The Structure of a Monomeric Mutant Cks Protein Reveals Multiple Functions for a Conserved Hinge-Region Proline

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• 作者：Eva Rose M. Balog¹ ; Ou Chong Saetern² ; William Finch² ; Cassidy O. Hoeft² ; Vu Thai¹ ; Stacy L. Harvey¹ ; Douglas R. Kellogg¹ ; Seth M. Rubin² ; ^{srubin@ucsc.edu"" rel=""nofollow}
• 关键词：cyclin-dependent kinase ; p13suc1 ; cell cycle regulation ; domain swapping ; strand exchange
• 刊名：Journal of Molecular Biology
• 出版年：2011
• 出版时间：19 August 2011
• 年：2011
• 卷：411
• 期：3
• 页码：520-528
• 全文大小：1009 K

文摘

Cks (cyclin-dependent kinase subunit) proteins are essential eukaryotic cell cycle regulatory proteins that physically associate with cyclin-dependent kinases (Cdks) to modulate their activity. Cks proteins have also been studied for their ability to form domain-swapped dimers by exchanging β-strands. Domain swapping is mediated by a conserved β-hinge region containing two proline residues. Previous structural studies indicate that Cks in its dimer form is unable to bind Cdk, suggesting that the monomer–dimer equilibrium of Cks may have an effect on Cks-mediated Cdk regulation. We present the crystal structure of a proline-to-alanine mutant Saccharomyces cerevisiae Cks protein (Cks1 P93A) that preferentially adopts the monomer conformation but surprisingly fails to bind Cdk. Comparison of the Cks1 P93A structure to that of other Cks proteins reveals that Pro93 is critical for stabilizing a multiple β-turn structure in the hinge region that properly positions an essential Cdk-binding residue. Additionally, we find that these β-turn formations, conserved in Cks homologs, have implications for the mechanism and preferentiality of strand exchange. Together, our observations suggest that the conservation of Cks hinge-region prolines reflects their functions in forming a Cdk binding interface and that the ability of these prolines to control partitioning between monomer and dimer is a consequence of the β-turn networks within the hinge.