The tomato calcium sensor Cbl10 and its interacting protein kinase Cipk6 define a signaling pathway in plant immunity F de la Torre, E Gutiérrez-Beltrán, Y Pareja-Jaime, S Chakravarthy, ... The Plant Cell 25 (7), 2748-2764, 2013 | 163 | 2013 |
Tudor staphylococcal nuclease links formation of stress granules and processing bodies with mRNA catabolism in Arabidopsis E Gutierrez-Beltran, PN Moschou, AP Smertenko, PV Bozhkov The Plant Cell 27 (3), 926-943, 2015 | 152 | 2015 |
Classification and Nomenclature of Metacaspases and Paracaspases: No More Confusion with Caspases EA Minina, J Staal, VE Alvarez, JA Berges, I Berman-Frank, R Beyaert, ... Molecular Cell 77 (5), 927-929, 2020 | 91 | 2020 |
Tudor staphylococcal nuclease: biochemistry and functions E Gutierrez-Beltran, TV Denisenko, B Zhivotovsky, PV Bozhkov Cell Death & Differentiation 23 (11), 1739-1748, 2016 | 82 | 2016 |
Interaction of 2′, 3′-cAMP with Rbp47b plays a role in stress granule formation M Kosmacz, M Luzarowski, O Kerber, E Leniak, E Gutiérrez-Beltrán, ... Plant physiology 177 (1), 411-421, 2018 | 66 | 2018 |
Tudor staphylococcal nuclease is a docking platform for stress granule components and is essential for SnRK1 activation in Arabidopsis E Gutierrez‐Beltran, PH Elander, K Dalman, GW Dayhoff, PN Moschou, ... The EMBO Journal, e105043, 2021 | 62 | 2021 |
A universal stress protein involved in oxidative stress is a phosphorylation target for protein kinase CIPK6 E Gutiérrez-Beltrán, JM Personat, F de la Torre, O del Pozo Plant physiology 173 (1), 836-852, 2017 | 60 | 2017 |
Separase promotes microtubule polymerization by activating CENP-E-related kinesin Kin7 PN Moschou, E Gutierrez-Beltran, PV Bozhkov, A Smertenko Developmental cell 37 (4), 350-361, 2016 | 52 | 2016 |
Stress-related biomolecular condensates in plants J Solis-Miranda, M Chodasiewicz, A Skirycz, AR Fernie, PN Moschou, ... The Plant Cell, koad127, 2023 | 34 | 2023 |
Phenolic acid-induced phase separation and translation inhibition mediate plant interspecific competition Z Xie, S Zhao, Y Li, Y Deng, Y Shi, X Chen, Y Li, H Li, C Chen, X Wang, ... Nature Plants 9 (9), 1481-1499, 2023 | 18 | 2023 |
An actin remodeling role for Arabidopsis processing bodies revealed by their proximity interactome C Liu, A Mentzelopoulou, A Muhammad, A Volkov, D Weijers, ... The EMBO Journal 42 (9), e111885, 2023 | 15 | 2023 |
Arabidopsis metacaspase MC1 localizes in stress granules, clears protein aggregates, and delays senescence N Ruiz-Solaní, J Salguero-Linares, L Armengot, J Santos, I Pallarès, ... The Plant Cell 35 (9), 3325-3344, 2023 | 14 | 2023 |
Tudor staphylococcal nuclease plays two antagonistic roles in RNA metabolism under stress E Gutiérrez-Beltran, PV Bozhkov, PN Moschou Plant signaling & behavior 10 (10), e1071005, 2015 | 14 | 2015 |
Compartmentalization, a key mechanism controlling the multitasking role of the SnRK1 complex E Gutierrez-Beltran, JL Crespo Journal of Experimental Botany 73 (20), 7055-7067, 2022 | 13 | 2022 |
The Arabidopsis homolog of Scc4/MAU2 is essential for embryogenesis EA Minina, SH Reza, E Gutierrez-Beltran, PH Elander, PV Bozhkov, ... Journal of Cell Science 130 (6), 1051-1063, 2017 | 13 | 2017 |
EXTRA SPINDLE POLES (Separase) controls anisotropic cell expansion in Norway spruce (Picea abies) embryos independently of its role in anaphase progression PN Moschou, EI Savenkov, EA Minina, K Fukada, SH Reza, ... New Phytologist 212 (1), 232-243, 2016 | 11 | 2016 |
Genome-wide analysis of uncapped mRNAs under heat stress in Arabidopsis E Gutierrez-Beltran Genomics data 5, 7-8, 2015 | 6 | 2015 |
Interactome of Arabidopsis ATG5 Suggests Functions beyond Autophagy PH Elander, S Holla, I Sabljić, E Gutierrez-Beltran, P Willems, PV Bozhkov, ... International Journal of Molecular Sciences 24 (15), 12300, 2023 | 4 | 2023 |
A proxitome-RNA-capture approach reveals that processing bodies repress coregulated hub genes C Liu, A Mentzelopoulou, IH Hatzianestis, E Tzagkarakis, ... The Plant Cell 36 (3), 559-584, 2024 | 3 | 2024 |
Focus on biomolecular condensates E Gutierrez-Beltran, L Strader, PV Bozhkov The Plant Cell 35 (9), 3155-3157, 2023 | 3 | 2023 |