Rita Pancsa

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Peter TompaPofessor of biochemistry, VIB SBRC, BrusselsVerified email at vub.ac.be
Wim VrankenResearch professor, Vrije Universiteit Brussel, BelgiumVerified email at vub.be
Elisa CiliaUniversité Libre de BruxellesVerified email at ulb.ac.be
Bálint MészárosEMBL HeidelbergVerified email at embl.de
Tom LenaertsProfessor Computer Science, Université Libre de BruxellesVerified email at ulb.ac.be
M. Madan BabuMember and Endowed Chair, St Jude Children's Research Hospital, USAVerified email at stjude.org
Dosztanyi ZsuzsannaEötvös Loránd UniversityVerified email at ttk.elte.hu
Yongsheng LiHainan Medical UniversityVerified email at hainmc.edu.cn
Javeed AhmadMRC-LMBVerified email at mrc-lmb.cam.ac.uk
Erzsébet FichóHead of Bioinformatics at Cytocast | Operational Product Owner at Ericsson HungaryVerified email at cytocast.com
Daniel J. McGrailCleveland ClinicVerified email at ccf.org
Daniele RaimondiESAT - KU LeuvenVerified email at kuleuven.be
Gabriele OrlandoPost Doc, Switch Lab, KULeuvenVerified email at kuleuven.be
taushif khanSidra Medicine, DohaVerified email at sidra.org
Pallab Bhowmick,PhD.University of VictoriaVerified email at uvic.ca
Istvan SimonInstitute of Enzymology, RCNS, Hungarian Academy of Sciences, Budapest HUNGARYVerified email at enzim.hu
Gordon MillsOregon Health & Science UniversityVerified email at ohsu.edu
Ming SunNanjing Medical UniversityVerified email at njmu.edu.cn
Sreenivas ChavaliIndian Institute of Science Education and Research (IISER), TirupatiVerified email at iisertirupati.ac.in
Xiao-Han LiMRC Laboratory of Molecular BiologyVerified email at mrc-lmb.cam.ac.uk

Rita Pancsa

Research Centre for Natural Sciences, Institute of Enzymology

Verified email at ttk.mta.hu

computational structural biology bioinformatics intrinsically disordered proteins liquid-liquid phase separation protein str


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ELM—the eukaryotic linear motif resource in 2020 M Kumar, M Gouw, S Michael, H Sámano-Sánchez, R Pancsa, J Glavina, ... Nucleic acids research 48 (D1), D296-D306, 2020	184	2020
Structural disorder in eukaryotes R Pancsa, P Tompa PLoS one 7 (4), e34687, 2012	177	2012
DisProt: intrinsic protein disorder annotation in 2020 A Hatos, B Hajdu-Soltész, AM Monzon, N Palopoli, L Álvarez, ... Nucleic acids research 48 (D1), D269-D276, 2020	158	2020
From protein sequence to dynamics and disorder with DynaMine E Cilia, R Pancsa, P Tompa, T Lenaerts, WF Vranken Nature communications 4 (1), 1-10, 2013	137	2013
The DynaMine webserver: predicting protein dynamics from sequence E Cilia, R Pancsa, P Tompa, T Lenaerts, WF Vranken Nucleic acids research 42 (W1), W264-W270, 2014	113	2014
Interactions via intrinsically disordered regions: what kind of motifs? R Pancsa, M Fuxreiter IUBMB life 64 (6), 513-520, 2012	79	2012
PhaSePro: the database of proteins driving liquid–liquid phase separation B Mészáros, G Erdős, B Szabó, É Schád, Á Tantos, R Abukhairan, ... Nucleic acids research 48 (D1), D360-D367, 2020	69	2020
DIBS: a repository of disordered binding sites mediating interactions with ordered proteins E Schad, E Fichó, R Pancsa, I Simon, Z Dosztányi, B Mészáros Bioinformatics 34 (3), 535-537, 2018	57	2018
Emergent functions of proteins in non-stoichiometric supramolecular assemblies R Pancsa, E Schad, A Tantos, P Tompa Biochimica et Biophysica Acta (BBA)-Proteins and Proteomics 1867 (10), 970-979, 2019	40	2019
Intrinsically disordered proteins undergo and assist folding transitions in the proteome D Kovacs, B Szabo, R Pancsa, P Tompa Archives of biochemistry and biophysics 531 (1-2), 80-89, 2013	40	2013
Revealing the determinants of widespread alternative splicing perturbation in cancer Y Li, N Sahni, R Pancsa, DJ McGrail, J Xu, X Hua, ... Cell reports 21 (3), 798-812, 2017	39	2017
Phase separation by ssDNA binding protein controlled via protein− protein and protein− DNA interactions GM Harami, ZJ Kovács, R Pancsa, J Pálinkás, V Baráth, K Tárnok, ... Proceedings of the National Academy of Sciences 117 (42), 26206-26217, 2020	38	2020
AmyPro: a database of proteins with validated amyloidogenic regions M Varadi, G De Baets, WF Vranken, P Tompa, R Pancsa Nucleic acids research 46 (D1), D387-D392, 2018	38	2018
Structural disorder provides increased adaptability for vesicle trafficking pathways N Pietrosemoli, R Pancsa, P Tompa PLoS computational biology 9 (7), e1003144, 2013	36	2013
Exploring the sequence-based prediction of folding initiation sites in proteins D Raimondi, G Orlando, R Pancsa, T Khan, WF Vranken Scientific reports 7 (1), 1-11, 2017	32	2017
Functional diversity and structural disorder in the human ubiquitination pathway P Bhowmick, R Pancsa, M Guharoy, P Tompa PloS one 8 (5), e65443, 2013	30	2013
A guide to regulation of the formation of biomolecular condensates A Bratek‐Skicki, R Pancsa, B Meszaros, J Van Lindt, P Tompa The FEBS journal 287 (10), 1924-1935, 2020	29	2020
Function and regulation of phase-separated biological condensates XH Li, PL Chavali, R Pancsa, S Chavali, MM Babu Biochemistry 57 (17), 2452-2461, 2018	29	2018
Contrasting Function of Structured N-Terminal and Unstructured C-Terminal Segments of Mycobacterium tuberculosis PPE37 Protein J Ahmad, A Farhana, R Pancsa, SK Arora, A Srinivasan, AK Tyagi, ... MBio 9 (1), e01712-17, 2018	28	2018
Start2Fold: a database of hydrogen/deuterium exchange data on protein folding and stability R Pancsa, M Varadi, P Tompa, WF Vranken Nucleic acids research 44 (D1), D429-D434, 2016	27	2016

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