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Binding site maturation modulated by molecular density underlies Ndc80 binding to kinetochore receptor CENP-T
Proceedings of the National Academy of Sciences of the United States of America ( IF 9.4 ) Pub Date : 2024-12-19 , DOI: 10.1073/pnas.2401344121 Ekaterina V. Tarasovetc, Gunter B. Sissoko, Aleksandr Maiorov, Anna S. Mukhina, Fazoil I. Ataullakhanov, Iain M. Cheeseman, Ekaterina L. Grishchuk
Proceedings of the National Academy of Sciences of the United States of America ( IF 9.4 ) Pub Date : 2024-12-19 , DOI: 10.1073/pnas.2401344121 Ekaterina V. Tarasovetc, Gunter B. Sissoko, Aleksandr Maiorov, Anna S. Mukhina, Fazoil I. Ataullakhanov, Iain M. Cheeseman, Ekaterina L. Grishchuk
Macromolecular assembly depends on tightly regulated pairwise binding interactions that are selectively favored at assembly sites while being disfavored in the soluble phase. This selective control can arise due to molecular density-enhanced binding, as recently found for the kinetochore scaffold protein CENP-T. When clustered, CENP-T recruits markedly more Ndc80 complexes than its monomeric counterpart, but the underlying molecular basis remains elusive. Here, we use quantitative in vitro assays to reveal two distinct mechanisms driving this behavior. First, Ndc80 binding to CENP-T is a two-step process: initially, Ndc80 molecules rapidly associate and dissociate from disordered N-terminal binding sites on CENP-T. Over time, these sites undergo maturation, resulting in stronger Ndc80 retention. Second, we find that this maturation transition is regulated by a kinetic barrier that is sensitive to the molecular environment. In the soluble phase, binding site maturation is slow, but within CENP-T clusters, this process is markedly accelerated. Notably, the two Ndc80 binding sites in human CENP-T exhibit distinct maturation rates and environmental sensitivities, which correlate with their different amino acid content and predicted binding conformations. This clustering-induced maturation is evident in dividing human cells, suggesting a distinct regulatory entry point for controlling kinetochore assembly. We propose that the tunable acceleration of binding site maturation by molecular crowding may represent a general mechanism for promoting the formation of macromolecular structures.
更新日期:2024-12-19
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