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September 3rd, 2025
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McGill University
biochemistry
bioRxiv

Enzymatic Function of an Intrinsically Disordered Protein

Lyalina, T.Open in Google Scholar•Paim, L. M. G.Open in Google Scholar•Bechstedt, S.Open in Google Scholar

Intrinsically disordered proteins (IDPs) challenge the traditional structure-function paradigm by lacking a stable three-dimensional structure 1. While their roles as dynamic effectors, scaffolds, and molecular switches are well-established, it has been widely accepted that enzymatic activity requires a stably folded catalytic center 2. Here, we challenge this dogma by demonstrating that a 284-amino acid intrinsically disordered domain of the cytoskeleton-associated protein 2 (CKAP2) is sufficient to catalyze both microtubule polymerization and depolymerization. CKAP2 promotes tubulin incorporation without high-affinity tubulin binding, suggesting a transition-state-based catalytic mechanism distinct from known microtubule polymerases. These findings establish, for the first time, that an intrinsically disordered domain can function as a bona fide enzyme, expanding our understanding of the functional repertoire of disordered proteins and their roles in cellular processes.

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