The chirality of tissues and organs is essential for their proper function and development. Tissue-level chirality derives from the chirality of individual cells that comprise the tissue, and cellular ...

Summary: New research reveals how a tiny chemical mark on RNA helps wire the brain during development. Scientists discovered ...

A team of researchers at NYU Abu Dhabi has uncovered a key mechanism that helps shape how our brains are wired, and what can ...

A team of researchers at NYU Abu Dhabi has uncovered a key mechanism that helps shape how our brains are wired, and ...

Marcelo Marucho, an associate professor in the UTSA Department of Physics and Astronomy, studies, in particular, the cytoskeleton’s actin filaments and microtubules for the past 4 years. He works to ...

The cytoskeleton provides most cells with their shape, structure, and internal organization. In turn, the cytoskeleton relies on a type of actin protein, called filamentous or F-actin.

The assembly and disassembly of actin filaments are processes regulated by a large number of actin-interacting proteins, and maintenance of the actin cytoskeleton is “highly susceptible to ...

Cells, the fundamental building blocks of life, are constantly subjected to a variety of mechanical forces within our bodies.

Actin cytoskeleton morphology is able to affect and reflect the cellular mechanical properties. However, due to the lack of efficient approaches to quantifying actin cytoskeleton and mechanical ...

The study reveals 44 differentially expressed proteins in cleft palate models, shedding light on molecular mechanisms and ...

Researchers from Cleveland Clinic's Florida Research and Innovation Center (FRIC) found that disruption of a cellular structure, known as the actin cytoskeleton, is a "priming signal" for the body ...