Our brain's remarkable ability to form and store memories has long fascinated scientists, yet most of the microscopic mechanisms behind memory and learning processes remain a mystery.

New research shows Glycolysis -- the process of converting sugar into energy -- plays a key role in early development. More than fuel, Glycolysis doesn't just power cells -- it helps steer them toward ...

A study by researchers at Fred Hutch Cancer Center published in Nature revises the standard story about transcription factors ...

Complex protein interactions at synapses are essential for memory formation in our brains, but the mechanisms behind these ...

Using a forward genetics approach, researchers identified the LIRI1 gene to be the key regulator of carbon allocation in plant leaves, balancing starch and triacylglycerol (TAG) storage. LIRI1 ...

Plants store carbon in two primary forms: starch and triacylglycerols (TAGs). Starch is mainly stored in chloroplasts in ...

Scientists apply principles of math and physics to unravel the mystery of how the endoplasmic reticulum, an organelle vital ...

A team of over 150 scientists has achieved what once seemed impossible: a complete wiring and activity map of a tiny section ...

Starch and oils are known as storehouses of carbon in plants. However, the way in which carbon resources are allocated during metabolism in plants remained unknown. Now, however, using a forward ...

Archaea—one of the three primary domains of life alongside bacteria and eukaryotes—are often overlooked and sometimes ...