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Image: Bioluminescent organisms ranging from plants (<I>Arabidopsis thaliana</I>) to flies (<I>Drosophila</I>) are powerful tools for studying circadian rhythms. A circadian rhythm is the daily rhythmic activity cycle, based on 24-hour intervals, that is exhibited by many organisms.  <I>[See related image: Bioluminescent Fruit Fly (Drosophila).]</I><BR>
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<font color=#DC143C><B><U>Important:</U> Use of this image is restricted. Please see “Restrictions” (below) for complete information.</font></B><BR>
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<U><B>More about this Image</B></U><BR>
Dr. Steve A. Kay, an NSF-supported researcher from the Scripps Research Institute, is studying the circadian biology of a wide range of organisms -- from humans to fruit flies to plants.<BR>
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Bioluminescence from a firefly is created by an enzymatic reaction that takes place in its abdomen. The enzyme responsible for this light-producing reaction is called luciferase. Luciferase uses oxygen, ATP, and luciferin to generate light. The firefly's DNA contains the genetic information (gene) for the enzyme luciferase. The luciferase gene is the blueprint that an organism uses to make the luciferase protein. The DNA encoding the luciferase gene can be introduced into the genetic makeup of the other organisms. For example, Dr. Kay has introduced the gene into fruit flies, plants, and bacteria. Once these genetically altered organisms contain the gene for luciferase, they can glow in the dark.<BR>
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Organisms regulate their behavior and metabolism in a circadian (or 24 hour) cycle. Examples of this are a human's sleep/wake cycle or a flower's open/close cycle. The cycles are controlled by an internal circadian clock that resides within our cells. Dr. Kay’s laboratory utilizes luciferase bioluminescence technology to observe what happens inside these clocks. Scientists introduce the Luciferase gene into fruit flies and plants under the direct control of the circadian clock and then, using ultra sensitive cameras, the team follows the circadian pattern of bioluminescence over time.<BR>
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All clocks must be set to the correct time. Plants use light/dark cycles to set their circadian clocks. By using luciferase bioluminescence to monitor the circadian rhythm in plants, Scripps researchers have been able to identify which photoreceptor molecules (phytochrome and cryptochrome) are involved in setting the clock. Using information about the photoreceptors responsible for setting the clock in plants we have found a similar photoreceptor that is involved in the clock in fruit flies and mammals.<BR>
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Understanding how light resets the clock is a key piece of information for developing strategies to overcome jetlag and problems associated with shift work. Understanding the relationship between light and the clock in plants will allow us to manipulate developmental events such as flowering time so that we can grow crops all year round.<BR>
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This work was supported by National Science Foundation grant MCB 96-96255. The support from this grant allowed Dr. Kay to develop a sophisticated assay for defining which photoreceptors are important to signaling the circadian clock in Arabidopsis.  Thumbnail

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