A new discovery from an international collaborative research team has solved the mystery of how cells turn on their recycling process and create "garbage bags" to remove proteins. The process of how ...

Fluorescent proteins have revolutionized science, enabling researchers to tag and visualize individual molecules in living cells, tissues, and animals. Using these tools, researchers have watched ...

A new review highlights the pivotal role of LSD1 (lysine-specific demethylase 1) in regulating critical cellular processes and its implications for human diseases. This article sheds light on how post ...

Deep in our cells, a wide range of processes are occurring constantly. These cellular processes rely on enzymes to act as catalysts and set off a series of molecular interactions. There are still many ...

Actin is a fundamental cytoskeletal protein that assembles into dynamic filaments to drive essential cellular behaviours such as motility, division and intracellular transport. In mammalian cells, ...

Fluorescent proteins have revolutionized science, enabling researchers to tag and visualize individual molecules in living cells, tissues, and animals. Using these tools, researchers have watched ...

To study biological processes, scientists often take snapshots of the molecules in cells, such as proteins and nucleotides, at specific points in time. In spatial biology, they can leverage molecular ...

A research group has developed new advanced light-controlled tools that enable precise control of proteins in real time in living cells. This groundbreaking research opens doors to new methods for ...

Actin dynamics lie at the heart of numerous cellular functions, from the generation of force during motility to the organisation of intracellular architecture and the transduction of biochemical ...

Cover -- Half Title -- Series Page -- Title Page -- Copyright Page -- Table of Contents -- Series Preface (Evolutionary Cell Biology) -- Preface -- Editor ...

Plants and trees may seem pretty passive, but behind the scenes, their cells are working hard to put on a magic show. In this episode of Crash Course Botany, we’ll explore how the processes of ...

Axel Nimmerjahn helped develop a new technology for imaging cells, called visible-spectrum antigen-stabilizable fluorescent nanobodies, which provides a versatile platform for imaging and studying ...