Sanskrita Sukla, Dhayanitha Ranganathan Dhakshinamoorthy, Arvind V. Ramesh, Scott Lew, Min Su, Jayaraman Seetharaman
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引用次数: 0
Abstract
Cep57, a vital centrosome‐associated protein, recruits essential regulatory enzymes for centriole duplication. Its dysfunction leads to anomalies, including reduced centrioles and mosaic‐variegated aneuploidy syndrome. Despite functional investigations, understanding structural aspects and their correlation with functions is partial till date. We present the structure of human Cep57 C‐terminal microtubule binding (MT‐BD) domain, revealing conserved motifs ensuring functional preservation across evolution. A leucine zipper, with an adjacent possible microtubule‐binding region, potentially forms a stabilizing scaffold for microtubule nucleation—accommodating pulling and tension from growing microtubules. This study highlights conserved structural features of Cep57 protein, compares them with other analogous proteins, and explores how protein function is maintained across diverse organisms.
Cep57是一种重要的中心体相关蛋白,它能招募中心粒复制所必需的调节酶。其功能障碍会导致异常,包括中心粒减少和镶嵌-变异非整倍体综合征。尽管对其功能进行了研究,但迄今为止对其结构及其与功能的相关性的了解还很片面。我们展示了人类 Cep57 C 端微管结合(MT-BD)结构域的结构,揭示了在进化过程中确保功能保留的保守基团。一个亮氨酸拉链与相邻的可能的微管结合区域可能构成微管成核的稳定支架--可容纳生长微管的拉力和张力。本研究强调了Cep57蛋白的保守结构特征,将其与其他类似蛋白进行了比较,并探讨了不同生物体如何保持蛋白功能。
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