Researchers have identified a lipid-driven biophysical mechanism that allows tuberculosis-causing mycobacteria to survive inside human immune cells, a discovery that could inform novel ...

A recent study by the University of Bonn and University Hospital Bonn and the University of Freiburg shows that the ...

The powerhouse of the cells – known as mitochondria – appear to be able to influence the number of lipid droplets in the cell ...

Explore how tuberculosis bacteria survive within human cells, revealing potential paths for new treatments against this ...

Data presented at 16th World ADC London Summit with lead programme in colorectal cancer highlight the promise of Promatix’s proteomics-based ...

Researchers at Sultan Qaboos University have identified three antimicrobial peptides from dromedary camels that demonstrate potent activity against multidrug-resistant bacteria.

Scientists have uncovered an elegant biophysical trick that tuberculosis-causing bacteria use to survive inside human cells, ...

Scientists have uncovered an elegant biophysical trick that tuberculosis-causing bacteria use to survive inside human cells, ...

Northwestern Medicine scientists have discovered a potent immunotherapy approach for treating meningiomas, the most common ...

Mitochondrial diseases are severe, often untreatable, and they leave human cells unable to grow normally without outside help. A new study published in Nature Metabolism now shows that a single gene ...

Innovations in imaging and genetic engineering are coming together to probe the biophysics of cytoplasm inside living animals.

Human cells are extremely small and tightly packed – at about 20 micrometers across, roughly one-fifth the width of a human hair, each cell contains a dense mix of proteins, organelles, and molecular ...