Multiciliated cells (MCC) project dozens to hundreds of motile cilia from the cell surface to
generate fluid flow across epithelial surfaces or turbulence to promote the transport of …

Centrosomes and primary cilia are usually considered as distinct organelles, although both
are assembled with the same evolutionary conserved, microtubule-based templates, the …

The centrosome is a main orchestrator of the animal cellular microtubule cytoskeleton.
Dissecting its structure and assembly mechanisms has been a goal of cell biologists for over …

The centrosome is a non-membrane-bound organelle that is conserved across most animal
cells and serves various functions throughout the cell cycle. In dividing cells, the centrosome …

Multiciliated cells (MCCs) amplify large numbers of centrioles that convert into basal bodies,
which are required for producing multiple motile cilia. Most centrioles amplified by MCCs …

Centrosome positioning is essential for their function. Typically, centrosomes are transported
to various cellular locations through the interaction of centrosomal microtubules (MTs) with …

the world's oceans are the dominant source of microbial photosynthesis and oceanic
temperatures are lower and fluctuate less than temperatures on land. Indeed, biochemical …

Centrosome cohesion, the joining of the two centrosomes of a cell, is increasingly
appreciated as a major regulator of cell functions such as Golgi organization and cilia …

In cycling cells, new centrioles are assembled in the vicinity of pre-existing centrioles.
Although this canonical centriole duplication is a tightly regulated process in animal cells …

Centrioles form centrosomes and cilia. In most proliferating cells, centrioles assemble
through canonical duplication, which is spatially, temporally, and numerically regulated by …