Structural insights into the cause of human RSPH4A primary ciliary dyskinesia
Zhao Y, Pinskey J, Lin J, Yin W, Sears P, Daniels L, Zariwala M, Knowles M, Ostrowski L, Nicastro D. Structural insights into the cause of human RSPH4A primary ciliary dyskinesia. Molecular Biology Of The Cell 2021, 32: 1202-1209. PMID: 33852348, PMCID: PMC8351563, DOI: 10.1091/mbc.e20-12-0806.Peer-Reviewed Original ResearchMeSH KeywordsAxonemeCiliaCiliary Motility DisordersCytoskeletal ProteinsElectron Microscope TomographyHumansMutationRespiratory SystemConceptsStructural basisCryo-electron tomographyRadial spokesCentral pair complexUnderlying structural basisAxonemal repeatEukaryotic organellesArch domainThree-dimensional structureSubtomogram averagingOrgan positioningCell motilityStructural insightsPrimary ciliary dyskinesiaCiliaHuman ciliaHuman respiratory ciliaRS1Primary defectStructure determinationCiliary dyskinesiaHuman healthOrganellesFlagellaRepeats