Team:UCL/Project/Degradation

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OXIDATIVE STRESS PROMOTER

For Plaque Specific Expression

In order to direct microglia activity to senile plaques , we needed to find a way to detect these plaques. Several possible routes were explored; initial focus was on a plaque binding protein, such as the B10 antibody (Haupt et al. 2011). However, there was no easy way for plaque binding to transduce changes in gene expression. Therefore, alternatives were explored, where plaque proximity could be indirectly detected via a proxy. One such proxy is oxidative stress - free radical production (Colton et al., 2000) which is generated by plaques. Microglia are naturally attracted to plaques, and upon reaching plaques, a standard immune response follows, which also includes free radical production. Therefore, we have designed a promoter which will initiate transcription in response to the oxidative stress generated by native microglia and plaques already present in the brain.

This promoter is an improvement of a yeast minimal promoter cyc1001 already in the registry. Although from yeast, parts of this promoter show homology to the consensus sequences of mammalian core promoter elements, notably the TATA box and initiator element (Sandelin et al. 2007). NF-κB is a transcription factor which translocates to the nucleus under oxidative stress (Shi et al., 2003), and binds to the sequence GGGAATTT (Park et al., 2009). Thus, by placing this site upstream of the yeast minimal promoter, we created a novel mammalian promoter which initiates transcription in response to oxidative stress.

To construct this, we firstly created a BioBrick which consists of 5 copies of the NF-κB binding site (5NFKB [link to parts page]). This was done using linkers - short overlapping primers were ordered, and allowed to anneal, and then ligated together.

EXPERIMENTS AND RESULTS

Experiments

Results.

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-<p class="major_title">MAJOR TITLE</p>
+<p class="major_title">OXIDATIVE STRESS PROMOTER</p>
-<p class="minor_title">Minor Title</p>
+<p class="minor_title">For Plaque Specific Expression</p>
 <p class="body_text">
-Lorem ipsum dolor sit amet, consectetur adipiscing elit. Vivamus vel fringilla diam. Integer placerat sapien sed risus mollis, eget hendrerit lorem tincidunt. Cras a sem eros. Ut nec ligula eget tortor ornare tempus sit amet quis risus. Quisque condimentum, ipsum ac rhoncus ornare, tellus augue imperdiet libero, in venenatis justo arcu quis tellus. Vivamus magna libero, tempus ac augue at, placerat vulputate nunc. Praesent fringilla id erat ut sagittis. Sed nec semper risus, nec condimentum leo. Vestibulum pharetra pellentesque augue, non ultrices leo varius et. Vestibulum id egestas orci. Vestibulum metus ipsum, iaculis nec sapien in, fringilla cursus orci. Class aptent taciti sociosqu ad litora torquent per conubia nostra, per inceptos himenaeos. Curabitur eget vulputate ligula. Sed venenatis nulla et porta pharetra. Suspendisse pharetra suscipit justo sagittis consequat. Morbi eu iaculis diam, ac rhoncus urna. Pellentesque eros ligula, mollis vitae metus sit amet, interdum gravida nunc. Duis tempor quam id rhoncus sodales. Nunc commodo accumsan orci ut faucibus. Quisque vitae luctus libero. Nullam risus libero, convallis et viverra sit amet, convallis a neque. Integer adipiscing ac arcu sit amet luctus. In dignissim mauris non justo tempor, in rhoncus augue volutpat. Duis euismod sodales blandit. Vivamus volutpat molestie dignissim. Quisque cursus quam cursus dui faucibus convallis. Praesent dignissim, sem ut posuere accumsan, libero diam consequat libero, vel tempor dui mi sed massa. Aenean eros arcu, sollicitudin a euismod eu, placerat vel nunc. Nunc consequat blandit fermentum. Curabitur ante erat, lobortis ac faucibus a, sollicitudin egestas nisi. Morbi ut dolor scelerisque, fermentum est vitae, commodo tortor. Vestibulum ornare semper lorem vel volutpat. In erat ligula, auctor eu pellentesque vitae, sollicitudin id sapien. Duis pharetra sagittis purus hendrerit pharetra. Lorem ipsum dolor sit amet, consectetur adipiscing elit. Vivamus elementum iaculis neque nec fringilla. Nunc a scelerisque nulla, et varius massa. In eu pretium eros. Quisque nec lacus elit. Mauris malesuada luctus dapibus. Vivamus eget ultricies sem. Quisque nulla tellus, euismod vel vehicula adipiscing, ornare sit amet dui. Sed eget mauris aliquam, feugiat diam vel, lacinia nunc. Ut vel est facilisis, dictum sem sit amet, lobortis arcu. In hac habitasse platea dictumst. Fusce ut accumsan sapien. Sed pharetra ullamcorper dolor vitae rutrum. Aliquam luctus mattis felis vitae semper. Vivamus id sodales purus. Cras quis quam non tortor tincidunt laoreet varius suscipit lectus. Curabitur faucibus et libero quis vulputate. Nunc sed gravida libero. Phasellus eleifend, metus mattis molestie luctus, augue libero lacinia massa, ac volutpat tortor tortor quis sapien. Donec ultrices felis ut arcu rutrum sollicitudin. Praesent nec ligula at risus hendrerit aliquam. Etiam vestibulum aliquam ultricies. Ut semper libero volutpat, rutrum enim et, eleifend nibh. Nulla ornare, elit sed laoreet condimentum, quam nunc auctor sem, eu commodo elit ante id magna.
+In order to direct microglia activity to <a href="https://2013.igem.org/Team:UCL/Background/Neuropathology" target="_blank"> senile plaques </a>, we needed to find a way to detect these plaques. Several possible routes were explored; initial focus was on a plaque binding protein, such as the B10 antibody <a href="http://www.ncbi.nlm.nih.gov/pubmed/21059358" target="_blank">(Haupt et al. 2011)</a>. However, there was no easy way for plaque binding to transduce changes in gene expression. Therefore, alternatives were explored, where plaque proximity could be indirectly detected via a proxy. One such proxy is oxidative stress - free radical production <a href="http://www.ncbi.nlm.nih.gov/pubmed/10863548" target="_blank">(Colton et al., 2000)</a> which is generated by plaques. Microglia are naturally attracted to plaques, and upon reaching plaques, a standard immune response follows, which also includes free radical production. Therefore, we have designed a promoter which will initiate transcription in response to the oxidative stress generated by native microglia and plaques already present in the brain.
 </p>
+<p class="body_text">
+This promoter is an improvement of a yeast minimal promoter <a href="http://parts.igem.org/Part:BBa_K105027" target="_blank">cyc1001</a> already in the registry. Although from yeast, parts of this promoter show homology to the consensus sequences of mammalian core promoter elements, notably the TATA box and initiator element <a href="http://www.ncbi.nlm.nih.gov/pubmed/17486122" target="_blank">(Sandelin et al. 2007)</a>. NF-κB is a transcription factor which translocates to the nucleus under oxidative stress <a href="http://www.ncbi.nlm.nih.gov/pubmed/12730877" target="_blank">(Shi et al., 2003)</a>, and binds to the sequence GGGAATTT <a href="http://www.ncbi.nlm.nih.gov/pubmed/19435890" target="_blank">(Park et al., 2009)</a>. Thus, by placing this site upstream of the yeast minimal promoter, we created a novel mammalian promoter which initiates transcription in response to oxidative stress.
+</p>
+<p class="body_text">
+To construct this, we firstly created a BioBrick which consists of 5 copies of the NF-κB binding site (5NFKB [link to parts page]). This was done using linkers - short overlapping primers were ordered, and allowed to anneal, and then ligated together.
+</p>
+</div>
 <div class="gap"></div>
+<p class="major_title">EXPERIMENTS AND RESULTS</p>
+<div class="gap"></div>
+<div class="row_small">
+<div class="part"></div>
+<div class="description">
+<p class="body_text">
+Experiments
+</p>
+</div>
+</div>
+<div class="gap"></div>
+<div class="row_small">
+<div class="part"></div>
+<div class="description">
+<p class="body_text">
+Results.
+<div class="gap"></div>
+<div class="row_small">
+<div class="part"></div>
+<div class="description">
+<p class="body_text">
+Results.
+</div>
+</div>
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