2018
DOI: 10.1002/prot.25578
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Computational characterization of the binding mode between oncoprotein Ets‐1 and DNA‐repair enzymes

Abstract: The Ets‐1 oncoprotein is a transcription factor that promotes target gene expression in specific biological processes. Typically, Ets‐1 activity is low in healthy cells, but elevated levels of expression have been found in cancerous cells, specifically related to tumor progression. Like the vast majority of the cellular effectors, Ets‐1 does not act alone but in association with partners. Given the important role that is attributed to Ets‐1 in major human diseases, it is crucial to identify its partners and ch… Show more

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Cited by 4 publications
(13 citation statements)
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“…Finally, we performed protein-protein docking between ETS(Ets-1) and identified BRCT and SAP homologs. These were followed by Residue Interaction Networks analyses to compare the predicted binding modes to the established ones for ETS(Ets-1)/BRCT(PARP-1) and ETS(Ets-1)/SAP(Ku70) [3].…”
Section: Resultsmentioning
confidence: 99%
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“…Finally, we performed protein-protein docking between ETS(Ets-1) and identified BRCT and SAP homologs. These were followed by Residue Interaction Networks analyses to compare the predicted binding modes to the established ones for ETS(Ets-1)/BRCT(PARP-1) and ETS(Ets-1)/SAP(Ku70) [3].…”
Section: Resultsmentioning
confidence: 99%
“…The representative structures of the BRCT or SAP clusters were used and docking only performed for those clusters for which a structure was available (24 for BRCT homologs, 10 for SAP homologs). Subsequently, we ran Residue Centrality Analyses on the best model of each run to identify central residues at the interface and to compare them to the residues identified in [3] for the binding of ETS(Ets-1)/BRCT(PARP-1) and ETS(Ets-1)/SAP(Ku70) (see Appendix A). We calculated these for four sets of structures: all the structures available for the BRCT homologs and the SAP homologs, and the two subsets of those that are associated to DNA repair mechanisms.…”
Section: Resultsmentioning
confidence: 99%
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“…In combination with other approaches, centrality analyses can help in the selection of residues that constitute targets for mutagenesis experiments or inhibitor design. The work of de Ruyck, Brysbaert, Villeret, Aumercier, & Lensink () is an example of integration of different methods for the identification of residues essential for the binding of two protein domains. The goal of RINspector was to design a tool that can quickly identify central residues.…”
Section: Commentarymentioning
confidence: 99%
“…The combination of the three functionalities allows the experimenter to predict the influence of mutation of central residues on local protein flexibility. RINspector has been used in different research projects to help in the identification of important residues in proteins that may be located at their core or surface, alone or in a complex (Brysbaert et al., ; de Ruyck et al., ; Laulumaa et al., ).…”
Section: Introductionmentioning
confidence: 99%