Abstract. This study was undertaken to prove that voltage-sensitive calcium channels controlling the photophobic stop response of the unicellular green alga Chlamydomonas reinhardtii are exclusively found in the flagellar region of the cell and to answer the question as to their exact localization within the flagellar membrane. The strategy used was to amputate flagella to a variable degree without perturbing the electrical properties of the cell and measure flagellar currents shortly after amputation and during the subsequent regeneration process. Under all conditions, a close correlation was found between current size and flagellar length, strongly suggesting that the channels that mediate increases in intraflagellar calcium concentration are confined to and distributed over the total flagellar length. Bald mutants yielded tiny flagellar currents, in agreement with the existence of residual flagellar stubs. In the presence of the protein synthesis inhibitor cycloheximide, flagellar length and flagellar currents also recovered in parallel. Recovery came to an earlier end, however, leveling off at a time when in the absence of cycloheximide only half maximal values were achieved. This suggests the existence of a pool of precursors, which permits the maintenance of a constant ratio between voltage-sensitive calcium channels and other intraflagellar proteins.
CHLAMYDOMONAS reinhardtii, a unicellular green freshwater alga, possesses a photosensory system and two flagella, which enable it to translate information about intensity and direction of the ambient light into defined orientational responses (Boscov and Feinleib, 1979). During normal forward swimming the two flagella move in a breast stroke-like fashion 50 times per second. An apparent asymmetry in the beating pattern leads to a rotation around the longitudinal axis with a frequency of 2 Hz. Thereby, one revolution takes between 20 and 25 strokes, i.e., 500 ms. This allows the alga to screen the ambient light and to correct for changes in its direction (Foster and Smyth, 1980;Riiffer and Nultsch, 1985, 1990. Depending on the brightness of the actinic light, three classes of behavioral responses can be distinguished: (a) in weak light, Chlamydomonas swims towards the light (positive phototaxis); (b) in stronger light, it swims away from it (negative phototaxis); and (c) in very strong light, particularly when there are sudden and pronounced changes in intensity, it stops transiently. In the course of this "stop response; Chlamydomonas changes from its normal forward swimming to a phase of slower backward swimming, caused by an undulation movement of the flagella. Afterwards it resumes forward swimming in a new direction. Stop responses start within 50 ms of the stimulus and last for about 300 ms (Uhl and Hegemann, 1990).The authors' present address is Botanisches Institut der Ludwig Maximilians Universitit, Menzinger Strasse 67, D-80638 Miinchen, Germany.There is good evidence that the different flageUar beating patterns are all governed by the internal calci...
