Yeast Mating – more than meets the eye | Max-Planck-Gesellschaft https://www.mpg.de/17026277/yeast-mating-more-than-meets-the-eye
Pheromones mediate asymmetric mating behavior in isogamous yeast
Ste2 and Ste3) and a diffusible α-factor protease Bar1
Pheromones mediate asymmetric mating behavior in isogamous yeast
Ste2 and Ste3) and a diffusible α-factor protease Bar1
Mechanocatalysis in a ball mill makes it possible to synthesise ammonia at much lower temperatures and pressures than those required for the Haber-Bosch process. This has been observed by a research team led by F. Schüth and S. Reichle from the Max-Planck-Institut für Kohlenforschung.
Frank Vinken Five hundred degrees Celsius and 200 bar
Researchers discover structure and mechanism of action of molecular light switch, paving the way for new applications
When closed (left), three ‘gates’ (black bars) prevent
Max Planck researchers describe a previously unknown mechanism that controls the regulation of RNA in neurons.
Scale bars: 10µm © MPI of Immunobiology and Epigenetics
Durch Mechanokatalyse in einer Kugelmühle ist die Synthese von Ammoniak bei viel niedrigerer Temperatur und geringerem Druck möglich, als sie im etablierten Haber-Bosch-Verfahren nötig sind. Das hat ein Team um F. Schüth und S. Reichle vom Max-Planck-Institut für Kohlenforschung beobachtet.
© Frank Vinken 500 Grad Celsius und 200 Bar – das
Bacteria probably formed symbioses with protists early in evolution
(Scale bar = 5 micrometer) © MPI f.
Dresden researchers demonstrate that the length of the neurogenic period is a key determinant for brain size.
Scale bar, 50 µm.
Internationales Forscherteam findet Hinweise, dass an der Supraleitung in bestimmten Metallen noch ein zweiter bisher unbekannter Mechanismen beteiligt ist
Um möglichst hohe Drücke zu erzielen (ca. 100.000 bar
Prof. Dr. Marie-Claire Foblets Director and Scientific Member at the Max Planck Institute for Social Anthropology (since 2012).
Advocate Member of the Brussels bar (Orde français
Researchers discover structure and mechanism of action of molecular light switch, paving the way for new applications
When closed (left), three ‘gates’ (black bars) prevent