Team:UCL/Background

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                <p class="major_title">BACKGROUND INFO</p>
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<p class="major_title">RELATED NEUROSCIENCE</p>
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<p class="minor_title">Alzheimer's Disease</p>
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Our project this year blends the fields of synthetic biology and neuroscience. We aim to demonstrate that genetic engineering techniques can be applied to the brain, creating synthetic biological systems capable of rectifying abnormalities in the brain on a cellular and macromolecular level.  <br></p>
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Such novel application of synthetic biology could offer new ways to treat brain diseases, such as our target, Alzheimer’s disease, for which most modern pharmaceutical treatment is purely symptomatic. </p>
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<p class="minor_title">Neuro-genetic engineering</p>
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Our project this year blends the fields of synthetic biology and neuroscience. We aim to demonstrate that genetic engineering techniques can be applied to the central nervous system, in order to rectify abnormalities in, for example, the brain on a cellular and/or macromolecular level. Such a novel application of synthetic biology could offer new ways to treat certain brain diseases, such as Alzheimer’s disease, for which modern pharmaceutical treatment is purely symptomatic.<br><br>
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Click the abstracts below to read more.
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<p class="citation_text">The box to the left provides an abstract for the page 'Neuropathology'. Clicking the abstract box will direct the user to a page titled Neuropathology where more detail is presented.
 
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Latest revision as of 17:33, 19 September 2013

RELATED NEUROSCIENCE

Neuro-genetic engineering

Our project this year blends the fields of synthetic biology and neuroscience. We aim to demonstrate that genetic engineering techniques can be applied to the central nervous system, in order to rectify abnormalities in, for example, the brain on a cellular and/or macromolecular level. Such a novel application of synthetic biology could offer new ways to treat certain brain diseases, such as Alzheimer’s disease, for which modern pharmaceutical treatment is purely symptomatic.

Click the abstracts below to read more.