Team:Michigan/Project
From 2008.igem.org
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+ | The human body’s circadian rhythm or “clock” regulates the daily cycles of many physiological and metabolic processes such as the sleep wake cycle and feeding rhythms. The biological processes and temporal coordination are crucial to the health and survival of organisms. The processes occur with the capacity to oscillate with a wide variety of periods that are controlled by the interplay of numerous molecular factors that orchestrate complex feedback loops and processes that are fundamentally mediated by gene expression and the events that follow. | ||
+ | In humans, circadian rhythm arises from circadian complexity and involves the activity of several components, most importantly the negative elements period homologues PER1 PER2 and the CRY1 and CRY2 crytpochrome elements along with the positive acting proteins of CLOCKA and BMAL1. | ||
+ | The figure below depicts the molecular interactions in mammalian circadian feedback loops. The oscillator is composed of interlocking feedback loops that regulate the abundance and activity of transcription factors. These transcription factors control the expression of genes in the output pathways from the oscillator, resulting in behavioral and physiological rhythms. | ||
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+ | <div align=center>[[image: Publication1.png|500px]]</div> | ||
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+ | The CLOCK and BMAL1 form heterodimers and activate transcription of the Per and Cry genes that form the period. The critical mechanism in the pathway occurs when PER and CRY proteins bind as heterodimers and inhibit CLOCK and BMAL1 transcription via sequestration. | ||
== <font color=royalblue size=4>Our Project: The Sequestillator</font> == | == <font color=royalblue size=4>Our Project: The Sequestillator</font> == |
Revision as of 22:16, 29 October 2008
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Project DescriptionCircadian Clocks
The CLOCK and BMAL1 form heterodimers and activate transcription of the Per and Cry genes that form the period. The critical mechanism in the pathway occurs when PER and CRY proteins bind as heterodimers and inhibit CLOCK and BMAL1 transcription via sequestration. Our Project: The Sequestillator
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Sequestilator Modeling |
Sequestilator FabricationIf you like the way this looks, you could put a summary of what you built here and then we can have a separate page for fabrication, which might be a good idea. |
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Landing PadsA landing pad is tool that can be used by all synthetic biologists to insert synthetic operons onto the chromosome of E. coli. We will be using two landing pads for our project: the arabinose landing pad and leucine landing pad. Both of these landing pads will replace the respective metabolic operons with our desired subcloned genetic elements. The leucine landing pad was constructed by a former member of the Ninfa lab, Dong Eun Chang and the arabinose landing pad was a part of our iGEM 2007 project, and was worked on by Alyssa Delke and Khalid Miri. In using these landing pads, we wish to limit the noise in our system in order to (hopefully) obtain more sustained oscillations than previous synthetic clocks have given.
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