The phytochrome photoreceptor in the green alga Mesotaenium caldariorum: implication for a conserved mechanism of phytochrome action

Chloroplast movement in the unicellular green alga Mesotaenium caldariorum is one of the earliest documented photomorphogenetic responses in plants. Photobiological studies have established that this response is under the control of phytochrome, whose rigid association with the plasma membrane and/or cytoskeleton enables the algal cells to orientate the chloroplast in response to the direction and intensity of light from the environment. While many of the key components of the algal phytochrome signalling pathway have been elucidated (i.e. Ca 2+ , calmodulin, actin and myosin), the primary biochemical mechanism of algal phytochrome action is unknown. To begin to address this important question, phytochrome and its corresponding genes have been isolated and characterized in this alga. These studies reveal that Mesotaenium cells contain a single type of phytochrome which is encoded by a small family of highly related genes. On the basis of its biochemical properties, primary structure and ability to interfere with the photoregulatory activity of phytochrome in transgenic plant seedlings, it appears likely that the primary mechanism of phytochrome action has been conserved throughout its evolution.