A quick intro to Irreversibility
Have you ever seen a movie backwards in time? How did you figure out that the time was flowing backwards? This could seem a silly question. But think about it. It strongly depends on the what process the movie was showing! If you see many pieces of broken glass coming together from different directions to build a bottle that moves against gravity, you’ll immediately know that the movie is reversed. You know that because breaking a bottle is a very irreversible process. But how would you know it if the movie shows a pendulum? Or two billiard balls colliding? Or a planet orbiting a star? The way we guess the arrow of time on irreversible processes has to do with the Second Law of Thermodynamics! Watch this quick intro to Irreversibility!
Prepared by Mariona Esquerda Ciutat from the Hyman and Jülicher labs in Dresden.
Current news by our research groups
Agnes Toth-Petroczy Group,Anthony Hyman Group
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 addition and review of information about condensates and proteins and is open to users and expert researchers who would like to contribute. Join us and visit cd-code! CD code has been a…
Computational Postdoc or PhD student (m/f/d) in protein evolution and biomolecular condensates
The Toth-Petroczy lab is an interdisciplinary research group at MPI-CBG and CSBD that studies protein evolution. Applications will be reviewed on a rolling basis until the position is filled. The Max Planck Institute of Molecular Cell Biology and Genetics (MPI-CBG) and the Center for Systems…
We are hiring a Software Developer
The Toth-Petroczy lab is an interdisciplinary research group at MPI-CBG and CSBD that studies protein evolution. Applications will be reviewed on a rolling basis until the position is filled. The Max Planck Institute of Molecular Cell Biology and Genetics (MPI-CBG) and the Center for…
Simon Alberti Group,Alf Honigmann Group,Anthony Hyman Group,Marcus Jahnel Group
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…
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…
Moritz Kreysing Group,Simon Alberti Group,Anthony Hyman Group
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: Abstract: Cells…