Hayashida M, Nomura W, Shiojiri A, Inoue Y

During cell cycle progression in Saccharomyces cerevisiae, spindle pole bodies (SPBs) are duplicated during the G1/S-phase transition. SPBs are crucial for the organization of both the spindle and astral microtubules, and their orientation defines the direction of nuclear division. In this process, an old SPB, which serves as the template ...

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SPB during the duplication process, is oriented toward the bud side. The patterning microtubule plus-end tracking protein, Kar9, plays an important role in the orientation of SPBs by asymmetrically localizing to the old SPB. Here, methylglyoxal (MG), a metabolite derived from glycolysis, was found to perturb asymmetric Kar9 localization and influence proper positioning of the old SPB. MG activated the DNA damage checkpoint pathway, and MG-induced perturbation of asymmetric Kar9 localization was abolished by the deletion of MEC1, a sensor for the DNA damage checkpoint pathway. Methyl methanesulfonate, a DNA-alkylating agent, also perturbed asymmetric Kar9 localization. Our results suggest that activation of the DNA damage checkpoint pathway perturbs the asymmetric Kar9 localization required for proper positioning of SPBs.

Date: Oct. 26, 2023

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