Publication details

NSE5 subunit interacts with distant regions of the SMC arms in the <i>Physcomitrium patens</i> SMC5/6 complex

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Authors

VACULÍKOVÁ Jitka HOLA Marcela KRÁLOVÁ Barbora LELKES Edit ŠTEFANOVIE Barbora VAGNEROVA Radka ANGELIS Karel J. PALEČEK Jan

Year of publication 2024
Type Article in Periodical
Magazine / Source Plant Journal
MU Faculty or unit

Faculty of Science

Citation
Web https://onlinelibrary.wiley.com/doi/10.1111/tpj.16869
Doi http://dx.doi.org/10.1111/tpj.16869
Keywords Physcomitrium patens SMC5/6 complex; NSE5/SNI1/SLF1/SIMC1; NSE6/ASAP1/SLF2/KRE29; DNA damage repair; rDNA stability; moss caulonemata development
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Description Structural maintenance of chromosome (SMC) complexes play roles in cohesion, condensation, replication, transcription, and DNA repair. Their cores are composed of SMC proteins with a unique structure consisting of an ATPase head, long arm, and hinge. SMC complexes form long rod-like structures, which can change to ring-like and elbow-bent conformations upon binding ATP, DNA, and other regulatory factors. These SMC dynamic conformational changes are involved in their loading, translocation, and DNA loop extrusion. Here, we examined the binding and role of the PpNSE5 regulatory factor of Physcomitrium patens PpSMC5/6 complex. We found that the PpNSE5 C-terminal half (aa230-505) is required for binding to its PpNSE6 partner, while the N-terminal half (aa1-230) binds PpSMC subunits. Specifically, the first 71 amino acids of PpNSE5 were required for binding to PpSMC6. Interestingly, the PpNSE5 binding required the PpSMC6 head-proximal joint region and PpSMC5 hinge-proximal arm, suggesting a long distance between binding sites on PpSMC5 and PpSMC6 arms. Therefore, we hypothesize that PpNSE5 either links two antiparallel SMC5/6 complexes or binds one SMC5/6 in elbow-bent conformation, the later model being consistent with the role of NSE5/NSE6 dimer as SMC5/6 loading factor to DNA lesions. In addition, we generated the P. patens Ppnse5KO1 mutant line with an N-terminally truncated version of PpNSE5, which exhibited DNA repair defects while keeping a normal number of rDNA repeats. As the first 71 amino acids of PpNSE5 are required for PpSMC6 binding, our results suggest the role of PpNSE5-PpSMC6 interaction in SMC5/6 loading to DNA lesions.
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