| IUPred3: prediction of protein disorder enhanced with unambiguous experimental annotation and visualization of evolutionary conservation G Erdős, M Pajkos, Z Dosztányi Nucleic acids research 49 (W1), W297-W303, 2021 | 417 | 2021 |
| 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 | 260 | 2020 |
| DisProt in 2022: improved quality and accessibility of protein intrinsic disorder annotation F Quaglia, B Mészáros, E Salladini, A Hatos, R Pancsa, LB Chemes, ... Nucleic acids research 50 (D1), D480-D487, 2022 | 155 | 2022 |
| Is there a biological cost of protein disorder? Analysis of cancer-associated mutations M Pajkos, B Mészáros, I Simon, Z Dosztányi Molecular BioSystems 8 (1), 296-307, 2012 | 63 | 2012 |
| DisProt in 2024: improving function annotation of intrinsically disordered proteins MC Aspromonte, MV Nugnes, F Quaglia, A Bouharoua, SCE Tosatto, ... Nucleic Acids Research 52 (D1), D434-D441, 2024 | 47 | 2024 |
| Novel linear motif filtering protocol reveals the role of the LC8 dynein light chain in the Hippo pathway G Erdős, T Szaniszló, M Pajkos, B Hajdu-Soltész, B Kiss, G Pál, L Nyitray, ... PLoS computational biology 13 (12), e1005885, 2017 | 28 | 2017 |
| Functions of intrinsically disordered proteins through evolutionary lenses M Pajkos, Z Dosztányi Progress in Molecular Biology and Translational Science 183, 45-74, 2021 | 13 | 2021 |
| Ancient evolutionary origin of intrinsically disordered cancer risk regions M Pajkos, A Zeke, Z Dosztányi Biomolecules 10 (8), 1115, 2020 | 12 | 2020 |
| Acetylation of nuclear receptors in health and disease: an update AW Ashton, HK Dhanjal, B Rossner, H Mahmood, VI Patel, M Nadim, ... The FEBS journal 291 (2), 217-236, 2024 | 11 | 2024 |
| The origin of discrepancies between predictions and annotations in intrinsically disordered proteins M Pajkos, G Erdős, Z Dosztányi Biomolecules 13 (10), 1442, 2023 | 6 | 2023 |
| The interaction between LC8 and LCA5 reveals a novel oligomerization function of LC8 in the ciliary-centrosome system T Szaniszló, M Fülöp, M Pajkos, G Erdős, RÁ Kovács, H Vadászi, ... Scientific Reports 12 (1), 15623, 2022 | 3 | 2022 |
| Uncovering the BIN1-SH3 interactome underpinning centronuclear myopathy B Zambo, E Edelweiss, B Morlet, L Negroni, M Pajkos, Z Dosztányi, ... Elife 13, RP95397, 2024 | 2 | 2024 |
| Pipeline for transferring annotations between proteins beyond globular domains E Martínez‐Pérez, M Pajkos, SCE Tosatto, TJ Gibson, Z Dosztanyi, ... Protein Science 32 (7), e4655, 2023 | 2 | 2023 |
| AFflecto: A web server to generate conformational ensembles of flexible proteins from AlphaFold models M Pajkos, I Clerc, C Zanon, P Bernado, J Cortés | 1 | 2025 |
| Entering new circles: Expansion of the LC8/DYNLL1 interactome in the ciliary-centrosomal network through system-driven motif evolution M Pajkos, T Szaniszló, M Fülöp, Z Dosztányi bioRxiv, 2023.09. 15.557927, 2023 | | 2023 |
| DisCanVis: Visualizing integrated structural and functional annotations to better understand the effect of cancer mutations located within disordered proteins N Deutsch, M Pajkos, G Erdős, Z Dosztanyi Protein Science 32 (1), e4522, 2023 | | 2023 |
| A rendezetlen fehérjék evolúciós vizsgálata M Pajkos | | 2020 |
