Two alleles at a new locus, central pair–associated complex 1 (CPC1), were selected in a screen for Chlamydomonas flagellar motility mutations. These mutations disrupt structures associated with central pair microtubules and reduce flagellar beat frequency, but do not prevent changes in flagellar activity associated with either photophobic responses or phototactic accumulation of live cells. Comparison of cpc1 and pf6 axonemes shows that cpc1 affects a row of projections along C1 microtubules distinct from those missing in pf6, and a row of thin fibers that form an arc between the two central pair microtubules. Electron microscopic images of the central pair in axonemes from radial spoke–defective strains reveal previously undescribed central pair structures, including projections extending laterally toward radial spoke heads, and a diagonal link between the C2 microtubule and the cpc1 projection. By SDS-PAGE, cpc1 axonemes show reductions of 350-, 265-, and 79-kD proteins. When extracted from wild-type axonemes, these three proteins cosediment on sucrose gradients with three other central pair proteins (135, 125, and 56 kD) in a 16S complex. Characterization of cpc1 provides new insights into the structure and biochemistry of the central pair apparatus, and into its function as a regulator of dynein-based motility.
Characterization of a Chlamydomonas Insertional Mutant that Disrupts Flagellar Central Pair Microtubule-associated Structures
Address correspondence to David R. Mitchell, Department of Anatomy, SUNY Health Science Center, 750 E. Adams Street, Syracuse, NY 13210. Tel.: (315) 464-8575. Fax: (315) 464-8535. E-mail: [email protected]
D. Mitchell would like to express his appreciation to all members of the Sale lab, where most of this work was done, and acknowledge contributions from Kim Brown (plasmid rescue and Southern blotting). We would also like to thank M. Bernstein for provided anti-Klp1 antibodies, and Eileen O'Toole for the image averaging.
David R. Mitchell, Winfield S. Sale; Characterization of a Chlamydomonas Insertional Mutant that Disrupts Flagellar Central Pair Microtubule-associated Structures . J Cell Biol 25 January 1999; 144 (2): 293–304. doi: https://doi.org/10.1083/jcb.144.2.293
Download citation file:
Sign in
Client Account
Sign in via your Institution
Sign in via your InstitutionSuggested Content
Email alerts
Advertisement
Advertisement