2020
DOI: 10.1101/2020.10.21.348532
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Widespread occurrence of the droplet state of proteins in the human proteome

Abstract: A wide range of proteins have been reported to condensate into a dense liquid phase, forming a reversible droplet state. Failure in the control of the droplet state can lead to the formation of the more stable amyloid state, which is often disease-related. These observations prompt the question of how many proteins can undergo liquid-liquid phase separation. Here, in order to address this problem, we discuss the biophysical principles underlying the droplet state of proteins by analyzing current evidence for d… Show more

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Cited by 10 publications
(24 citation statements)
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References 59 publications
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“…(Dinesh et al, 2020;Zinzula et al, 2020). Bottom: Propensity of residues to promote LLPS calculated by FuzzDrop, showing in red dropletpromoting regions with p DP >0.6 (Hardenberg et al, 2020). The cartoon depiction highlights oligomeric architecture and interactions, without detail on protein structures.…”
Section: Protein and Oligonucleotidesmentioning
confidence: 99%
“…(Dinesh et al, 2020;Zinzula et al, 2020). Bottom: Propensity of residues to promote LLPS calculated by FuzzDrop, showing in red dropletpromoting regions with p DP >0.6 (Hardenberg et al, 2020). The cartoon depiction highlights oligomeric architecture and interactions, without detail on protein structures.…”
Section: Protein and Oligonucleotidesmentioning
confidence: 99%
“…The method gives a high performance prediction on the continuum of binding modes of disordered regions, and was validated on ~2000 protein complexes [ 16 , 44 ]. In addition, disordered binding modes were used to predict protein liquid-liquid phase separation, and the results were validated by experiments [ 49 ].…”
Section: Resultsmentioning
confidence: 99%
“…Application of the fuzzy structure-function model thus opens perspectives to identify context-dependent regulatory motifs in protein networks. This approach can also be used to describe the regulated assembly/disassembly of membraneless organelles [44,63]. Fuzzy structure-function relationships can be integrated into a fuzzy inference system [56], which can model cellular networks with different biological outcomes, similarly to the control system of artificially intelligent devices.…”
Section: Outlook: Describing Complex Cellular Behaviormentioning
confidence: 99%
“…Such conformational heterogeneity (generated by disorder-to-disorder transitions) is required for driving droplet formation. Thus, protein regions capable of forming disordered binding modes can spontaneously phase separate and serve as scaffolds for droplets [ 44 ]. Other components of condensates, termed as clients, require a partner-induced change in their binding modes.…”
Section: Fuzzy Binding In Biomolecular Condensates: From Liquids To Fmentioning
confidence: 99%