Calaxin is required for cilia-driven determination of vertebrate laterality.
Keita SasakiKogiku ShibaAkihiro NakamuraNatsuko KawanoYuhkoh SatouhHiroshi YamaguchiMotohiro MorikawaDaisuke ShibataRyuji YanaseKei JokuraMami NomuraMami MiyadoShuji TakadaHironori UenoShigenori NonakaTadashi BabaMasahito IkawaMasahide KikkawaKenji MiyadoKazuo InabaPublished in: Communications biology (2019)
Calaxin is a Ca2+-binding dynein-associated protein that regulates flagellar and ciliary movement. In ascidians, calaxin plays essential roles in chemotaxis of sperm. However, nothing has been known for the function of calaxin in vertebrates. Here we show that the mice with a null mutation in Efcab1, which encodes calaxin, display typical phenotypes of primary ciliary dyskinesia, including hydrocephalus, situs inversus, and abnormal motility of trachea cilia and sperm flagella. Strikingly, both males and females are viable and fertile, indicating that calaxin is not essential for fertilization in mice. The 9 + 2 axonemal structures of epithelial multicilia and sperm flagella are normal, but the formation of 9 + 0 nodal cilia is significantly disrupted. Knockout of calaxin in zebrafish also causes situs inversus due to the irregular ciliary beating of Kupffer's vesicle cilia, although the 9 + 2 axonemal structure appears to remain normal.
Keyphrases
- high fat diet induced
- wild type
- high resolution
- subarachnoid hemorrhage
- neoadjuvant chemotherapy
- type diabetes
- escherichia coli
- cerebrospinal fluid
- radiation therapy
- binding protein
- skeletal muscle
- insulin resistance
- brain injury
- cystic fibrosis
- rectal cancer
- resting state
- candida albicans
- type iii
- simultaneous determination