Scientists have found that 93% of the lipids in brain tissue are distributed differently in the white and gray matter, the subcortex, the visual and motor cortices, and the prefrontal cortex, which is ...

Scientists have found that 93% of the lipids in brain tissue are distributed differently in the white and gray matter, the subcortex, the visual and motor cortices, and the prefrontal cortex, which is ...

Human metabolism is a complex web of chemical processes and interactions between our cells and the microbes living within us. The more scientists can identify and classify the molecules involved in ...

LC3-associated phagocytosis (LAP) is a specialized process for degrading dead cells, microbes or other particles. It plays a ...

A genetic disorder leads to an increase in bioactive lipids in the brain, resulting in an imbalance between excitation and inhibition in neural circuits and promoting mental disorders. However, ...

St. Jude scientists have uncovered the previously unknown lipid-regulated mechanism that initiates LC3-associated ...

A schematic illustration of the role of DHHC5 and CRYBG1 in controlling lacteal function and intestinal lipid absorption by maintaining the lipid raft association of VEGFR2. The proper functioning of ...

For decades, scientists believed Alzheimer’s was driven mainly by sticky protein plaques and tangles in the brain. Now Purdue researchers have revealed a hidden culprit: fat. They found that brain ...

Please provide your email address to receive an email when new articles are posted on . Obesity increases heart disease risk, in part due to adverse effects on lipid levels. Priorities for patients ...