植物假酶-酶复合物的可调谐杂化组装。
Tunable Heteroassembly of a Plant Pseudoenzyme-Enzyme Complex.
机构信息
Environmental Molecular Sciences Laboratory, Pacific Northwest National Laboratory, Richland, Washington 99354, United States.
Department of Chemistry and Biochemistry, The Ohio State University, Columbus, Ohio 43210, United States.
出版信息
ACS Chem Biol. 2021 Nov 19;16(11):2315-2325. doi: 10.1021/acschembio.1c00475. Epub 2021 Sep 14.
Pseudoenzymes have emerged as key regulatory elements in all kingdoms of life despite being catalytically nonactive. Yet many factors defining why one protein is active while its homologue is inactive remain uncertain. For pseudoenzyme-enzyme pairs, the similarity of both subunits can often hinder conventional characterization approaches. In plants, a pseudoenzyme, PDX1.2, positively regulates vitamin B production by association with its active catalytic homologues such as PDX1.3 through an unknown assembly mechanism. Here we used an integrative experimental approach to learn that such pseudoenzyme-enzyme pair associations result in heterocomplexes of variable stoichiometry, which are unexpectedly tunable. We also present the atomic structure of the PDX1.2 pseudoenzyme as well as the population averaged PDX1.2-PDX1.3 pseudoenzyme-enzyme pair. Finally, we dissected hetero-dodecamers of each stoichiometry to understand the arrangement of monomers in the heterocomplexes and identified symmetry-imposed preferences in PDX1.2-PDX1.3 interactions. Our results provide a new model of pseudoenzyme-enzyme interactions and their native heterogeneity.
尽管伪酶没有催化活性,但它们已成为所有生命领域的关键调节元件。然而,许多定义为什么一种蛋白质具有活性而其同源物没有活性的因素仍然不确定。对于伪酶-酶对,两个亚基的相似性常常会阻碍传统的特征描述方法。在植物中,一种伪酶 PDX1.2 通过与活性催化同源物(如 PDX1.3)结合,以未知的组装机制正向调节维生素 B 的产生。在这里,我们使用综合实验方法来了解到,这种伪酶-酶对的结合会导致异源寡聚体的化学计量比可变,而且这种变化是出乎意料的。我们还展示了 PDX1.2 伪酶的原子结构以及 PDX1.2-PDX1.3 伪酶-酶对的群体平均结构。最后,我们对每种化学计量比的异源十二聚体进行了剖析,以了解异源寡聚体中单体的排列方式,并确定了 PDX1.2-PDX1.3 相互作用中的对称性强加偏好。我们的研究结果提供了伪酶-酶相互作用及其天然异质性的新模型。
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