13. November 2025
Alberti and Hyman among Clarivate’s Highly Cited Researchers in 2025
RTG 3120 PI's have been among the most highly cited authors in 2025, according to Clarivate, with Hyman and Alberti leading the way "in the top 1% by citations for their field(s) and publication year in the Web of Science Core Collection" See the press release by TU Dresden:…
20. August 2025
Intra-condensate demixing of TDP-43 inside stress granules generates pathological aggregates
A new study from the labs of Honigmann, Hyman, and Alberti in Dresden, in addition to colleagues in Texas A&M University, Mayo Clinic, Brown University, and Saint Louis University investigates the mechanism behind pathological outcomes of protein aggregation inside stress granules. The authors…
20. August 2025
Impact of Coiled-Coil Domains on the Phase Behavior of Biomolecular Condensates
A new Study from the Harmon and Sommer Labs in ACS Macro Letters entitled 'Impact of Coiled-Coil Domains on the Phase Behavior of Biomolecular Condensates' addressed how the geometry and structure of folded domains impact condensate formation. They used coarse-grained simulations to determine that…
9. July 2025
New Research Training Group for Biomolecular Condensates in Dresden
The DFG approved a funding application to establish a new Research Training Group (RTG 3120) in Dresden to train PhD students interdisciplinary methods and approaches to study Biomolecular Condensates. Read the press releases for more:…
6. April 2023
CD-Code is now published in Nature Methods
CD-CODE is now published in Nature Methods. It is a “living database” that we designed for fast…
12. January 2022
A role for RNA in Stress Granules assembly
Stress granules are membraneless compartments formed by phase separation of specific molecules upon exposure to cellular stress such as oxidative stress, heat shock, or osmotic stress. The Alberti, Jahnel, Honigmann, and Hyman labs published a study in cell highlighting the role of RNA in the…
10. January 2022
Filament formation by the translation factor eIF2B regulates protein synthesis in starved cells
Aminoacyl-tRNA synthetases (aaRSs), the enzymes responsible for coupling tRNAs to their cognate amino acids, minimize translational errors by intrinsic hydrolytic editing. Here, we compared norvaline (Nva), a linear amino acid not coded for protein synthesis, to the proteinogenic, branched valine…
10. January 2022
Condensation regulates translation
New insights into the influence of Ded1p condensation on translation comes from the Hyman, Alberti and Kreysing labs. The study published in Cell is entitled "Condensation of Ded1p Promotes a Translational Switch from Housekeeping to Stress Protein Production".
Graphical abstract: