Affiliation:
1. Department of Biological Sciences National University of Singapore Singapore Singapore
2. Department of Medicine University of Tennessee Health Science Center Memphis Tennessee USA
3. Department of Biological Sciences Columbia University New York New York USA
4. Department of Pharmacology, Addiction Science, and Toxicology University of Tennessee Health Science Center Memphis Tennessee USA
Abstract
AbstractCep57, 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.
Funder
Health Science Center, University of Tennessee