A multi-institutional research collaboration has revealed that the microtubule network (*1), which plays a vital role in cell construction and polarization (*2), utilizes the phase separation (*3) ...

Cellular life hinges on a network of hollow cables called microtubules dynamically lengthening and shortening according to the needs of the moment. During cell division, for instance, these cables ...

Microtubule nucleation is a fundamental process in eukaryotic cells, underpinning the formation of the cytoskeletal network that is critical for cell division, intracellular transport and overall ...

Microtubules are cellular fibres that are part of the skeleton of the cell, termed cytoskeleton. They ensure that cells maintain their shape, carry out their functions, and divide. Microtubule fibres ...

This is a preview. Log in through your library . Abstract When higher eukaryotic cells enter mitosis, membrane organization changes dramatically and traffic between membrane compartments is inhibited.

Inside every cell, a network of tiny filaments, called the microtubule cytoskeleton, helps maintain the cell's shape, allows it to divide, and transports vital materials from one part of the cell to ...

Scientists found out how naturally unstable filaments decide whether to grow or to shorten. In a groundbreaking study published today in the journal Proceedings of the National Academy of Sciences ...

The chromosomes, once they have duplicated genetic information, move to the center of the cell and the cell, in a very remarkable way, quickly sprouts from its two ends large tubes that hook the ...

This is a preview. Log in through your library . Abstract Certain intracellular organelles such as the endoplasmic reticulum and lysosomes form tubular networks that are closely aligned with ...

For instant microtubules, just add a droplet of … tau. In the third recent paper to report that tau undergoes liquid-liquid phase separation, researchers describe how tau droplets subsume tubulin ...