News 2022

Researchers from Dresden, together with Danish and Finnish colleagues, identify a gene that enables beta cells to communicate with each other, helping the pancreas to respond to glucose by insulin secretion. 

World’s largest science prize for discovering a new mechanism of cellular organization.

Dresden research team finds that the cell cortex, a fine network of filaments below the cell membrane, is activated in a controlled way by thousands of short-lived protein condensates.

Researchers from Dresden uncover a greater neuron production in the frontal lobe during brain development in modern humans than Neandertals, due to the change of a single amino acid in the protein TKTL1.

Dresden and Leipzig researchers find that stem cells in the developing brain of modern humans take longer to divide and make fewer errors when distributing their chromosomes to their daughter cells, compared to those of Neanderthals.

Spanish scientist investigates liver development, regeneration and disease.

The director at the Max Planck Institute of Molecular Cell Biology and Genetics in Dresden receives the award for the discovery of condensates - cell droplets without a membrane, a new hope for the treatment of neurodegenerative diseases.

Study finds genome loops don’t last long in cells; theories of how loops control gene expression may need to be revised.

Dresden researchers explain how liquid-like protein droplets collectively read DNA regions to switch on genes.

New study identifies two genes, previously reported to be involved in cancer, as regulators of the metabolic state of the liver. Alterations in these genes influence the likelihood of developing fatty liver disease.