Rita Pancsa
Rita Pancsa
Research Centre for Natural Sciences, Institute of Enzymology
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Cited by
Cited by
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
Structural disorder in eukaryotes
R Pancsa, P Tompa
PLoS one 7 (4), e34687, 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
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
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
Interactions via intrinsically disordered regions: what kind of motifs?
R Pancsa, M Fuxreiter
IUBMB life 64 (6), 513-520, 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
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
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
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
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
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
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
Structural disorder provides increased adaptability for vesicle trafficking pathways
N Pietrosemoli, R Pancsa, P Tompa
PLoS computational biology 9 (7), e1003144, 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
Function and regulation of phase-separated biological condensates
XH Li, PL Chavali, R Pancsa, S Chavali, MM Babu
Biochemistry 57 (17), 2452-2461, 2018
Functional diversity and structural disorder in the human ubiquitination pathway
P Bhowmick, R Pancsa, M Guharoy, P Tompa
PloS one 8 (5), e65443, 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
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
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
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Articles 1–20