Mei5-Sae3 Stabilizes Dmc1 Nucleating Clusters for Efficient Dmc1 Assembly on RPA-coated Single-stranded DNA

Overview

Journal Nucleic Acids Res

Publisher Oxford University Press

Specialty Biochemistry

Date 2024 Sep 14

PMID 39275989

Authors

Chin-Dian Wei

Hao-Yen Chang

Chia-Hua Lu

Chih-Chun Chang

Asako Furukohri

Stephen Mwaniki

Akira Shinohara

Peter Chi

Hung-Wen Li

Affiliations

Soon will be listed here.

Abstract

Interhomolog recombination in meiosis requires a meiosis-specific recombinase, Dmc1. In Saccharomyces cerevisiae, the Mei5-Sae3 complex facilitates the loading of Dmc1 onto the replication protein A (RPA)-coated single-stranded DNA (ssDNA) to form nucleoprotein filaments. In vivo, Dmc1 and Mei5-Sae3 are interdependent in their colocalization on the chromosomes. However, the mechanistic role of Mei5-Sae3 in mediating Dmc1 activity remains unclear. We used single-molecule fluorescence resonance energy transfer and colocalization single-molecule spectroscopy experiments to elucidate how Mei5-Sae3 stimulates Dmc1 assembly on ssDNA and RPA-coated ssDNA. We showed that Mei5-Sae3 stabilized Dmc1 nucleating clusters with two to three molecules on naked DNA by preferentially reducing Dmc1 dissociation rates. Mei5-Sae3 also stimulated Dmc1 assembly on RPA-coated DNA. Using green fluorescent protein-labeled RPA, we showed the coexistence of an intermediate with Dmc1 and RPA on ssDNA before RPA dissociation. Moreover, the displacement efficiency of RPA depended on Dmc1 concentration, and its dependence was positively correlated with the stability of Dmc1 clusters on short ssDNA. These findings suggest a molecular model that Mei5-Sae3 mediates Dmc1 binding on RPA-coated ssDNA by stabilizing Dmc1 nucleating clusters, thus altering RPA dynamics on DNA to promote RPA dissociation.

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