Mechanisms of mammalian ciliary motility: Insights from primary ciliary dyskinesia genetics

Mechanisms of mammalian ciliary motility: Insights from primary ciliary dyskinesia genetics

Motile cilia and flagella are organelles that, historically, have been poorly understood and inadequately investigated. However, cilia play critical roles in fluid clearance in the respiratory system and the brain, and flagella are required for sperm motility. Genetic studies involving human patient...

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Veröffentlicht in:Gene 2011-03, Vol.473 (2), p.57-66
1. Verfasser: Lee, Lance
Format: Artikel
Sprache:eng
Schlagworte:
animal models
Animals
brain
Chlamydomonas reinhardtii
Chlamydomonas reinhardtii - genetics
Cilia
Cilia - genetics
Cilia - ultrastructure
Ciliary Motility Disorders - genetics
Disease Models, Animal
Dyneins - genetics
dyskinesia
Flagella
Flagella - genetics
Flagella - ultrastructure
flagellum
genetic techniques and protocols
Humans
Hydrocephalus
Kartagener Syndrome - genetics
Male infertility
mammals
Mice
organelles
patients
proteins
respiratory system
Sinusitis
Situs inversus
sperm motility
Transcription Factors - physiology
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Zusammenfassung:Motile cilia and flagella are organelles that, historically, have been poorly understood and inadequately investigated. However, cilia play critical roles in fluid clearance in the respiratory system and the brain, and flagella are required for sperm motility. Genetic studies involving human patients and mouse models of primary ciliary dyskinesia over the last decade have uncovered a number of important ciliary proteins and have begun to elucidate the mechanisms underlying ciliary motility. When combined with genetic, biochemical, and cell biological studies in Chlamydomonas reinhardtii, these mammalian genetic analyses begin to reveal the mechanisms by which ciliary motility is regulated.
ISSN:0378-1119
1879-0038
DOI:10.1016/j.gene.2010.11.006