“Ciliary microtubules don't adhere to any of the normal properties of microtubules,” Bayless says. “From a cell biology perspective, it's a unique case.” Last summer, Bayless was awarded a $407,661 ...

Cilia — tiny hair-like organelles attached to the cell surface — are located on most polarized cells and have been adapted as versatile tools for various cellular functions. Several molecular ...

Cilia movement is driven by an array of longitudinal microtubules arranged in 9 doublets around a central pair. A basal body anchors these microtubules inside the cell.

They discovered structural features of stabilizing cilia with microtubules that ended at different distances within the cilium. This was demonstrated for the first time in the cilia of beta cells.

Microtubules, tiny tubes consisting of a protein called tubulin, are part of this skeleton of cells. Cilia and flagella, which are antenna-like structures that protrude from most of the cells in ...

Some cilia that had their membranes removed were subsequently examined to define the number and size of microtubules, other structural components repeating in such cilia, and chirality.

The researchers examined how the skeletal structure (axoneme) formed by microtubules is organized. They discovered structural features of stabilizing cilia with microtubules ending at different points ...

Cilia consist of an outer structure of nine pairs of microtubules, long tube like molecules that are part of the cell cytoskeleton, arranged into a circle. Connecting them are hundreds of dynein ...

Each cilium is typically organized in a specific arrangement called “9+0,” where nine fused pairs of microtubules form a hollow cylinder. However, again to the scientists’ surprise, the cilia on ...

Circular rings around its base form the transition zone of the cilium, from which nine parallel microtubules project into the extracellular space. About halfway through, the microtubules wind around ...

The primary cilia observed in this study came from both animal and human beta cells. The researchers examined how the skeletal structure (axoneme) formed by microtubules is organized. They discovered ...