Team:Macquarie Australia
From 2014.igem.org
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<p>The project has demonstrated functionality of our designed operons that represent the first step of the chlorophyll a biosynthesis. This was performed through the initial assembly of three operons containing the essential biosynthetic genes that were confirmed through gel electrophoresis and DNA sequencing (Fig. 1). The functionality of the first operon (Mg-chelatase) was demonstrated through the spectral analysis of its enzymatic product, Mg-Protophoryin IX (link to results). </p><br/> | <p>The project has demonstrated functionality of our designed operons that represent the first step of the chlorophyll a biosynthesis. This was performed through the initial assembly of three operons containing the essential biosynthetic genes that were confirmed through gel electrophoresis and DNA sequencing (Fig. 1). The functionality of the first operon (Mg-chelatase) was demonstrated through the spectral analysis of its enzymatic product, Mg-Protophoryin IX (link to results). </p><br/> | ||
- | <img class='center' src="https://static.igem.org/mediawiki/2014/0/08/Homepic1.png" /> | + | <img class='center' src="https://static.igem.org/mediawiki/2014/0/08/Homepic1.png" width=800/> |
<p><b>Figure 1.</b> Flow chart of the chlorophyll a synthesis pathway. Operons containing the essential genes from Chlamydomonas reinhardtii are represented for their respective step within the pathway. The spectral change of the compounds are represented in the colour of each step.</p> | <p><b>Figure 1.</b> Flow chart of the chlorophyll a synthesis pathway. Operons containing the essential genes from Chlamydomonas reinhardtii are represented for their respective step within the pathway. The spectral change of the compounds are represented in the colour of each step.</p> | ||
Revision as of 01:25, 18 October 2014
- Overview
- Idea
- Situation
- Outcome
- Future
Our project; in a nutshell
Watch this cool video below!
Overview
The project has demonstrated functionality of our designed operons that represent the first step of the chlorophyll a biosynthesis. This was performed through the initial assembly of three operons containing the essential biosynthetic genes that were confirmed through gel electrophoresis and DNA sequencing (Fig. 1). The functionality of the first operon (Mg-chelatase) was demonstrated through the spectral analysis of its enzymatic product, Mg-Protophoryin IX (link to results).
Figure 1. Flow chart of the chlorophyll a synthesis pathway. Operons containing the essential genes from Chlamydomonas reinhardtii are represented for their respective step within the pathway. The spectral change of the compounds are represented in the colour of each step.
We have also modelled this step of the biosynthetic pathway (link to modelling). The project was successful in building the foundations for future teams to complete the synthesis of photosystem II in E. coli. This provides a significant leap into the development of a hydrogen-generating bacterial system and a renewable biological energy source. Our policy and practice initiatives were also successful for increasing the public awareness of the global energy crisis and the potential synthetic biology has to providing a solution (link to human practice).