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ABSTRACT
Almost all organisms live in a fluctuating environment. To achieve synchrony with the fluctuating environment, organisms have evolved with time-tracking mechanism commonly known as biological clocks. This circadian clock machinery has been identified in almost all cells of vertebrates and categorized as central and peripheral clocks. In birds, three independent circadian clocks reside within the nervous tissues in the hypothalamus, pineal and retina, which interact with each other and produce circadian time at a functional level. There is limited knowledge available of the molecular clockwork, and of integration between central and peripheral clocks in birds. Here, we studied daily expression of canonical clock genes (Bmal1, Clock, Per2, Per3, Cry1 and Cry2) and clock-controlled gene (Npas2) in all three central tissues (hypothalamus, pineal and retina) and in peripheral tissues (liver, intestine and muscle). Wild caught adult male tree sparrows were exposed to equinox photoperiod (12L:12D) for 2 weeks and after that birds were sacrificed (N = 5 per time point) at six time points (ZT1, ZT5, ZT9, ZT13, ZT17 and ZT21; ZT0 is lights on). Daily expression of clock genes was studied using qPCR. Bmal1, Clock, Per2, Per3, Cry1, Cry2 and Npas2 showed daily oscillation in all tissues except Cry2 in hypothalamus, pineal and intestine. We observed tissue-specific expression pattern for all clock and clock-controlled genes. Bmal1 transcripts expressed during early phase of night. Clock acrophase was observed during middle or late day time in the central clock while during early-to-middle phase of night in peripheral tissues. Npas2 expression pattern was similar to Bmal1. Per genes peaked either late at night or early during day time. However, Cry genes were peaked either at late day time (Cry1in retina, liver and intestine; Cry2 in liver and intestine) or at early night phase (Cry1 in hypothalamus, pineal and muscle; Cry2 in hypothalamus, pineal, retina and muscle). Our results are consistent with the autoregulatory circadian feedback loop, and suggest a conserved tissue-level circadian time generation in tree sparrows. Change in peak expression timing of these genes in different tissues implicates tissue-specific contribution of individual clock genes in the circadian time generation.
Supplementary Material
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