The nexin-dynein regulatory complex subunit DRC1 is essential for motile cilia function in algae and humans
Wirschell M., Olbrich H., Werner C., Tritschler D., Bower R., Sale W., Loges N., Pennekamp P., Lindberg S., Stenram U., Carlén B., Horak E., Köhler G., Nürnberg P., Nürnberg G., Porter M., Omran H.
Research article (journal) | Peer reviewedAbstract
Primary ciliary dyskinesia (PCD) is characterized by dysfunction of respiratory cilia and sperm flagella and random determination of visceral asymmetry. Here, we identify the DRC1 subunit of the nexin-dynein regulatory complex (N-DRC), an axonemal structure critical for the regulation of dynein motors, and show that mutations in the gene encoding DRC1, CCDC164, are involved in PCD pathogenesis. Loss-of-function mutations disrupting DRC1 result in severe defects in assembly of the N-DRC structure and defective ciliary movement in Chlamydomonas reinhardtii and humans. Our results highlight a role for N-DRC integrity in regulating ciliary beating and provide the first direct evidence that mutations in DRC genes cause human disease. © 2013 Nature America, Inc. All rights reserved.
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Authors from the University of Münster
| Loges, Niki Tomas | University Children's Hospital - Department for General Paediatrics |
| Pennekamp, Petra | University Children's Hospital - Department for General Paediatrics |