Centrioles are conserved microtubule-based organelles that form the core of the centrosome
and act as templates for the formation of cilia and flagella. Centrioles have important roles in …

The centriole is an ancient microtubule-based organelle with a conserved nine-fold
symmetry. Centrioles form the core of centrosomes, which organize the interphase …

The axoneme of motile cilia is the largest macromolecular machine of eukaryotic cells. In
humans, impaired axoneme function causes a range of ciliopathies. Axoneme assembly …

Centrioles are microtubule-based organelles responsible for forming centrosomes and cilia,
which serve as microtubule-organizing, signaling, and motility centers. Biogenesis and …

Centrioles are barrel-shaped structures that are essential for the formation of centrosomes,
cilia, and flagella. Here we review recent advances in our understanding of the function and …

Centrioles/basal bodies (CBBs) are microtubule-based cylindrical organelles that nucleate
the formation of centrosomes, cilia, and flagella. CBBs, cilia, and flagella are ancestral …

Cilia are complex structures that have garnered interest because of their roles in vertebrate
development and their involvement in human genetic disorders. In contrast to multicellular …

The ninefold radial arrangement of microtubule triplets (MTTs) is the hallmark of the
centriole, a conserved organelle crucial for the formation of centrosomes and cilia. Although …

The centriole is an evolutionarily conserved macromolecular structure that is crucial for the
formation of flagella, cilia and centrosomes. The ultrastructure of the centriole was first …

The role of centrioles changes as a function of the cell cycle. Centrioles promote formation of
spindle poles in mitosis and act as basal bodies to assemble primary cilia in interphase …