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- | <h1>Discussion and Future</h1> | + | <h1 style="border:none;">Discussion and Future Work</h1> |
<p><span></span>It is obvious that artificial buffer RNA, <i>srlA</i> and <i>ytfJ</i>, works well on comparator, while <i>nanC</i> doesn’t work as expected. It indicates that <i>srlA</i> and <i>ytfJ</i> do have competitive advantages to interact with <i>spot42</i> against galK::GFP which shows that our design is quite practicable. To our surprising, the areas of complementary pairing sites of <i>srlA</i> and <i>ytfJ</i> predicted by intaRNA range quite narrow which appears to act weakly with <i>spot42</i>. However, the results are just opposite to expectation. It confirms again that prediction of RNAs pairing is not sufficient for artificial RNA designs. Possible reasons may be the facilitation of interactions brought by hfq, the forming of secondary structures which exptremely favourite for sRNA-mRNA interactions. | <p><span></span>It is obvious that artificial buffer RNA, <i>srlA</i> and <i>ytfJ</i>, works well on comparator, while <i>nanC</i> doesn’t work as expected. It indicates that <i>srlA</i> and <i>ytfJ</i> do have competitive advantages to interact with <i>spot42</i> against galK::GFP which shows that our design is quite practicable. To our surprising, the areas of complementary pairing sites of <i>srlA</i> and <i>ytfJ</i> predicted by intaRNA range quite narrow which appears to act weakly with <i>spot42</i>. However, the results are just opposite to expectation. It confirms again that prediction of RNAs pairing is not sufficient for artificial RNA designs. Possible reasons may be the facilitation of interactions brought by hfq, the forming of secondary structures which exptremely favourite for sRNA-mRNA interactions. | ||
<br/><span></span>It also suggests that <i>nanC</i>, without any modifications (like constructing LacZ-fusion), could not act effectively with <i>spot42</i>. Actually it fits quite well with the <a href="https://2012.igem.org/Team:OUC-China/Project/Supplementary#micro">microarray analysis</a> where <i>nanC</i> gives only 3.5-fold repression rate. It was reported previously that one of <i>nanC</i>-mutant variants when fused with LacZ, displays additional complementary pairing sites with LacZ(predicted by NUPACK)[11], leading to higher repression rate. It is likely that <i>nanC</i>-lacZ fusion brings about some new characters that facilitate the interactions between <i>nanC</i> and <i>spot42</i>. So it shows great potential to further research on reaction mechanisms between <i>nanC</i>-LacZ and <i>spot42</i> which might throw light on modifying our comparators. | <br/><span></span>It also suggests that <i>nanC</i>, without any modifications (like constructing LacZ-fusion), could not act effectively with <i>spot42</i>. Actually it fits quite well with the <a href="https://2012.igem.org/Team:OUC-China/Project/Supplementary#micro">microarray analysis</a> where <i>nanC</i> gives only 3.5-fold repression rate. It was reported previously that one of <i>nanC</i>-mutant variants when fused with LacZ, displays additional complementary pairing sites with LacZ(predicted by NUPACK)[11], leading to higher repression rate. It is likely that <i>nanC</i>-lacZ fusion brings about some new characters that facilitate the interactions between <i>nanC</i> and <i>spot42</i>. So it shows great potential to further research on reaction mechanisms between <i>nanC</i>-LacZ and <i>spot42</i> which might throw light on modifying our comparators. | ||
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- | <h1><a name="future work"></a><div>Future Work</div></h1> | + | <h1 style="border:none;"><a name="future work"></a><div>Future Work</div></h1> |
<p><strong>Assembly full version ocean-float alarmer</strong><span></span>After fine-tuning of decision-making devices is finished, we will assembly gas vesicle actuator & NP sensor together to bring our whole ideas together. Certainly it will take a long time to arrive to that peak and compatibility is a thorny problem that may obstruct our integration. To solve those problem, we will make every efforts to design feasible schemes according to our model. | <p><strong>Assembly full version ocean-float alarmer</strong><span></span>After fine-tuning of decision-making devices is finished, we will assembly gas vesicle actuator & NP sensor together to bring our whole ideas together. Certainly it will take a long time to arrive to that peak and compatibility is a thorny problem that may obstruct our integration. To solve those problem, we will make every efforts to design feasible schemes according to our model. | ||
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- | <h1>References</h1> | + | <h1 style="border:none;">References</h1> |
<p> 1. Masse, E., F.E. Escorcia, and S. Gottesman, Coupled degradation of a small regulatory RNA and its mRNA targets in Escherichia coli. Genes Dev, 2003. 17(19): p. 2374-83. | <p> 1. Masse, E., F.E. Escorcia, and S. Gottesman, Coupled degradation of a small regulatory RNA and its mRNA targets in Escherichia coli. Genes Dev, 2003. 17(19): p. 2374-83. | ||
<br/>2. Mutalik, V.K., et al., Rationally designed families of orthogonal RNA regulators of translation. Nat Chem Biol, 2012. 8(5): p. 447-54. | <br/>2. Mutalik, V.K., et al., Rationally designed families of orthogonal RNA regulators of translation. Nat Chem Biol, 2012. 8(5): p. 447-54. | ||
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Latest revision as of 09:18, 26 October 2012
Discussion and Future Work
It is obvious that artificial buffer RNA, srlA and ytfJ, works well on comparator, while nanC doesn’t work as expected. It indicates that srlA and ytfJ do have competitive advantages to interact with spot42 against galK::GFP which shows that our design is quite practicable. To our surprising, the areas of complementary pairing sites of srlA and ytfJ predicted by intaRNA range quite narrow which appears to act weakly with spot42. However, the results are just opposite to expectation. It confirms again that prediction of RNAs pairing is not sufficient for artificial RNA designs. Possible reasons may be the facilitation of interactions brought by hfq, the forming of secondary structures which exptremely favourite for sRNA-mRNA interactions.
It also suggests that nanC, without any modifications (like constructing LacZ-fusion), could not act effectively with spot42. Actually it fits quite well with the microarray analysis where nanC gives only 3.5-fold repression rate. It was reported previously that one of nanC-mutant variants when fused with LacZ, displays additional complementary pairing sites with LacZ(predicted by NUPACK)[11], leading to higher repression rate. It is likely that nanC-lacZ fusion brings about some new characters that facilitate the interactions between nanC and spot42. So it shows great potential to further research on reaction mechanisms between nanC-LacZ and spot42 which might throw light on modifying our comparators.
Future Work
Assembly full version ocean-float alarmerAfter fine-tuning of decision-making devices is finished, we will assembly gas vesicle actuator & NP sensor together to bring our whole ideas together. Certainly it will take a long time to arrive to that peak and compatibility is a thorny problem that may obstruct our integration. To solve those problem, we will make every efforts to design feasible schemes according to our model.
Microfluidics-coupled ratio sensor
Stochastic noise caused by population heterogeneity is usually the culprit of quantitative designs for bioengineering. To avoid this, single-cell based detections dependent of microfluidics seems a perfect solution for that problem. In addition to this, bio-pixel arrays associated with arsenic-sensitive genetic circuits constructed by Jeff Hasty[12] shed light on constructing biosensors in chips. We have conceived an microarray that can form gradient solutions of both nitrate and phosphate with an orthogonal fashion. In this way, we could detect output signals in several particular intersections that indicate certain ratio of nitrate and phosphate in this area. Provided that we make a standard gradient curve of both P&N concentration, we can measure particular concentration ratio of liquid samples.For example, to measure a certain ratios of samples, we firstly immobilize the cells on the whole areas of microfluidic chip and then locate the certain areas that produce fluorescent peak. After measurement and comparison with the standard curve, The ratio of samples’ concentration can be conversed through specified formula.
Other potential usage
Actually our designs of comparator and ratio sensor can be applied to many other fields for biological decision-making processing since they are RNA calculators in essence. With its advantage like low stochastic noise and rapid response, it can be great tools for next-generation synthetic device.
References
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