TY - JOUR
T1 - Moonlight detection by drosophila's endogenous clock depends on multiple photopigments in the compound eyes
AU - Schlichting, Matthias
AU - Grebler, Rudi
AU - Peschel, Nicolai
AU - Yoshii, Taishi
AU - Helfrich-Förster, Charlotte
N1 - Funding Information:
The authors thank Nina Vogt, Claude Desplan, Francois Rouyer, Ralf Stanewsky, Erich Buchner, Rodolfo Costa, and Christopher Schnaitmann for providing fly lines, Christiane Hermann and Pingkalai Senthilan for critical comments on the paper, and the German Research Foundation (DFG; Fo207/10-3 and SFB1047, INST 93/784-1) as well as the European Community (6th Framework Project EUCLOCK no. 018741) for funding. They also thank Craig Montell, Steve Britt, and Claude Desplan for providing antibodies as well as the Graduate School for Life Sciences Würzburg and the Hanns-Seidel-Foundation for supporting Rudi Grebler and Matthias Schlichting, respectively.
PY - 2014/4
Y1 - 2014/4
N2 - Many organisms change their activity on moonlit nights. Even the fruit fly Drosophila melanogaster responds to moonlight with a shift of activity into the night, at least under laboratory conditions. The compound eyes have been shown to be essential for the perception of moonlight, but it is unknown which of the 5 rhodopsins in the eyes are responsible for the observed moonlight effects. Here, we show that the outer (R1-R6) and inner (R7 and R8) photoreceptor cells in a fly's ommatidium interact in a complex manner to provoke the moonlight effects on locomotor activity. The shift of the evening activity peak into the night depends on several rhodopsins in the inner and outer photoreceptor cells. The increase in relative nocturnal activity in response to moonlight is mainly mediated by the rhodopsin 6-expressing inner photoreceptor cell R8 together with the rhodopsin 1-expressing outer receptor cells (R1-R6), whereas just rhodopsin 1 of R1 to R6 seems necessary for increasing nocturnal activity in response to increasing daylight intensity.
AB - Many organisms change their activity on moonlit nights. Even the fruit fly Drosophila melanogaster responds to moonlight with a shift of activity into the night, at least under laboratory conditions. The compound eyes have been shown to be essential for the perception of moonlight, but it is unknown which of the 5 rhodopsins in the eyes are responsible for the observed moonlight effects. Here, we show that the outer (R1-R6) and inner (R7 and R8) photoreceptor cells in a fly's ommatidium interact in a complex manner to provoke the moonlight effects on locomotor activity. The shift of the evening activity peak into the night depends on several rhodopsins in the inner and outer photoreceptor cells. The increase in relative nocturnal activity in response to moonlight is mainly mediated by the rhodopsin 6-expressing inner photoreceptor cell R8 together with the rhodopsin 1-expressing outer receptor cells (R1-R6), whereas just rhodopsin 1 of R1 to R6 seems necessary for increasing nocturnal activity in response to increasing daylight intensity.
KW - circadian clock
KW - entrainment
KW - masking
KW - rhodopsins
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U2 - 10.1177/0748730413520428
DO - 10.1177/0748730413520428
M3 - Article
C2 - 24682202
AN - SCOPUS:84899016733
SN - 0748-7304
VL - 29
SP - 75
EP - 86
JO - Journal of Biological Rhythms
JF - Journal of Biological Rhythms
IS - 2
ER -