AJP - Regulatory, Integrative and Comparative Physiology, Vol 248, Issue 4 407-R414, Copyright © 1985 by American Physiological Society
Extraretinal photoreception in the lizard Sceloporus occidentalis: phase response curve
H. Underwood
All submammalian vertebrates have extraretinal photoreceptors (ERR) that
can mediate entrainment of circadian rhythms to 24-h light-dark (LD)
cycles. Phase response curves (PRC) for 6-h fluorescent light pulses were
generated for lizards (Sceloporus occidentalis) previously subjected to
sectioning of both optic nerves (ONX). The PRC for ONX lizards (only ERRs
present) shows a threefold increase in the amplitude of both the advance
and delay portions of the PRC compared with a PRC previously generated for
sighted S. occidentalis. Also, in contrast to sighted lizards the area of
the advance part of the PRC of ONX lizards is greater than the delay
portion. Consistent with the shape of the respective PRCs in ONX vs.
sighted lizards are the following facts. 1) The range of entrainment to LD
cycles is greater in ONX lizards; some sighted lizards free-ran when
exposed to LD 6:21.5 or LD 6:23.5 but entrained after ONX lizards
reentrained to an 8-h shift in the phase of a LD 6:18 cycle significantly
faster than sighted lizards. 3) Forty-two percent of ONX lizards showed a
shorter free-running period (tau) in LL than DD, whereas 90% of sighted
lizards showed a longer free-running period in LL than in DD. In those
lizards in which tau LL greater than tau DD, the the average tau change in
ONX lizards in was significantly less than that observed in sighted
lizards. These results are consistent with the hypothesis that the eyes
have an "inhibitory" role in the circadian system of S. occidentalis.
