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János Pálinkás
János Pálinkás
Eötvös Loránd University, Faculty of Science, Department of Biochemistry
Verified email at ttk.elte.hu
Title
Cited by
Cited by
Year
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
1122020
The toposiomerase IIIalpha-RMI1-RMI2 complex orients human Bloom’s syndrome helicase for efficient disruption of D-loops
GM Harami, J Pálinkás, Y Seol, ZJ Kovács, M Gyimesi, H Harami-Papp, ...
Nature Communications 13 (1), 654, 2022
102022
DNA‐dependent phase separation by human SSB2 (NABP1/OBFC2A) protein points to adaptations to eukaryotic genome repair processes
ZJ Kovács, GM Harami, J Pálinkás, N Kuljanishvili, J Hegedüs, ...
Protein Science 33 (4), e4959, 2024
22024
Redox-dependent condensation and cytoplasmic granulation by human ssDNA-binding protein-1 delineate roles in oxidative stress response
GM Harami, J Pálinkás, ZJ Kovács, B Jezsó, K Tárnok, H Harami-Papp, ...
iScience 27 (9), 2024
12024
Werner helicase interacting protein 1 contributes to G-quadruplex processing in human cells
L Hegedus, A Toth, GM Harami, J Palinkas, N Karatayeva, E Sajben-Nagy, ...
Scientific Reports 14 (1), 15740, 2024
2024
Functional contribution of condensate formation by single-stranded DNA binding protein (SSB) to bacterial genome maintenance
P Ecsédi, J Pálinkás, Z Kovács, G Harami, T Juhasz, B Jezso, D Erfalvy, ...
Biophysical Journal 123 (3), 79a-80a, 2024
2024
Redox-dependent phase separation and cytoplasmic granulation by human single-stranded DNA binding protein 1 (HSSB1) point to new mechanisms of cellular stress response
J Pálinkás, G Harami, ZJ Kovács, B Jezsó, K Tárnok, H Harami-Papp, ...
Biophysical Journal 123 (3), 41a, 2024
2024
E. coli Single-Stranded DNA Binding (SSB) Protein Undergoes Dynamic Liquid-Liquid Phase Separation Controlled via Protein-Protein and Protein-DNA Interactions
G Harami, ZJ Kovacs, J Pálinkás, R Pancsa, V Baráth, K Tárnok, ...
Biophysical Journal 118 (3), 484a, 2020
2020
Novel Assay Resolves D-Loop Processing Pathways by E. Coli RecQ and Human BLM Helicases
GM Harami, J Palinkas, Y Seol, M Gyimesi, ZJ Kovacs, KC Neuman, ...
Biophysical Journal 116 (3), 74a, 2019
2019
Conserved Domain Architecture of Human BLM Helicase Maintains Balance between D-Loop Disruption and Extension
GM Harami, Y Seol, J Pálinkás, M Gyimesi, ZJ Kovács, M Martina, A Budai, ...
Biophysical Journal 114 (3), 218a, 2018
2018
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