%0 Journal Article
%T Focus: Clocks and Cycles: A Rhythmic Gene Entrained to Midnight May Regulate Photoperiod-Controlled Flowering in Arabidopsis
%A Hoong-Yeet Yeang
%J Archive of "The Yale Journal of Biology and Medicine".
%D 2019
%X The widely held explanation for photoperiod-controlled flowering in long-day plants is largely embodied in the External Coincidence Hypothesis which posits that flowering is induced when activity of a rhythmic gene that regulates it (a putative ˇ°flowering geneˇ±) occurs in the presence of light. Nevertheless, re-examination of the Arabidopsis flowering data from non 24-hour cycles of Roden et al. suggests that External Coincidence is not tenable if the circadian rhythm of the ˇ°flowering geneˇ± were entrained to sunrise as commonly accepted. On the other hand, the hypothesis is supported if circadian cycling of the gene conforms to a solar rhythm, and its entrainment is to midnight on the solar clock. Data available point to flowering being induced by the gene which peaks in its expression between 16 to 19 h after midnight. In the normal 24 h cycle, that would be between 4 p.m. and 7 p.m., regardless of the photoperiod. Such timing of the ˇ°flowering geneˇ± expression allows for variable coincidence between gene activity and light, depending on the photoperiod and cycle period. A correlation is found between earliness of flowering and the degree of coincidence of ˇ°flowering geneˇ± expression with light (r = 0.88, p<0.01)
%K Arabidopsis
%K circadian rhythm
%K External Coincidence Hypothesis
%K midnight
%K N-H cycle
%K photoperiod
%K seasonal flowering
%K solar clock
%K solar rhythm
%K T cycle
%U https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6585515/