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Circadian rhythms and photperiodism. Eva Farre. Objectives for today: Students will be able to: Distinguish between circadian vs. diurnal rhythms Interpret the role of the circadian clock in photoperiodism Understand the current molecular model for daylength sensing.
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Circadian rhythms and photperiodism Eva Farre
Objectives for today: • Students will be able to: • Distinguish between circadian vs. diurnal rhythms • Interpret the role of the circadian clock in photoperiodism • Understand the current molecular model for daylength sensing
Examples to discuss today: *Flowering time *Growth cessation and bud set
Case 1: Flowering time regulation in Arabidopsis Long days Short days
FT and CO are necessary for flowering under long day conditions Long Days Short Days wild type early late co late late ft late late co ft late late co-ox early early co-ox ft late late co ft-ox early early FT and CO are necessary for flowering in LD and function in the same pathway FT acts downstream of CO MODEL + long days CO Flowering FT OX= overexpressor co = constants mutant ft = flowering locus T mutant
Hour glass model External coincidence model (Bunning's 1936) Internal coincidence model (Pittendrigh 1960) Yanovsky & Kay 2003
Previous knowledge: CO activates FT under long days FT induces flowering Light is necessary for FT induction Circadian clock mutants display flowering phenotypes
Questions: 1. When does the peak of CO RNA expression occur in wild type Arabidopsis plants? 2. Does the CO expression peak at the same under long day and under short day conditions in the wild type? 3. Does the expression of FT change between short day and long day conditions in the wild type?
Figures 1 and 2: CO effect on FT under 24 h days CO FT toc1-1 Wild-type
Questions: 4. What is the circadian period of the toc1-1 mutant under constant light conditions? 5. What is the flowering phenotype of the toc1-1 mutant grown under short day conditions (8 h light and 24 h total day length)? 6. What is the flowering phenotype of the toc1-1 mutant grown under days of only 21h total length? 7. How does the toc1-1 mutation influence the expression of CO?
Figure 1 toc1-1 Wild-type
Figure 2 toc1-1 Wild-type
Questions: 8. What happens to FT expression in plants overexpressing CO, i.e. with constitutive high levels of CO expression? 9. What does CO need to induce the expression of FT?
Questions: 10. Does the data presented in this paper support the “external coincidence model” or the “internal coincidence model” of flowering time?
The external coincidence model Imaizumi and Kay, 2006
Could this model explain the day length dependent growth arrest phenotypes of trees?
Low FT levels correlate with faster growth arrest and bud formation mutant lines with decreased FT levels
Different aspen clones display differences in the timing of growth arrest 19 light: 5 h night arrest arrest growth growth
Different aspen clones display differences in the timing of growth arrest North South earlier (longer days) later (shorter days)
Questions: a. Based on what you have learned from the work of Yanovsky & Kay, establish a hypothesis that could explain the observations of Bohlenius et al. b. Why would this be of evolutionary advantage to the trees?
19 light: 5 h night NORTH arrest arrest growth SOUTH growth
The circadian clock regulates the phase/timing of gene expression
Entrainment experiment Q3. Predict the growth pattern of the seedling in frame 3. What is the rationale for your prediction? Individuals write on carbonless paper.
CAB2:LUC Thain et al., Curr Biol 2000 Entrainability of circadian clocks http://millar.bio.ed.ac.uk/video.html