Researchers have mapped how the pancreas is formed at the fetal stage
Discussions about the Universe: Microscopically Small - Infinitely Wide
Strengthening the ties between the TU Dresden and the MPI-CBG
A gene, found only in humans and active in the cerebral cortex, can enlarge the ferret brain
The Keith R. Porter Fellow Award for Cell Biology 2018 for Gaia Pigino
Novel method enables storage and processing of huge amounts of microscopy data
Researchers develop a method to overcome the limitations of microscopes
Gaia Pigino and Caren Norden receive ERC Consolidator Grants
New protein analysis method uncovers prehistoric fish recipe
The tegu, a South American lizard with its own heating system, has had its genome sequenced to an unprecedented level of quality
What genomes can tell us about the evolution of animal traits
Max Planck researchers reveal the nano-structure of molecular trains and the reason for smooth transport in cellular antennas.
10th Retina Information Day
Metabolism in mammals is more flexible than previously thought
PhD representatives from six Dresden research institutes address citizens of Dresden
Researchers show that membraneless microdroplets are a great place for RNA concentration and activity to enable the origin of life.
Türöffner-Tag in Virtual Reality
“Click Cage” - A new tool for controlling lipid levels
MPI-CBG part of one new Dresden cluster for Physics of Life
Max Planck Day at the New Dresden City Hall
Max Planck Society supports projects for high quality reference genomes
Highest award of the Free State of Saxony for the successful development of Dresden as a location for science
MPI-CBG as “Place of Togetherness” presented air-acrobatic performance
Anne Grapin-Botton enriches the Dresden science community with her research on miniature organs
10th Anniversary of the Light Sheet Fluorescence Microscopy Conference in Dresden
Introducing the Light Sheet Microscopy paradigm to a new generation of scientists
Students Explore Computer Simulation in Systems Biology
3D analysis of retinal tissue shows how to keep shape during organ growth
Dresden researchers discover molecular mechanism underlying human neocortex folding
Award for outstanding achievement in computer science