Team:TU-Delft

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<font size="2" face="sans-serif"><p>Snifferomyces is a modular system, used in the detection of volatile compounds. It has in the membrane a <b>G-protein–coupled receptor</b> that can bind to a <b>specific signal</b>, once bound it then <b>switches on a signaling machinery</b> which <b>transmits</b> this <b>information</b> over the plasma membrane and through the cell to <b>produce a Quantitative response</b> in the form of <a href="http://2012.igem.org/Team:TU-Delft/part2"><b>fluorescence</b></a>. Using the Snifferomyces, our <b>aim</b> is to develop a <b>universal olfactory system</b> which <b>allows scientists</b> to <a href="http://2012.igem.org/Team:TU-Delft/part1#A3"><b>introduce olfactory</a> receptors in yeast with minimal effort.</b></p>
<font size="2" face="sans-serif"><p>Snifferomyces is a modular system, used in the detection of volatile compounds. It has in the membrane a <b>G-protein–coupled receptor</b> that can bind to a <b>specific signal</b>, once bound it then <b>switches on a signaling machinery</b> which <b>transmits</b> this <b>information</b> over the plasma membrane and through the cell to <b>produce a Quantitative response</b> in the form of <a href="http://2012.igem.org/Team:TU-Delft/part2"><b>fluorescence</b></a>. Using the Snifferomyces, our <b>aim</b> is to develop a <b>universal olfactory system</b> which <b>allows scientists</b> to <a href="http://2012.igem.org/Team:TU-Delft/part1#A3"><b>introduce olfactory</a> receptors in yeast with minimal effort.</b></p>
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<p>We wanted to <b>use</b> the <b>Snifferomyces</b> to <b>address a challenge affecting several lives. <b>Lack of diagnostic capacity</b> has been a crucial barrier preventing an effective response to the challenges of <b>Tuberculosis</b> in low- and middle-income countries where, standard TB <b>diagnostic tools</b> that need to be used in a <b>lab setting</b> pose <b>major barriers</b> for screening due to the costs and time involved in the process. We aim to <b>address this problem</b> by constructing a <b>diagnosis system</b> for the presence of <b>tuberculosis bacteria</b> in the lungs via <b>sensing</b> of a chemical compound <b>methyl nicotinate.</b></p>
 
<p><a href="2012.igem.org/Team:TU-Delft/part1#P10"><b>G-protein–coupled receptors (GPCRs)</b></a> are one of the most important classes of proteins in living organisms that allows <b>transmission of a wide variety of signals</b> over the cell membrane, between cells and over long distances in the human body, thus acting as both the <b>gatekeepers</b> and <b>molecular messengers</b> of the cell. The importance of these receptors is emphasized by the <b>Nobel prize</b> awarded in 2004 for the discoveries of <b>"odorant receptors and the organization of the olfactory system"</b> and in 2012 for <b>"studies of G-protein–coupled receptors".</b></p>
<p><a href="2012.igem.org/Team:TU-Delft/part1#P10"><b>G-protein–coupled receptors (GPCRs)</b></a> are one of the most important classes of proteins in living organisms that allows <b>transmission of a wide variety of signals</b> over the cell membrane, between cells and over long distances in the human body, thus acting as both the <b>gatekeepers</b> and <b>molecular messengers</b> of the cell. The importance of these receptors is emphasized by the <b>Nobel prize</b> awarded in 2004 for the discoveries of <b>"odorant receptors and the organization of the olfactory system"</b> and in 2012 for <b>"studies of G-protein–coupled receptors".</b></p>
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<p>We wanted to <b>use</b> the <b>Snifferomyces</b> to <b>address</b> a real life challenge affecting several lives. <b>Lack of diagnostic capacity</b> has been a crucial barrier preventing an effective response to the challenges of <b>Tuberculosis</b> in low- and middle-income countries where, standard TB <b>diagnostic tools</b> that need to be used in a <b>lab setting</b> pose <b>major barriers</b> for screening due to the costs and time involved in the process. We aim to <b>address this problem</b> by constructing a <b>diagnosis system</b> for the presence of <b>tuberculosis bacteria</b> in the lungs via <b>sensing</b> of a chemical compound <b>methyl nicotinate.</b></p>
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Latest revision as of 03:47, 27 October 2012

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Snifferomyces

Snifferomyces is a modular system, used in the detection of volatile compounds. It has in the membrane a G-protein–coupled receptor that can bind to a specific signal, once bound it then switches on a signaling machinery which transmits this information over the plasma membrane and through the cell to produce a Quantitative response in the form of fluorescence. Using the Snifferomyces, our aim is to develop a universal olfactory system which allows scientists to introduce olfactory receptors in yeast with minimal effort.

G-protein–coupled receptors (GPCRs) are one of the most important classes of proteins in living organisms that allows transmission of a wide variety of signals over the cell membrane, between cells and over long distances in the human body, thus acting as both the gatekeepers and molecular messengers of the cell. The importance of these receptors is emphasized by the Nobel prize awarded in 2004 for the discoveries of "odorant receptors and the organization of the olfactory system" and in 2012 for "studies of G-protein–coupled receptors".

We wanted to use the Snifferomyces to address a real life challenge affecting several lives. Lack of diagnostic capacity has been a crucial barrier preventing an effective response to the challenges of Tuberculosis in low- and middle-income countries where, standard TB diagnostic tools that need to be used in a lab setting pose major barriers for screening due to the costs and time involved in the process. We aim to address this problem by constructing a diagnosis system for the presence of tuberculosis bacteria in the lungs via sensing of a chemical compound methyl nicotinate.





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