Abstract. The behavior of Chlamydomonas reinhardtii Dangeard is regulated by both light and chemical stimuli. Generation of a transmembrane photoreceptor current is the earliest so far resolved event in phototaxis of green flagellates. Tryptone rapidly inhibits the photoreceptor current in gametes of C. reinhardtii and induces their accumulation. The time-course, concentration dependence and induction during gametogenesis of these two processes coincide. On the other hand, tryptone causes a weak stimulation of the photoreceptor current in the absence of any behavioral responses in vegetative cells. This shows that the tryptone-induced inhibition of the photoreceptor current in C. reinhardtii is due to activation of a gamete-specific chemosensory system, and that integration of the photo- and chemosensory signals already occurs at the initial steps of the signaling pathways.