| Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition)1 DJ Klionsky, AK Abdel-Aziz, S Abdelfatah, M Abdellatif, A Abdoli, S Abel, ... autophagy 17 (1), 1-382, 2021 | 10127 | 2021 |
| A liquid-to-solid phase transition of the ALS protein FUS accelerated by disease mutation A Patel, HO Lee, L Jawerth, S Maharana, M Jahnel, MY Hein, S Stoynov, ... Cell 162 (5), 1066-1077, 2015 | 2262 | 2015 |
| Considerations and challenges in studying liquid-liquid phase separation and biomolecular condensates S Alberti, A Gladfelter, T Mittag Cell 176 (3), 419-434, 2019 | 1726 | 2019 |
| Protein phase separation: a new phase in cell biology S Boeynaems, S Alberti, NL Fawzi, T Mittag, M Polymenidou, F Rousseau, ... Trends in cell biology 28 (6), 420-435, 2018 | 1497 | 2018 |
| A molecular grammar governing the driving forces for phase separation of prion-like RNA binding proteins J Wang, JM Choi, AS Holehouse, HO Lee, X Zhang, M Jahnel, ... Cell 174 (3), 688-699. e16, 2018 | 1313 | 2018 |
| A systematic survey identifies prions and illuminates sequence features of prionogenic proteins S Alberti, R Halfmann, O King, A Kapila, S Lindquist Cell 137 (1), 146-158, 2009 | 1050 | 2009 |
| RNA buffers the phase separation behavior of prion-like RNA binding proteins S Maharana, J Wang, DK Papadopoulos, D Richter, A Pozniakovsky, ... Science 360 (6391), 918-921, 2018 | 845 | 2018 |
| ATP as a biological hydrotrope A Patel, L Malinovska, S Saha, J Wang, S Alberti, Y Krishnan, AA Hyman Science 356 (6339), 753-756, 2017 | 709 | 2017 |
| Phase separation of a yeast prion protein promotes cellular fitness TM Franzmann, M Jahnel, A Pozniakovsky, J Mahamid, AS Holehouse, ... Science 359 (6371), eaao5654, 2018 | 574 | 2018 |
| Liquid–liquid phase separation in disease S Alberti, D Dormann Annual review of genetics 53, 171-194, 2019 | 541 | 2019 |
| Promiscuous interactions and protein disaggregases determine the material state of stress-inducible RNP granules S Kroschwald, S Maharana, D Mateju, L Malinovska, E Nüske, I Poser, ... elife 4, e06807, 2015 | 540 | 2015 |
| RNA-induced conformational switching and clustering of G3BP drive stress granule assembly by condensation J Guillén-Boixet, A Kopach, AS Holehouse, S Wittmann, M Jahnel, ... Cell 181 (2), 346-361. e17, 2020 | 533 | 2020 |
| A suite of Gateway® cloning vectors for high‐throughput genetic analysis in Saccharomyces cerevisiae S Alberti, AD Gitler, S Lindquist Yeast 24 (10), 913-919, 2007 | 508 | 2007 |
| Cooperation of a ubiquitin domain protein and an E3 ubiquitin ligase during chaperone/proteasome coupling J Demand, S Alberti, C Patterson, J Höhfeld Current Biology 11 (20), 1569-1577, 2001 | 465 | 2001 |
| Biomolecular condensates at the nexus of cellular stress, protein aggregation disease and ageing S Alberti, AA Hyman Nature reviews Molecular cell biology 22 (3), 196-213, 2021 | 463 | 2021 |
| An aberrant phase transition of stress granules triggered by misfolded protein and prevented by chaperone function D Mateju, TM Franzmann, A Patel, A Kopach, EE Boczek, S Maharana, ... The EMBO journal 36 (12), 1669-1687, 2017 | 398 | 2017 |
| A pH-driven transition of the cytoplasm from a fluid-to a solid-like state promotes entry into dormancy MC Munder, D Midtvedt, T Franzmann, E Nuske, O Otto, M Herbig, ... elife 5, e09347, 2016 | 380 | 2016 |
| Phase separation in biology S Alberti Current Biology 27 (20), R1097-R1102, 2017 | 365 | 2017 |
| A complete mass-spectrometric map of the yeast proteome applied to quantitative trait analysis P Picotti, M Clément-Ziza, H Lam, DS Campbell, A Schmidt, EW Deutsch, ... Nature 494 (7436), 266-270, 2013 | 345 | 2013 |
| Amyloid-like self-assembly of a cellular compartment E Boke, M Ruer, M Wühr, M Coughlin, R Lemaitre, SP Gygi, S Alberti, ... Cell 166 (3), 637-650, 2016 | 336 | 2016 |
AA HymanMax Planck institute of molecular cell biology and geneticsVerified email at mpi-cbg.de
