Frederick lab using new high-tech microscopes in cancer research
The Frederick News-Post discusses the work of the Center for Molecular Microscopy and the Ras Initiative at the Advanced Technology Research Facility in Frederick, highlighting the use of the latest generation of electron and light microscopes to visualize cells and proteins in 3D.
The New Electron Microscopy: Cells and Molecules in Three Dimensions
The Poster, a news publication for the scientific, administrative and support communities at NCI at Frederick, discusses the research and capabilities of the CMM.
Through the High-Tech Looking Glass
CCR connections, published by the Center for Cancer Research within the National Cancer Institute, highlights CCR laboratories developing new technologies for imaging tissues, cells and molecules.
Muscle Mitochondria May Form Energy Power Grid
NIH Research Matters, a weekly update of research from the National Institutes of Health, highlights a recent study from the Subramaniam and Balaban labs showing a contiguous network of mitochondria in muscle. The study was published in the journal Nature.
High-resolution 3D images reveal the muscle mitochondrial power grid
In a press release, the National Heart, Lung, and Blood Institute (NHLBI) highlights a recent Nature publication from the Subramaniam and Balaban labs, which revealed how a contiguous network of mitochondria powers skeletal muscle cells.
HIV: The Initial Invasion
Veronica Falconieri was awarded the Alan Cole Scholarship from the Vesalius Trust to create this video as part of her Master's thesis in Biomedical Illustration at the Johns Hopkins University School of Medicine.
Structural States of a Brain Receptor Revealed
NIH Research Matters, a weekly update of research from the National Institutes of Health, highlights the structural studies of ionotropic glutamate receptors by Meyerson et al. in the journal Nature.
Glutamate Receptors: Mechanistic Twists and Turns
Nature Chemical Biology News and Views discusses the recent publication by Meyerson et al about the structural mechanism of ionotropic Glutamate Receptors