Bending patterns of Chlamydomonas flagella: II. Calcium effects on reactivated Chlamydomonas flagella

Abstract

Ca²⁺ has profound effects on the movement of cilia and eukaryotic flagella, including those of Chlamydomonas. Two clear changes seen in Chlamydomonas flagella with changes in Ca²⁺ are beat frequency and symmetry. Photographic and computer assisted analysis of flagellar bending patterns on a uniflagellate mutant of Chlamydomonas have been used to examine details of the effects of Ca²⁺ on the movement of ATP‐reactivated, demembranated flagella. In addition to the forward mode bending pattern seen at low Ca²⁺ concentrations (10⁻⁹ M), which has a frequency of about 50 Hz and the reverse mode bending pattern seen at high Ca²⁺ concentrations (10⁻⁴ M) with a frequency around 70 Hz, we carefully examined bending patterns in the intermediate Ca²⁺ concentration range of 1–6.5 × 10⁻⁶ M. In this intermediate range, the bending patterns have significantly reduced asymmetry and slightly increased frequency, compared to the motility observed at low Ca²⁺ concentrations. These observations indicate that changes in these two parameters of motion do not occur in parallel and suggest that the effects of Ca²⁺ may be a multicomponent process. Physiologically, these changes in the beat pattern at intermediate Ca²⁺ may signal either (1) the beginning stages of transition to the symmetrical, high‐frequency beating seen at high Ca²⁺, or (2) a more normal forward mode motility for the trans flagellum as suggested by Kamiya and Witman [1984]. No large amplitude bending patterns associated with transitions between forward and reverse mode beating in intact cells were seen at the intermediate Ca²⁺ concentrations.