6533b821fe1ef96bd127b62d
RESEARCH PRODUCT
false
subject
0303 health sciencesMultidisciplinarybiologyTimelessChemistryCircadian clockPhotoreceptor protein010402 general chemistrybiology.organism_classification01 natural sciences0104 chemical sciences03 medical and health sciencesTransduction (biophysics)CryptochromeBiophysicsSignal transductionDrosophila melanogasterPhotolyase030304 developmental biologydescription
Cryptochromes are blue-light photoreceptor proteins, which provide input to circadian clocks. The cryptochrome from Drosophila melanogaster (DmCry) modulates the degradation of Timeless and itself. It is unclear how light absorption by the chromophore and the subsequent redox reactions trigger these events. Here, we use nano- to millisecond time-resolved x-ray solution scattering to reveal the light-activated conformational changes in DmCry and the related (6-4) photolyase. DmCry undergoes a series of structural changes, culminating in the release of the carboxyl-terminal tail (CTT). The photolyase has a simpler structural response. We find that the CTT release in DmCry depends on pH. Mutation of a conserved histidine, important for the biochemical activity of DmCry, does not affect transduction of the structural signal to the CTT. Instead, molecular dynamics simulations suggest that it stabilizes the CTT in the resting-state conformation. Our structural photocycle unravels the first molecular events of signal transduction in an animal cryptochrome.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2019-07-05 | Science Advances |