Smc5/6 functions with Sgs1-Top3-Rmi1 to complete chromosome replication at natural pause sites.

Sumedha Agashe, Chinnu Rose Joseph, Teresa Anne Clarisse Reyes, Demis Menolfi, Michele Giannattasio, Anja Waizenegger, Barnabas Szakal, Dana Branzei

Nature communications 2021 Apr 08

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Smc5/6 is essential for genome structural integrity by yet unknown mechanisms. Here we find that Smc5/6 co-localizes with the DNA crossed-strand processing complex Sgs1-Top3-Rmi1 (STR) at genomic regions known as natural pausing sites (NPSs) where it facilitates Top3 retention. Individual depletions of STR subunits and Smc5/6 cause similar accumulation of joint molecules (JMs) composed of reversed forks, double Holliday Junctions and hemicatenanes, indicative of Smc5/6 regulating Sgs1 and Top3 DNA processing activities. We isolate an intra-allelic suppressor of smc6-56 proficient in Top3 retention but affected in pathways that act complementarily with Sgs1 and Top3 to resolve JMs arising at replication termination. Upon replication stress, the smc6-56 suppressor requires STR and Mus81-Mms4 functions for recovery, but not Srs2 and Mph1 helicases that prevent maturation of recombination intermediates. Thus, Smc5/6 functions jointly with Top3 and STR to mediate replication completion and influences the function of other DNA crossed-strand processing enzymes at NPSs.

Citation

Sumedha Agashe, Chinnu Rose Joseph, Teresa Anne Clarisse Reyes, Demis Menolfi, Michele Giannattasio, Anja Waizenegger, Barnabas Szakal, Dana Branzei. Smc5/6 functions with Sgs1-Top3-Rmi1 to complete chromosome replication at natural pause sites. Nature communications. 2021 Apr 08;12(1):2111