Browsing by keyword "Phototransduction"
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Chlamydomonas phototaxisChlamydomonas has long been a favourite organism for genetic and biochemical studies of flagellar motility and assembly, photosynthesis, and organelle genomes. With the recent development of procedures for the efficient transformation of its nuclear genome, Chlamydomonas has become accessible to a wide range of molecular genetic approaches, including gene tagging by insertional mutagenesis and cloning by complementation. The availability of these powerful techniques is stimulating interest in Chlamydomonas as a model system for research in areas where it previously has not been widely exploited. One such area that holds particular promise is phototransduction and the behavioural response to light.
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Roles of the two Drosophila CRYPTOCHROME structural domains in circadian photoreceptionCRYPTOCHROME (CRY) is the primary circadian photoreceptor in Drosophila. We show that CRY binding to TIMELESS (TIM) is light-dependent in flies and irreversibly commits TIM to proteasomal degradation. In contrast, CRY degradation is dependent on continuous light exposure, indicating that the CRY-TIM interaction is transient. A novel cry mutation (cry(m)) reveals that CRY's photolyase homology domain is sufficient for light detection and phototransduction, whereas the carboxyl-terminal domain regulates CRY stability, CRY-TIM interaction, and circadian photosensitivity. This contrasts with the function of Arabidopsis CRY domains and demonstrates that insect and plant cryptochromes use different mechanisms.