STUDIES ON CILIA: III. Further Studies on the Cilium Tip and a "Sliding Filament" Model of Ciliary Motility

doi:10.1083/jcb.39.1.77

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ARTICLE

STUDIES ON CILIA

: III. Further Studies on the Cilium Tip and a "Sliding Filament" Model of Ciliary Motility

Peter Satir ¹

¹ From the Department of Physiology-Anatomy, University of California, Berkeley, California 94720

This study confirms and extends previous work on the lateralcilia of the fresh-water mussel, Elliptio complanatus, in supportof a "sliding filament" mechanism of ciliary motility whereinperipheral filaments (microtubules) do not change length duringbeat (see Satir, 1967). Short sequences of serial sections oftips are examined in control (nonbeating) and activated (metachronalwave) preparations. Several different tip types, functionalrather than morphogenetic variants, are demonstrated, but similarlybent cilia have similar tips. The peripheral filaments are composedof two subfibers: a and b. The bent regions of cilia are inthe form of circular arcs, and apparent differences in subfiber-blength at the tip are those predicted solely by geometry ofthe stroke without the necessity of assuming filament contraction.Various subfibers b apparently move with respect to one anotherduring beat, since small systematic variations in relative positioncan be detected from cilium to cilium. While subfiber-b lengthsare uniform throughout, subfiber-a lengths are morphologicallydifferent for each filament: 8 and 3 are about 0.8 µ longerthan 1, 4 and 5, but each unique length is independent of strokeposition or tip type. Subfiber-a does not contract, nor doesit move, e.g. slide, with respect to subfiber-b of the samedoublet. The central pair of filaments extends to the tip ofthe cilium where its members fuse. Subunit assembly in ciliarymicrotubules is evidently precise. This may be of importancein establishing the relationships needed for mechanochemicalinteractions that produce sliding and beat.

Submitted on March 29, 1968
Revised on June 11, 1968

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