https://orcid.org/0000-0002-1311-9823
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Abstract
The Rad5 protein is an SWI/SNF family ubiquitin ligase that contains an N-terminal HIRAN domain and a RING C3HC4 motif. The HIRAN domain is critical for recognition of the stalled replication fork during the replication process and acts as a sensor to initiate the damaged DNA checkpoint. It is a conserved domain widely distributed in eukaryotic organisms and is present in several DNA-binding proteins from all kingdoms. Here we showed that distant species have important differences in key residues that affect affinity for ssDNA. Based on these findings, we hypothesized that different HIRAN domains might affect fork reversal and translesion synthesis through different metabolic processes. To address this question, we predicted the tertiary structure of both yeast and human HIRAN domains using molecular modeling. Structural dynamics experiments showed that the yeast HIRAN domain exhibited higher structural denaturation than its human homolog, although both domains became stable in the presence of ssDNA. Analysis of atomic contacts revealed that a greater number of interactions between the ssDNA nucleotides and the Rad5 domain are electrostatic. Taken together, these results provide new insights into the molecular mechanism of the HIRAN domain of Rad5 and may guide us to further elucidate differences in the ancient eukaryotes HIRAN sequences and their DNA affinity.
Communicated by Ramaswamy H. Sarma
Acknowledgments
We acknowledge Dr. Yulia Pustovalova (UConn Health Center, USA), Dr. Bruno Santos (UFMG, Brazil) and Dr. Luís Maurício Trambaioli (UFRJ, Brazil) for critical reading of this work. We also would like to thank NMRBOX team for their technical support.
This research used resources from FAPEMIG and from Departamento de Bioquímica e Imunologia at Federal University of Minas Gerais.
Disclosure statement
The authors have no financial or intellectual conflicts of interest with the contents of this article.
Contribution statement/CRediT author statement
Conceptualization – MTQM, BMS
Methodology – JPPA, LHSS, BMS, MTQM
Software – LHSS, BMS
Validation – LHSS, BMS
Formal analysis – BMS, LHSS, MTQM
Investigation – MTQM, BMS
Resources – MTQM
Data Curation – BMS, JPPA, LHSS, MTQM
Writing - Original Draft – BMS, LHSS, MTQM
Writing - Review & Editing – BMS, JPPA, LHSS, MTQM
Visualization – MTQM, BMS, LHSS, JPPA
Supervision – LHSS, MTQM
Funding acquisition - MTQM