of the compartmentalization observed for cyanobacterial intracellular calcium carbonates.

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