Yeast: Highest Resolution Three-dimensional Structure Yet Of A Membrane Protein Date: June 29, 2009 Source: Public Library of Science Summary: Scientists can now describe the highest resolution ...

Setting the pace of cell division. To do this, Nitin developed sensors that allowed him to look inside single live yeast cells, and to monitor CDK activity simultaneously in both the nucleus and ...

Three-dimensional (3D) imaging is essential for investigating cellular structure and dynamics. Traditional optical methods ...

Researchers at the Francis Crick Institute have shown that the 'pacemaker' controlling yeast cell division lies inside the nucleus rather than outside it, as previously thought.

IN a study of the structure of the cell wall of baker's yeast with the electron microscope, one of us (A. L. H.) obtained results which induced us to start microchemical work on the presence of ...

Unlike in animal cells, the SPB of yeast contains only 18 proteins and Viswanath has initially focused on five core proteins: Spc110, Spc42, Cnm67, Spc29 and Cmd1.

The group focused on one transcription factor known as mot3, finding that yeast cells containing the prion form of this factor, [MOT3+], acquired a variety of multicellular growth forms known to ...

A new experiment evolved yeast clusters into globs of more than 400,000 cells—a significant leap from much smaller clusters of cells. When these clusters are compressed, they fracture into ...

“The branches of the yeast had become entangled – the cluster cells evolved vine-like behavior, wrapping around each other and strengthening the entire structure.” By simply selecting on organismal ...

The research team behind experiments with genetically engineered yeast cells. From left: Jie Zhang (Co-founder & CSO Biomia), Beata Lehka (postdoc, DTU Biosustain), Samuel Bradley (research ...