BACKGROUND: The biological clock synchronizes the organism with the environment, responding to changes in light and temperature. Drosophila CRYPTOCHROME (CRY), a putative circadian photoreceptor, has previously been reported to interact with the clock protein TIMELESS (TIM) in a light-dependent manner. Although TIM dimerizes with PERIOD (PER), no association between CRY and PER has previously been revealed, and aspects of the light dependence of the TIM/CRY interaction are still unclear. RESULTS: Behavioral analysis of double mutants of per and cry suggested a genetic interaction between the two loci. To investigate whether this was reflected in a physical interaction, we employed a yeast-two-hybrid system that revealed a dimerization between PER and CRY. This was further supported by a coimmunoprecipitation assay in tissue culture cells. We also show that the light-dependent nuclear interactions of PER and TIM with CRY require the C terminus of CRY and may involve a trans-acting repressor. CONCLUSIONS: This study shows that, as in mammals, Drosophila CRY interacts with PER, and, as in plants, the C terminus of CRY is involved in mediating light responses. A model for the light dependence of CRY is discussed.
BACKGROUND: The biological clock synchronizes the organism with the environment, responding to changes in light and temperature. DrosophilaCRYPTOCHROME (CRY), a putative circadian photoreceptor, has previously been reported to interact with the clock protein TIMELESS (TIM) in a light-dependent manner. Although TIM dimerizes with PERIOD (PER), no association between CRY and PER has previously been revealed, and aspects of the light dependence of the TIM/CRY interaction are still unclear. RESULTS: Behavioral analysis of double mutants of per and cry suggested a genetic interaction between the two loci. To investigate whether this was reflected in a physical interaction, we employed a yeast-two-hybrid system that revealed a dimerization between PER and CRY. This was further supported by a coimmunoprecipitation assay in tissue culture cells. We also show that the light-dependent nuclear interactions of PER and TIM with CRY require the C terminus of CRY and may involve a trans-acting repressor. CONCLUSIONS: This study shows that, as in mammals, DrosophilaCRY interacts with PER, and, as in plants, the C terminus of CRY is involved in mediating light responses. A model for the light dependence of CRY is discussed.
Authors: Nuri Ozturk; Christopher P Selby; Yunus Annayev; Dongping Zhong; Aziz Sancar Journal: Proc Natl Acad Sci U S A Date: 2010-12-27 Impact factor: 11.205
Authors: Lisa S Baik; Keri J Fogle; Logan Roberts; Alexis M Galschiodt; Joshua A Chevez; Yocelyn Recinos; Vinh Nguy; Todd C Holmes Journal: Proc Natl Acad Sci U S A Date: 2017-01-06 Impact factor: 11.205
Authors: Gabriella Mazzotta; Alessandro Rossi; Emanuela Leonardi; Moyra Mason; Cristiano Bertolucci; Laura Caccin; Barbara Spolaore; Alberto J M Martin; Matthias Schlichting; Rudi Grebler; Charlotte Helfrich-Förster; Stefano Mammi; Rodolfo Costa; Silvio C E Tosatto Journal: Proc Natl Acad Sci U S A Date: 2013-03-27 Impact factor: 11.205
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