The CSC proteins FAP61 and FAP251 build the basal substructures of radial spoke 3 in cilia

Dynein motors and regulatory complexes repeat every 96 nm along the length of motile cilia. Each repeat contains three radial spokes, RS1, RS2, and RS3, which transduct signals between the central microtubules and dynein arms. Each radial spoke has a distinct structure, but little is known about the...

Descripción completa

Detalles Bibliográficos
Autores principales: Urbanska, Paulina, Song, Kangkang, Joachimiak, Ewa, Krzemien-Ojak, Lucja, Koprowski, Piotr, Hennessey, Todd, Jerka-Dziadosz, Maria, Fabczak, Hanna, Gaertig, Jacek, Nicastro, Daniela, Wloga, Dorota
Formato: Online Artículo Texto
Lenguaje:English
Publicado: The American Society for Cell Biology 2015
Materias:
Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4395127/
https://www.ncbi.nlm.nih.gov/pubmed/25694453
http://dx.doi.org/10.1091/mbc.E14-11-1545
_version_ 1782366375723925504
author Urbanska, Paulina
Song, Kangkang
Joachimiak, Ewa
Krzemien-Ojak, Lucja
Koprowski, Piotr
Hennessey, Todd
Jerka-Dziadosz, Maria
Fabczak, Hanna
Gaertig, Jacek
Nicastro, Daniela
Wloga, Dorota
author_facet Urbanska, Paulina
Song, Kangkang
Joachimiak, Ewa
Krzemien-Ojak, Lucja
Koprowski, Piotr
Hennessey, Todd
Jerka-Dziadosz, Maria
Fabczak, Hanna
Gaertig, Jacek
Nicastro, Daniela
Wloga, Dorota
author_sort Urbanska, Paulina
collection PubMed
description Dynein motors and regulatory complexes repeat every 96 nm along the length of motile cilia. Each repeat contains three radial spokes, RS1, RS2, and RS3, which transduct signals between the central microtubules and dynein arms. Each radial spoke has a distinct structure, but little is known about the mechanisms of assembly and function of the individual radial spokes. In Chlamydomonas, calmodulin and spoke-associated complex (CSC) is composed of FAP61, FAP91, and FAP251 and has been linked to the base of RS2 and RS3. We show that in Tetrahymena, loss of either FAP61 or FAP251 reduces cell swimming and affects the ciliary waveform and that RS3 is either missing or incomplete, whereas RS1 and RS2 are unaffected. Specifically, FAP251-null cilia lack an arch-like density at the RS3 base, whereas FAP61-null cilia lack an adjacent portion of the RS3 stem region. This suggests that the CSC proteins are crucial for stable and functional assembly of RS3 and that RS3 and the CSC are important for ciliary motility.
format Online
Article
Text
id pubmed-4395127
institution National Center for Biotechnology Information
language English
publishDate 2015
publisher The American Society for Cell Biology
record_format MEDLINE/PubMed
spelling pubmed-43951272015-08-14 The CSC proteins FAP61 and FAP251 build the basal substructures of radial spoke 3 in cilia Urbanska, Paulina Song, Kangkang Joachimiak, Ewa Krzemien-Ojak, Lucja Koprowski, Piotr Hennessey, Todd Jerka-Dziadosz, Maria Fabczak, Hanna Gaertig, Jacek Nicastro, Daniela Wloga, Dorota Mol Biol Cell Articles Dynein motors and regulatory complexes repeat every 96 nm along the length of motile cilia. Each repeat contains three radial spokes, RS1, RS2, and RS3, which transduct signals between the central microtubules and dynein arms. Each radial spoke has a distinct structure, but little is known about the mechanisms of assembly and function of the individual radial spokes. In Chlamydomonas, calmodulin and spoke-associated complex (CSC) is composed of FAP61, FAP91, and FAP251 and has been linked to the base of RS2 and RS3. We show that in Tetrahymena, loss of either FAP61 or FAP251 reduces cell swimming and affects the ciliary waveform and that RS3 is either missing or incomplete, whereas RS1 and RS2 are unaffected. Specifically, FAP251-null cilia lack an arch-like density at the RS3 base, whereas FAP61-null cilia lack an adjacent portion of the RS3 stem region. This suggests that the CSC proteins are crucial for stable and functional assembly of RS3 and that RS3 and the CSC are important for ciliary motility. The American Society for Cell Biology 2015-04-15 /pmc/articles/PMC4395127/ /pubmed/25694453 http://dx.doi.org/10.1091/mbc.E14-11-1545 Text en © 2015 Urbanska, Song, et al. This article is distributed by The American Society for Cell Biology under license from the author(s). Two months after publication it is available to the public under an Attribution–Noncommercial–Share Alike 3.0 Unported Creative Commons License (http://creativecommons.org/licenses/by-nc-sa/3.0). “ASCB®,” “The American Society for Cell Biology®,” and “Molecular Biology of the Cell®” are registered trademarks of The American Society for Cell Biology.
spellingShingle Articles
Urbanska, Paulina
Song, Kangkang
Joachimiak, Ewa
Krzemien-Ojak, Lucja
Koprowski, Piotr
Hennessey, Todd
Jerka-Dziadosz, Maria
Fabczak, Hanna
Gaertig, Jacek
Nicastro, Daniela
Wloga, Dorota
The CSC proteins FAP61 and FAP251 build the basal substructures of radial spoke 3 in cilia
title The CSC proteins FAP61 and FAP251 build the basal substructures of radial spoke 3 in cilia
title_full The CSC proteins FAP61 and FAP251 build the basal substructures of radial spoke 3 in cilia
title_fullStr The CSC proteins FAP61 and FAP251 build the basal substructures of radial spoke 3 in cilia
title_full_unstemmed The CSC proteins FAP61 and FAP251 build the basal substructures of radial spoke 3 in cilia
title_short The CSC proteins FAP61 and FAP251 build the basal substructures of radial spoke 3 in cilia
title_sort csc proteins fap61 and fap251 build the basal substructures of radial spoke 3 in cilia
topic Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4395127/
https://www.ncbi.nlm.nih.gov/pubmed/25694453
http://dx.doi.org/10.1091/mbc.E14-11-1545
work_keys_str_mv AT urbanskapaulina thecscproteinsfap61andfap251buildthebasalsubstructuresofradialspoke3incilia
AT songkangkang thecscproteinsfap61andfap251buildthebasalsubstructuresofradialspoke3incilia
AT joachimiakewa thecscproteinsfap61andfap251buildthebasalsubstructuresofradialspoke3incilia
AT krzemienojaklucja thecscproteinsfap61andfap251buildthebasalsubstructuresofradialspoke3incilia
AT koprowskipiotr thecscproteinsfap61andfap251buildthebasalsubstructuresofradialspoke3incilia
AT hennesseytodd thecscproteinsfap61andfap251buildthebasalsubstructuresofradialspoke3incilia
AT jerkadziadoszmaria thecscproteinsfap61andfap251buildthebasalsubstructuresofradialspoke3incilia
AT fabczakhanna thecscproteinsfap61andfap251buildthebasalsubstructuresofradialspoke3incilia
AT gaertigjacek thecscproteinsfap61andfap251buildthebasalsubstructuresofradialspoke3incilia
AT nicastrodaniela thecscproteinsfap61andfap251buildthebasalsubstructuresofradialspoke3incilia
AT wlogadorota thecscproteinsfap61andfap251buildthebasalsubstructuresofradialspoke3incilia
AT urbanskapaulina cscproteinsfap61andfap251buildthebasalsubstructuresofradialspoke3incilia
AT songkangkang cscproteinsfap61andfap251buildthebasalsubstructuresofradialspoke3incilia
AT joachimiakewa cscproteinsfap61andfap251buildthebasalsubstructuresofradialspoke3incilia
AT krzemienojaklucja cscproteinsfap61andfap251buildthebasalsubstructuresofradialspoke3incilia
AT koprowskipiotr cscproteinsfap61andfap251buildthebasalsubstructuresofradialspoke3incilia
AT hennesseytodd cscproteinsfap61andfap251buildthebasalsubstructuresofradialspoke3incilia
AT jerkadziadoszmaria cscproteinsfap61andfap251buildthebasalsubstructuresofradialspoke3incilia
AT fabczakhanna cscproteinsfap61andfap251buildthebasalsubstructuresofradialspoke3incilia
AT gaertigjacek cscproteinsfap61andfap251buildthebasalsubstructuresofradialspoke3incilia
AT nicastrodaniela cscproteinsfap61andfap251buildthebasalsubstructuresofradialspoke3incilia
AT wlogadorota cscproteinsfap61andfap251buildthebasalsubstructuresofradialspoke3incilia

Ejemplares similares