Team:Hong Kong HKUST/results

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Revision as of 12:52, 28 October 2013

Result

Experiment 1: Glyoxylate Shunt

Introduce glyoxylate enzymes responsible for the shunt

Experiment 2: Protein Trafficking

Target ACE proteins into mitochondria

Experiment 3: Fatty Acid Sensing Mechanism

Introduce inducible system that allows tunable fatty acid uptake by sensing fatty acid concentration

Experiment 4: Cell Viability & Fatty Acid Quantification

Measuring cell viability at different fatty acid concentration & measure fatty acid uptake rate

Our project was first proposed in mid-March and after a series of improvement and elaboration, we started our wet lab work from mid-June to late-September. After 3 months of memorable diligent work, we are proud to claim that we have achieved the results below:

Successfully constructed two parts carrying mitochondrial leader sequence (MLS) compatible with RFC 10 and RFC 25 assembly standards respectively, (BBa_K1119000, BBa_K1119001).
Successfully constructed parts containing the aceA and aceB elements of the glyoxylate shunt (BBa_K1119002, BBa_K1119003).
Successfully constructed a part containing the constitutive CMV promoter (BBa_K1119006).
Successfully characterized the constitutive CMV promoter in HEK293FT cells (BBa_K1119008).
Successfully constructed a part containing the constitutive regulatory promoter of Human Elongation Factor 1-alpha (BBa_K1119010).
Successfully characterized the constitutive EF-1alpha promoter in HEK293FT cells (BBa_K1119011).
Successfully characterized the mitochondrial leader sequence (MLS) in HEK293FT cells (BBa_K1119009).
Successfully tested HepG2 cell viability in different sodium palmitate concentrations.

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 <div id="presentation"><h3>Experiment 3: Fatty Acid Sensing Mechanism</h3><div id="pre-img"><br><img src="https://static.igem.org/mediawiki/2013/4/4f/Expt1.png" style="padding-left:5px;padding-top:5px;width:90%;"><center><a href="https://2013.igem.org/Team:Hong_Kong_HKUST/experiment/exp2"><img src="http://w1ggroup.com/devere/img/more_off.png" style="width:80%;height:40px;padding-top:10px;"></a></center></div><div id="pre-desc"><p id="pre-desc-text"><br>Introduce inducible system that allows tunable fatty acid uptake by sensing fatty acid concentration</p></div></div>
-<div id="article"><h3>Experiment 4: Cell Viability & Fatty Acid Quantification</h3><div id="pre-img"><img src="https://static.igem.org/mediawiki/2013/f/fa/Expt0.png" style="padding-left:2px;padding-top:5px;width:90%;"><center><a href="https://2013.igem.org/Team:Hong_Kong_HKUST/experiment/exp1"><img src="http://w1ggroup.com/devere/img/more_off.png" style="width:80%;height:40px;padding-top:10px;"></a></center></div><div id="pre-desc"><p id="pre-desc-text">Measuring cell viability at different fatty acid concentration & measure fatty acid uptake rate</p></div></div>
+<div id="article"><h3>Experiment 4: Cell Viability & Fatty Acid Quantification</h3><div id="pre-img"><img src="https://static.igem.org/mediawiki/2013/f/fa/Expt0.png" style="padding-left:2px;padding-top:5px;width:90%;"><center><a href="https://2013.igem.org/Team:Hong_Kong_HKUST/experiment/exp1"><br><img src="http://w1ggroup.com/devere/img/more_off.png" style="width:80%;height:40px;padding-top:10px;"></a></center></div><div id="pre-desc"><p id="pre-desc-text">Measuring cell viability at different fatty acid concentration & measure fatty acid uptake rate</p></div></div>
 <div id="slide1">
 <p id="yo">Our project was first proposed in mid-March and after a series of improvement and elaboration, we started our wet lab work from mid-June to late-September. After 3 months of memorable diligent work, we are proud to claim that we have achieved the results below: