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One oscillator or two? Understanding the oscillation that drives circadian rythmicity.

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Presentation on theme: "One oscillator or two? Understanding the oscillation that drives circadian rythmicity."— Presentation transcript:

1 One oscillator or two? Understanding the oscillation that drives circadian rythmicity

2 Motivation

3 Rhythmic Dissociation in Gonyaulax Period of time in dim red conditions, with a 3 minute pulse of light every 30 minutes Two of the rhythms split: aggregation maintained a rhythm with τ = 21 hours and bioluminescence maintained a rhythm with τ = 24.6 hours (Roenneberg and Morse, 1993) Glow/flashing

4 Hypothesis There are (at least) two cellular oscillators driving circadian rhythmicity. Roenneberg: A, B Morse, Markovic, Roenneberg

5 Proposed experiment Dissociation conditions Follow mRNA and protein levels Gonyaulax polyedra

6 mRNA Luciferase and luciferase binding protein Okamoto, Hastings: 3% of unique genes exhibit circadian oscillations in transcript abundance (Procystis lunula Schütt) Rossini, Taylor, Fagan, Hastings: Lingulodinium polyedra –Thiolutin to block polymerase II –Half-life measured in hours In Gonyaulax: cDNA array to follow rythmicity

7 Protein Synthesis levels –35 S methionine incorporation in vivo (Markovic, Roenneberg, Morse) –Varied, without global change in protein levels Expression levels –2D gel analysis (Milos, et al)

8 Data analysis Do the mRNA levels, the protein expression, and cellular protein level rhythms follow aggregation, bioluminescence, or both? Both: proof of multiple oscillators One: proof of a single oscillator

9 Acknowledgments Dr. J. Woodland Hastings Dr. Charles Czeisler Dr. Joshua Gooley Members of MCB186

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