Difference between revisions of "Team:Missouri Rolla"

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<img id="cave" src = "https://static.igem.org/mediawiki/2015/d/d1/Mstigem_cave_background.jpg" alt="Missouri cave photographed by Lynn Dieter" />
 
<img id="cave" src = "https://static.igem.org/mediawiki/2015/d/d1/Mstigem_cave_background.jpg" alt="Missouri cave photographed by Lynn Dieter" />
 
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<a onmousemove="mouse(event)" href="https://2015.igem.org/Team:Missouri_Rolla/Project">Project</a><a onmousemove="mouse(event)" href="https://2015.igem.org/Team:Missouri_Rolla/Practices">Human Practices</a><br class="menu2" /><a onmousemove="mouse(event)" href="https://2015.igem.org/Team:Missouri_Rolla/Parts">Parts</a><br class="menu1" /><a onmousemove="mouse(event)" href="https://2015.igem.org/Team:Missouri_Rolla/Notebook">Notebook</a><a onmousemove="mouse(event)" href="https://2015.igem.org/Team:Missouri_Rolla/Team">Team</a><br class="menu2" /><a onmousemove="mouse(event)" href="https://2015.igem.org/Team:Missouri_Rolla/Safety">Safety</a><a onmousemove="mouse(event)" href="https://2015.igem.org/Team:Missouri_Rolla/Attributions">Attributions</a>
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<a onmousemove="mouse(event)" href="https://2015.igem.org/Team:Missouri_Rolla">Project</a><a onmousemove="mouse(event)" href="https://2015.igem.org/Team:Missouri_Rolla/Practices">Human Practices</a><br class="menu2" /><a onmousemove="mouse(event)" href="https://2015.igem.org/Team:Missouri_Rolla/Parts">Parts</a><br class="menu1" /><a onmousemove="mouse(event)" href="https://2015.igem.org/Team:Missouri_Rolla/Notebook">Notebook</a><a onmousemove="mouse(event)" href="https://2015.igem.org/Team:Missouri_Rolla/Team">Team</a><br class="menu2" /><a onmousemove="mouse(event)" href="https://2015.igem.org/Team:Missouri_Rolla/Safety">Safety</a><a onmousemove="mouse(event)" href="https://2015.igem.org/Team:Missouri_Rolla/Attributions">Attributions</a>
 
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<h1 onmousemove="mouse(event)">DEFENDING NORTH AMERICAN BATS FROM THE EMERGING WHITE-NOSE EPIDEMIC</h1>
 
<h1 onmousemove="mouse(event)">DEFENDING NORTH AMERICAN BATS FROM THE EMERGING WHITE-NOSE EPIDEMIC</h1>
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<p onmousemove="mouse(event)">Since 2007, a fungal disease introduced from Europe has been quickly spreading among bat populations in North America. White-Nose Syndrome (WNS), caused by <i>Pseudogymnoascus destructans</i>, is responsible for mortality rates in excess of 90% in some caves. Included among the wide range of species affected by WNS are several already-endangered species. With current trends, entire bat species could become extinct within decades.</p>
 
<p onmousemove="mouse(event)">Since 2007, a fungal disease introduced from Europe has been quickly spreading among bat populations in North America. White-Nose Syndrome (WNS), caused by <i>Pseudogymnoascus destructans</i>, is responsible for mortality rates in excess of 90% in some caves. Included among the wide range of species affected by WNS are several already-endangered species. With current trends, entire bat species could become extinct within decades.</p>
 
<p onmousemove="mouse(event)"><i>P. destructans</i> digests the bat’s skin and awakes bats during their crucial hibernation as their body temperature drops. Ultimately, most infected bats die from starvation or inflammatory shock, and estimates suggest more than 6 million bats have already perished.</p>
 
<p onmousemove="mouse(event)"><i>P. destructans</i> digests the bat’s skin and awakes bats during their crucial hibernation as their body temperature drops. Ultimately, most infected bats die from starvation or inflammatory shock, and estimates suggest more than 6 million bats have already perished.</p>
<p onmousemove="mouse(event)">Traditional approaches to fungal infections, specifically fungicides, indiscriminately kill beneficial and harmful fungi, while providing strong evolutionary pressure for resistance. We are instead exploring a volatile organic compound, ocimene, which has been shown to slow <i>P. destructans</i>. We are also investigating ways to sense the causative agent to impact the cave environment as little as possible, and compounds that may inhibit metabolism of the bats’ skin. Our hope is that by slowing growth of the fungus, we can defend bats from the disease and give them a chance to recover after hibernation.</p>
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<p onmousemove="mouse(event)">Traditional approaches to fungal infections, specifically fungicides, indiscriminately kill beneficial and harmful fungi, while providing strong evolutionary pressure for resistance. We are instead exploring a volatile organic compound, ocimene, which has been shown to slow fungal growth. We are also investigating ways to sense <i>P. destructans</i> to impact the cave environment as little as possible, and compounds that may inhibit metabolism of the bats’ skin. Our hope is that by slowing growth of the fungus, we can defend bats from the disease and give them a chance to recover after hibernation.</p>
<a href="https://static.igem.org/mediawiki/2015/7/7f/Mstigem_wns_spread_map.jpg"><img class="inlinephoto-left" src="https://static.igem.org/mediawiki/2015/d/dd/Mstigem_wns_spread_map_small.jpg" alt="White-Nose Syndrome spread map. Map credit Lindsey Heffernan" /></a><img class="inlinephoto" src="https://static.igem.org/mediawiki/2015/d/dd/Mstigem_little_brown_bat.jpg" alt="Little Brown Bat with White-Nose Syndrome. Photo credit Jonathan Mays" />
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<a href="https://static.igem.org/mediawiki/2015/7/7f/Mstigem_wns_spread_map.jpg"><img class="inlinephoto" src="https://static.igem.org/mediawiki/2015/d/dd/Mstigem_wns_spread_map_small.jpg" alt="White-Nose Syndrome spread map. Map credit Lindsey Heffernan" /></a>
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<p onmousemove="mouse(event)">We designed and attempted to assemble two plasmids encoding the mevalonate pathway, along with the enzyme responsible for (E)-beta-ocimene production. Our plan included characterizing the parts by testing <i>in-vivo</i> production of mevalonate and ocimene in <i>E. coli</i>. We could then proceed to <i>in-vitro</i> testing by GST-tagging ocimene synthase, purifying, and preparing an assay with geranylpyrophosphate and testing ocimene production at various conditions. Both halves of the pathway would be tested independently to find the rate-limiting pathway, to provide direction for future groups wanting to modify the pathway.<br /><br /><br /><br /></p>
 
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Latest revision as of 03:23, 19 September 2015

Missouri cave photographed by Lynn Dieter

DEFENDING NORTH AMERICAN BATS FROM THE EMERGING WHITE-NOSE EPIDEMIC

Bats, despite their bad reputation, are vital to the ecosystem and economy of North America. Bats consume enormous numbers of pests, saving agriculture millions of dollars and reducing pesticide use, while serving as the sole pollinators for many plants. Meanwhile, their waste is the main food source for entire cave ecosystems supporting diverse and unique organisms.

Northern Long-Eared bat about to be released. Photo credit Scott Bergeson

Since 2007, a fungal disease introduced from Europe has been quickly spreading among bat populations in North America. White-Nose Syndrome (WNS), caused by Pseudogymnoascus destructans, is responsible for mortality rates in excess of 90% in some caves. Included among the wide range of species affected by WNS are several already-endangered species. With current trends, entire bat species could become extinct within decades.

P. destructans digests the bat’s skin and awakes bats during their crucial hibernation as their body temperature drops. Ultimately, most infected bats die from starvation or inflammatory shock, and estimates suggest more than 6 million bats have already perished.

Traditional approaches to fungal infections, specifically fungicides, indiscriminately kill beneficial and harmful fungi, while providing strong evolutionary pressure for resistance. We are instead exploring a volatile organic compound, ocimene, which has been shown to slow fungal growth. We are also investigating ways to sense P. destructans to impact the cave environment as little as possible, and compounds that may inhibit metabolism of the bats’ skin. Our hope is that by slowing growth of the fungus, we can defend bats from the disease and give them a chance to recover after hibernation.

White-Nose Syndrome spread map. Map credit Lindsey Heffernan

We designed and attempted to assemble two plasmids encoding the mevalonate pathway, along with the enzyme responsible for (E)-beta-ocimene production. Our plan included characterizing the parts by testing in-vivo production of mevalonate and ocimene in E. coli. We could then proceed to in-vitro testing by GST-tagging ocimene synthase, purifying, and preparing an assay with geranylpyrophosphate and testing ocimene production at various conditions. Both halves of the pathway would be tested independently to find the rate-limiting pathway, to provide direction for future groups wanting to modify the pathway.



Missouri cave photo by Lynn Dieter
Northern Long-Eared bat photo by Scott Bergeson
White-Nose Syndrome spread map by Lindsey Heffernan