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PCD Genes—From Patients to Model Organisms and Back to Humans

Michał Niziołek, Marta Bicka, Anna Osinka, Zuzanna Samsel, Justyna Sekretarska, Martyna Poprzeczko, Rafał Bazan, Hanna Fabczak, Ewa Joachimiak, Dorota Włoga

2022International Journal of Molecular Sciences14 citationsDOIOpen Access PDF

Abstract

Primary ciliary dyskinesia (PCD) is a hereditary genetic disorder caused by the lack of motile cilia or the assembxly of dysfunctional ones. This rare human disease affects 1 out of 10,000–20,000 individuals and is caused by mutations in at least 50 genes. The past twenty years brought significant progress in the identification of PCD-causative genes and in our understanding of the connections between causative mutations and ciliary defects observed in affected individuals. These scientific advances have been achieved, among others, due to the extensive motile cilia-related research conducted using several model organisms, ranging from protists to mammals. These are unicellular organisms such as the green alga Chlamydomonas, the parasitic protist Trypanosoma, and free-living ciliates, Tetrahymena and Paramecium, the invertebrate Schmidtea, and vertebrates such as zebrafish, Xenopus, and mouse. Establishing such evolutionarily distant experimental models with different levels of cell or body complexity was possible because both basic motile cilia ultrastructure and protein composition are highly conserved throughout evolution. Here, we characterize model organisms commonly used to study PCD-related genes, highlight their pros and cons, and summarize experimental data collected using these models.

Topics & Concepts

BiologyModel organismCiliumMotile ciliumZebrafishTetrahymenaGenePrimary ciliary dyskinesiaParameciumGeneticsFlagellumEvolutionary biologyChlamydomonasProtistCell biologyMutantLinguisticsBronchiectasisPhilosophyLungGenetic and Kidney Cyst DiseasesProtist diversity and phylogenyCystic Fibrosis Research Advances
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