The role of intrinsic protein disorder in regulation of cyclin-dependent kinases.

While the structure/function paradigm for folded domains was established decades ago, our understanding of how intrinsically disordered regions (IDRs) contribute to biological function is still evolving. IDRs exist as conformational ensembles that can range from highly compact to highly extended depending on their sequence composition. IDR sequences are less conserved than those of folded domains, but often display short, conserved segments termed short linear motifs (SLiMs), that often mediate protein-protein interactions and are often regulated by posttranslational modifications, giving rise to complex functionality when multiple, differently regulated SLiMs are combined. This combinatorial functionality was associated with signaling and regulation soon after IDRs were first recognized as functional elements within proteins. Here, we discuss roles for disorder in proteins that regulate cyclin-dependent kinases, the master timekeepers of the eukaryotic cell cycle. We illustrate the importance of intrinsic flexibility in the transmission of regulatory signals by these entirely disordered proteins.
Competing Interests: Declaration of competing interest The authors have no conflicts to declare.
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