A new microfluidic method preserves worm anatomy to link lipid signals with body structure using mass spectrometry imaging. Understanding how fat molecules are distributed and function in living ...

We often think of embryonic development as a genetic ballet, choreographed entirely by DNA and proteins. But there’s another cast member quietly shaping the scene: lipids. These fat molecules aren’t ...

Biological membranes of cells and its subunits (organelles) are organized into tiny regions (nanodomains) made up of fats (lipids) and proteins. Those specialized regions carry out important tasks for ...

Single-cell OMICs have gained significant momentum in recent years, largely due to the development of pioneering mass spectrometry tools with high sensitivity levels. These developments are timely and ...

A review maps high throughput strategies that link automation, microfluidics, and barcoding into a unified pipeline, enabling faster, more predictive lipid nanoparticle development for genetic ...