Corkins ME , Krneta-Stankic V , Kloc M , Miller RK .

R01DK115655 NIDDK NIH HHS , R03DK118771 NIDDK NIH HHS , Startup Funding UTHealth McGovern Medical School Department of Pediatrics, R03 DK118771 NIDDK NIH HHS , R01 DK115655 NIDDK NIH HHS

                Meckel syndrome
                hydrolethalus syndrome
                ciliopathy
                sensorineural hearing loss
                intellectual disability
                Down syndrome
                Bardet-Biedl syndrome
                cystic kidney disease
                autosomal dominant polycystic kidney disease

	FIGURE 1 Structure of cilia. The cilia are composed of three main sections, the axoneme which performs the sensory or movement function, the transition zone which likely contains over 100 proteins which function to anchor the cilia and regulate transport to and from the cilia, and the basal body which is a centriole that functions as a tubulin organizing center to form the cilia. Diagram showing the cross section of the axoneme of common types of motile and primary cilia in vertebrates
	FIGURE 2 Confocal images of wholemount zebrafish (3dpf) and Xenopus laevis (Stage 37) kidney cilia. Cilia were stained using an acetylated alpha‐tubulin antibody (Sigma T6793) which labels the neurons and cilia. Kidney cilia are pseudocolored in green while neurons and epithelial cilia are pseudocolored in red. The zebrafish and Xenopus kidney are outlined in white dashed lines, and motile multiciliated cells in the kidney are pseudocolored in magenta. Images were taken on a Zeiss LSM800 confocal microscope
	FIGURE 3 Images of Xenopus laevis motile epidermal cilia. (a–c) Confocal imaging of acetylated alpha‐tubulin stained whole mount Xenopus embryo. (d,e) Scanning electron micrograph of the skin of whole mount Xenopus embryo. (e,f) Transmission electron microscopy showing sections through cilia. (f) Image showing basal body and axoneme of motile cilia (g) Image showing cross‐section and the 9 + 2 microtubule structure of motile cilia. (c,e) Zoomed in image of white dashed box in (b) and (d)
	FIGURE 4 Confocal images of the motile cilia lining the zebrafish nasal (olfactory) pit. Dorsal view of 8 dpf zebrafish embryos with head toward the top of the image. Embryos were fixed and stained with acetylated alpha‐tubulin (Green) (Sigma T6793) and DAPI (Blue). Acetylated tubulin labels both the cilia and neurons. Nasal pits are circled in white, and neural mast cells are circled in red
	FIGURE 5 Diagram of a posterior view of the Left–Right organizer and its functions. Motile cilia (green) create a leftward flow of fluid over the cleft. This leftward flow activated primary cilia (red) on the left half of the cleft resulting in the opening of polycystin calcium channels. Calcium influx inhibits a protein Coco leading to activation of Nodal signaling

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