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Author Details

Peter Tompa
VIB-VUB Center for Structural Biology
1986
234
62
PMIDPaper TitleJournal TitlePublished Year
37904608PED in 2024: improving the community deposition of structural ensembles for intrinsically disordered proteins.Nucleic Acids Res2024
36130731A fish herpesvirus highlights functional diversities among Zα domains related to phase separation induction and A-to-Z conversion.Nucleic Acids Res2023
37279376Quantification of Surface Tension Effects and Nucleation-and-Growth Rates during Self-Assembly of Biological Condensates.Adv Sci (Weinh)2023
37400558Minimum information guidelines for experiments structurally characterizing intrinsically disordered protein regions.Nat Methods2023
36808785Reply to "Intrinsic protein disorder uncouples affinity from binding specificity".Protein Sci2023
34850135DisProt in 2022: improved quality and accessibility of protein intrinsic disorder annotation.Nucleic Acids Res2022
35545699Degron masking outlines degronons, co-degrading functional modules in the proteome.Commun Biol2022
35491929F/YGG-motif is an intrinsically disordered nucleic-acid binding motif.RNA Biol2022
36279601Biological colloids: Unique properties of membraneless organelles in the cell.Adv Colloid Interface Sci2022
36305763Intrinsic protein disorder uncouples affinity from binding specificity.Protein Sci2022
36358915A Novel Tandem-Tag Purification Strategy for Challenging Disordered Proteins.Biomolecules2022
36388907The evolution and polymorphism of mono-amino acid repeats in androgen receptor and their regulatory role in health and disease.Front Med (Lausanne)2022
33469149A generic approach to study the kinetics of liquid-liquid phase separation under near-native conditions.Commun Biol2021
33654184Author Correction: A generic approach to study the kinetics of liquid-liquid phase separation under near-native conditions.Commun Biol2021
33917983Liquid-Liquid Phase Separation Enhances TDP-43 LCD Aggregation but Delays Seeded Aggregation.Biomolecules2021
33809541Integration of Data from Liquid-Liquid Phase Separation Databases Highlights Concentration and Dosage Sensitivity of LLPS Drivers.Int J Mol Sci2021
34252246Exploring Curated Conformational Ensembles of Intrinsically Disordered Proteins in the Protein Ensemble Database.Curr Protoc2021
33938068DNA-binding domain as the minimal region driving RNA-dependent liquid-liquid phase separation of androgen receptor.Protein Sci2021
34349250The role of ordered cooperative assembly in biomolecular condensates.Nat Rev Mol Cell Biol2021
34201246Cellular Chaperone Function of Intrinsically Disordered Dehydrin ERD14.Int J Mol Sci2021
34308370"Protein" no longer means what it used to.Curr Res Struct Biol2021
33305318PED in 2021: a major update of the protein ensemble database for intrinsically disordered proteins.Nucleic Acids Res2021
31612960PhaSePro: the database of proteins driving liquid-liquid phase separation.Nucleic Acids Res2020
32088186Specific Conformational Dynamics and Expansion Underpin a Multi-Step Mechanism for Specific Binding of p27 with Cdk2/Cyclin A.J Mol Biol2020
31870857Dehydrin ERD14 activates glutathione transferase Phi9 in Arabidopsis thaliana under osmotic stress.Biochim Biophys Acta Gen Subj2020
32080961A guide to regulation of the formation of biomolecular condensates.FEBS J2020
31713636DisProt: intrinsic protein disorder annotation in 2020.Nucleic Acids Res2020
32008897Learning of Signaling Networks: Molecular Mechanisms.Trends Biochem Sci2020
33087759Chasing coevolutionary signals in intrinsically disordered proteins complexes.Sci Rep2020
32784707Interplay of Structural Disorder and Short Binding Elements in the Cellular Chaperone Function of Plant Dehydrin ERD14.Cells2020
32696392Targeting an Intrinsically Disordered Protein by Covalent Modification.Methods Mol Biol2020
32503167WT and A53T α-Synuclein Systems: Melting Diagram and Its New Interpretation.Int J Mol Sci2020
32502383Distance-Based Metrics for Comparing Conformational Ensembles of Intrinsically Disordered Proteins.Biophys J2020
32238831Interaction between the scaffold proteins CBP by IQGAP1 provides an interface between gene expression and cytoskeletal activity.Sci Rep2020
32374478Corrigendum: Molecular Motions and Interactions in Aqueous Solutions of Thymosin-β<sub>4</sub> , Stabilin C-Terminal Domain (CTD) and Their 1:1 Complex Studied by <sup>1</sup> H⿿NMR Spectroscopy.Chemphyschem2020
30699990Misprediction of Structural Disorder in Halophiles.Molecules2019
31824649An intrinsically disordered proteins community for ELIXIR.F1000Res2019
30926670Spontaneous driving forces give rise to protein-RNA condensates with coexisting phases and complex material properties.Proc Natl Acad Sci U S A2019
30710277Calpain Purification Through Calpastatin and Calcium: Strategy and Procedures.Methods Mol Biol2019
30976006Dynamic anticipation by Cdk2/Cyclin A-bound p27 mediates signal integration in cell cycle regulation.Nat Commun2019
30826453Emergent functions of proteins in non-stoichiometric supramolecular assemblies.Biochim Biophys Acta Proteins Proteom2019
30878482The Balancing Act of Intrinsically Disordered Proteins: Enabling Functional Diversity while Minimizing Promiscuity.J Mol Biol2019
30592560Does Intrinsic Disorder in Proteins Favor Their Interaction with Lipids?Proteomics2019
29339216In vivo biotinylated calpastatin improves the affinity purification of human m-calpain.Protein Expr Purif2018
30212197Unique Physicochemical Patterns of Residues in Protein-Protein Interfaces.J Chem Inf Model2018
30234128Quantification of Intrinsically Disordered Proteins: A Problem Not Fully Appreciated.Front Mol Biosci2018
30070766Disordered Substrates of the 20S Proteasome Link Degradation with Phase Separation.Proteomics2018
30424574The Melting Diagram of Protein Solutions and Its Thermodynamic Interpretation.Int J Mol Sci2018
30366362Co-Evolution of Intrinsically Disordered Proteins with Folded Partners Witnessed by Evolutionary Couplings.Int J Mol Sci2018
30471702Challenges in the Structural-Functional Characterization of Multidomain, Partially Disordered Proteins CBP and p300: Preparing Native Proteins and Developing Nanobody Tools.Methods Enzymol2018
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Collaborators

Institute of Enzymology, HUN-REN Research Centre for Natural Sciences
Co-authored papers 29
Institute of Enzymology, HUN-REN Research Centre for Natural Sciences
Co-authored papers 24
Co-authored papers 19
Co-authored papers 18
University of Padova
Co-authored papers 15
Morsani College of Medicine, University of South Florida
Co-authored papers 13
European Bioinformatics Institute
Co-authored papers 13
Institute of Enzymology, HUN-REN Research Centre for Natural Sciences
Co-authored papers 12
Center for Computational Biology, Indiana University School of Medicine
Co-authored papers 11
University of Padova
Co-authored papers 11
The Institute of Cancer Research
Co-authored papers 8
St Jude Children's Research Hospital
Co-authored papers 8
University of Padova
Co-authored papers 7
Co-authored papers 6
Weizmann Institute of Science
Co-authored papers 5
St. Jude Children's Research Hospital
Co-authored papers 5
Institute of Nuclear Sciences Vinca, University of Belgrade
Co-authored papers 4
Heliant Ltd
Co-authored papers 4
University of Padova
Co-authored papers 3
University of Cambridge
Co-authored papers 3
Hospital for Sick Children
Co-authored papers 3
VIB-VUB Center for Structural Biology
Co-authored papers 3
University College London
Co-authored papers 2
Co-authored papers 2
Heartand Lung Research Institute, University of Cambridge
Co-authored papers 2
University of Applied Sciences and Arts of Western Switzerland (HES-SO).
Co-authored papers 2
King's College London BHF Centre for Research Excellence
Co-authored papers 2
Universita degli Studi di Milano - Computer Science Department - AnacletoLab
Co-authored papers 2
EMBL's European Bioinformatics Institute (EMBL-EBI)
Co-authored papers 2
Center for Data Analytics and Biomedical Informatics, Temple University
Co-authored papers 2