2021
DOI: 10.1016/j.csbj.2021.06.031
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The diversity of molecular interactions involving intrinsically disordered proteins: A molecular modeling perspective

Abstract: Intrinsically Disordered Proteins and Regions (IDPs/IDRs) are key components of a multitude of biological processes. Conformational malleability enables IDPs/IDRs to perform very specialized functions that cannot be accomplished by globular proteins. The functional role for most of these proteins is related to the recognition of other biomolecules to regulate biological processes or as a part of signaling pathways. Depending on the extent of disorder, the number of interacting sites and the type of partner, ve… Show more

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Cited by 12 publications
(4 citation statements)
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References 170 publications
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“…An understanding of how protein-protein interactions underly the mechanisms that regulate circadian feedback and post-transcriptional regulation has been hampered by the highly disordered nature of the core clock proteins. To investigate these proteinprotein interactions, we adapted an approach we termed LOCATE, which employs immobilized synthetic peptide microarrays to capture interactions across the full length of proteins enriched in IDRs (Clerc et al, 2021;Ivarsson and Jemth, 2019;Katz et al, 2011). Applying LOCATE to the N. crassa disordered negative-arm protein FRQ, we identified a SLiM hotspot beyond the genetically-identified binding region for FRH on FRQ, while also uncovering novel sites of FRH interaction.…”
Section: Discussionmentioning
confidence: 99%
“…An understanding of how protein-protein interactions underly the mechanisms that regulate circadian feedback and post-transcriptional regulation has been hampered by the highly disordered nature of the core clock proteins. To investigate these proteinprotein interactions, we adapted an approach we termed LOCATE, which employs immobilized synthetic peptide microarrays to capture interactions across the full length of proteins enriched in IDRs (Clerc et al, 2021;Ivarsson and Jemth, 2019;Katz et al, 2011). Applying LOCATE to the N. crassa disordered negative-arm protein FRQ, we identified a SLiM hotspot beyond the genetically-identified binding region for FRH on FRQ, while also uncovering novel sites of FRH interaction.…”
Section: Discussionmentioning
confidence: 99%
“…Importantly, NT33 motif of APE1 is indeed required for APE1 LLPS in vitro (Figure 4). LLPS is often driven by intrinsically disordered protein regions (IDRs) and/or association with nucleic acids such as RNA (86)(87)(88). Consistently, the NT33 motif is APE1's IDR whose structure has not been characterized yet, although other, more ridged, regions of APE1 have been fully characterized (89,90).…”
Section: Llps Formation By Ape1-mediated Biomolecular Condensates In ...mentioning
confidence: 99%
“…SLiMs are the minimum sequence determinants that can finely modulate cellular PPI networks independently of the wider sequence/structure context where they function [ 11 ]. Frequently, SLiMs correspond to consensus sequence patterns located in the disordered regions of proteins, where they mediate transient and low-affinity interactions with various interactors due to their structural flexibility [ 17 , 18 ]. This makes them ideal to mediate dynamic processes such as cell signaling.…”
Section: Short Linear Motifs and Their Emerging Role In Cell Biology ...mentioning
confidence: 99%