NORTH GREENBUSH — Applied BioPhysics received a two-year, $1.8 million grant from the National Institutes of Health to fund its continued research and cultivation of advanced biomedical instruments.
Researchers use light stimuli to shape cells and develop a model that explains the mechanisms – with implications for synthetic biology. A main characteristic of all living organisms is that cells can ...
It’s a familiar image, reprinted in countless biology textbooks: an illustration of a typical cell, halved like a grapefruit to reveal its innards. Strands of endoplasmic reticulum encircle a nucleus ...
‘Tiny biological batteries’ can change the cell membrane’s electrical properties – a discovery that has big implications for health, as many essential cellular processes hinge upon precise electrical ...
Lipid bilayers in mammalian membranes can have a more asymmetric composition than previously thought, new research shows. This lipid abundance asymmetry is enabled by the unique properties of ...
Cells constantly probe their environments, searching for physical cues that guide their behavior. And yet a cell's response to its environment is always biochemical, mediated by the chemistry of its ...
The cells in our bodies move in groups during biological processes such as wound healing and tissue development – but because of resistance, or viscosity, those cells can’t just neatly glide past each ...
Article ‘Count’ and ‘Share’ for Institute of Cell Biophysics, RAS based on listed parameters only. The articles listed below published by authors from Institute of Cell Biophysics, RAS, organized by ...
Lipid bilayers in mammalian membranes can have a more asymmetric composition than previously thought, new research shows. This lipid abundance asymmetry is enabled by the unique properties of ...