Team:NYMU-Taipei

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Revision as of 04:29, 15 July 2012 by Jayms (Talk | contribs)
Nitrogen metabolism

With an eye to combat the environmental issues related to nitrogen oxides, we designed some circuits that can produce several kinds of nitrogen oxides reductases and transcriptional regulator into our organisms so that those harmful nitrogen oxides can eventually reduce to nitrogen. Combined with sulfur metabolism pathway and Calvin cycle inherent in cyanobacteria, we provide an eco-friendly, multi-function solution to the air pollution problem.

This is a very promising project with huge commercialized potential since the mass production of bioreactors full of our organisms is foreseeable. What’s more interesting, with the help of division inhibitor, gene for invasion, we can install our designation into human cells as artificial organelles and grant human being the ability to survive in extreme environments such as Venus without wearing bulky space suits.


Symbiosis


Every year, iGEMers create plenty of parts, they code for peptides, proteins or composite parts for multiple functions. However, they are just DNA sequence. But what if we create parts as the scale of organelles? With the technique, we can implant any cells into the host depends on what kinds of functions we hope to see in it. Compare with transforming cells using merely simple DNA sequence, implanting new organelles can bring more complicated function and more precise controlling system. Maybe someday we can make eukaryote to fix nitrogen, reduced sulfite, or even make animal to photosynthesize! Or we can create an organism that can lives in other planets! Quite promising, isn’t it?

NYMU-Taipei logo.png