Team:Edinburgh

From 2008.igem.org

(Difference between revisions)
(Part II)
 
(34 intermediate revisions not shown)
Line 1: Line 1:
<div id="header">{{Template:Team:Edinburgh/Templates/Header}}</div>
<div id="header">{{Template:Team:Edinburgh/Templates/Header}}</div>
-
[[Image:Edinburgh-UniversityLogo.jpg|thumb|150px|left]] [[Image:Edinburgh-Logo4.jpg|thumb|100px|right|Our bacteria could even render the livelihoods of TV chefs redundant.]]
+
<br />
-
 
+
'''''Welcome to the University of Edinburgh 2008 iGEM Team Wiki!'''''
'''''Welcome to the University of Edinburgh 2008 iGEM Team Wiki!'''''
 +
<br /><br />
-
歡迎光臨愛丁堡大學2008年iGEM隊之維基!
+
[[Image:Edinburgh-Panorama.jpg]]
 +
----
 +
== Introduction: Global problems ==
-
==Introduction==
+
* It has been predicted that by 2015 supplies of easy-to-access oil and natural gas will no longer keep up with demand. This prediction is based on the current rate of consumption, but this is expect to increase. The repercussions of this are already being felt on a global level with food prices rising.
-
* It is predicted that by 2015 supplies of easy-to-access oil and natural gas will no longer keep up with demand. This is prediction based on the current rate of consumption, which is expect to increase. The repurcussions of this are already being felt on a global level with food prices rising.
+
-
* The burning of fossil fuels is also fueling global warming. This is having negative effects on crop yields worldwide, with longer droughts occuring year on year, especially in Africa and Australia. The melting of the polar ice-caps which accompanies this will raise sea-levels, inundating currently arable land, reducing the land available for ever enlarging world population.
+
* The burning of fossil fuels is also fuelling global warming. This is having negative effects on crop yields worldwide, with longer droughts occurring year on year, especially in Africa and Australia. The melting of the polar ice-caps which accompanies this will raise sea-levels, inundating currently arable land, reducing the land available for an ever enlarging world population.
-
 
+
-
* The rising cost of food coupled to the apparent unsustainability of the human race at its current size and with current land use and technologies makes this the perfect time to contemplate the restructuring of global agriculture. With this in mind, the Edinburgh '08 iGEM team are investigating the possibility of engineering bacteria to synthesise starch from waste biomass, either for use as a food-source or an energy-source, the latter freeing up the land currently being used for biocrops for the growth of food crops.<br />
+
 +
* At present the major alternative to fossil fuel use for transport comes from ethanol fermented from starch and sugar in sugar cane and soy bean. These biofuel crops are being grown in areas previously used for food crops or in previously pristine natural environments, and thus are unsustainable.<br />
 +
<br />
 +
All this is burdening the global economy and destroying lives, and worse is likely to come.<br />
 +
<br />
'''Wouldn't it be brilliant if we could do something to counter this trend?'''<br />
'''Wouldn't it be brilliant if we could do something to counter this trend?'''<br />
 +
<br />
 +
This is what the Edinburgh 2008 iGEM team have been trying to do. - The rising cost of food coupled to the current unsustainability of human activity makes this the perfect time to contemplate the restructuring of global agriculture.<br />
-
This is what the Edinburgh 2008 iGEM team have been trying to do.<br />
+
== Primary Objective: A single sustainable bacterial solution ==
-
The major alternative to fossil fuel use in transport comes from ethanol fermented from starch and sugar of sugar cane and soy bean. These biofuel crops are being grown in areas previously used for food crops or in previously pristine natural environments, and thus are unsustainable.<br />
+
[[Image:Edinburgh-MicroMaize.jpg|thumb|150px|right|A false-colour SEM of MicroMaize cells.]]
-
=== Primary Objective ===
+
We have been investigating engineering bacteria to '''produce starch from the cellulose in waste biomass''' (that is agricultural waste, wood chippings, waste from paper production etc.). This starch could be:
-
 
+
-
We have been investigating engineering bacteria to convert cellulose from waste biomass (that is agricultural waste, wood chippings, waste from paper production etc.) into starch. This starch could be:
+
# sold to the biofuels industry for conversion to ethanol
# sold to the biofuels industry for conversion to ethanol
# used as feed for livestock
# used as feed for livestock
# used as a starch supplement in the human diet if needed.
# used as a starch supplement in the human diet if needed.
 +
This will reduce our dependence on fossil fuels and free up agricultural land for the growth of food crops, ultimately putting less strain on ecosystems.
 +
 +
== Secondary Objective: Solving vitamin A deficiency in the developing world ==
-
=== Secondary Objective ===
+
We have also been continuing the work of [https://2007.igem.org/Edinburgh/Yoghurt our 2007 team] in engineering ''Escherichia coli'' to '''produce the vitamin A precursor β-carotene'''. Vitamin A is required for vision and a healthy immune system. 250,000-500,000 children in the developing world lose their vision each year, half of them dying within 12 months of this ([http://www.who.int/nutrition/topics/vad/en/ WHO]).
-
We have also been continuing the work of [http://parts.mit.edu/igem07/index.php/Edinburgh/Yoghurt our 2007 team] in engineering ''Escherichia coli'' to produce the vitamin A precursor β-carotene. Vitamin A is required for vision and a healthy immune system. 250,000-500,000 children in the developing world lose their site each year, half of them dying within 12 months of this ([http://www.who.int/nutrition/topics/vad/en/] WHO).<br />
+
== Further Considerations ==
-
β-carotene is what gives carrots their orange colour. It is converted into vitamin A by the body.
+
In the pursuit of our project, as well as the biological aspects, we:
 +
* considered aspects of [https://2008.igem.org/Team:Edinburgh/Modelling scale-up], including the [https://2008.igem.org/Team:Edinburgh/ELSI ethical, legal and social implications] of our potential final product, MicroMaize,
 +
* programmed [https://2008.igem.org/Team:Edinburgh/Software a new piece of software] for use in metabolic modelling,
 +
* [https://2008.igem.org/Team:Edinburgh/Protocols developed and tested a number of new techniques] to make the process of creating BioBricks<sup>TM</sup> that little bit easier,
 +
* collaborated with [https://2008.igem.org/Team:Guelph the University of Guelph team], sharing carotenoid synthesis genes, flux modulators, and gram positive plasmids.

Latest revision as of 10:48, 7 July 2010


Welcome to the University of Edinburgh 2008 iGEM Team Wiki!

Edinburgh-Panorama.jpg


Contents

Introduction: Global problems

  • It has been predicted that by 2015 supplies of easy-to-access oil and natural gas will no longer keep up with demand. This prediction is based on the current rate of consumption, but this is expect to increase. The repercussions of this are already being felt on a global level with food prices rising.
  • The burning of fossil fuels is also fuelling global warming. This is having negative effects on crop yields worldwide, with longer droughts occurring year on year, especially in Africa and Australia. The melting of the polar ice-caps which accompanies this will raise sea-levels, inundating currently arable land, reducing the land available for an ever enlarging world population.
  • At present the major alternative to fossil fuel use for transport comes from ethanol fermented from starch and sugar in sugar cane and soy bean. These biofuel crops are being grown in areas previously used for food crops or in previously pristine natural environments, and thus are unsustainable.


All this is burdening the global economy and destroying lives, and worse is likely to come.

Wouldn't it be brilliant if we could do something to counter this trend?

This is what the Edinburgh 2008 iGEM team have been trying to do. - The rising cost of food coupled to the current unsustainability of human activity makes this the perfect time to contemplate the restructuring of global agriculture.

Primary Objective: A single sustainable bacterial solution

A false-colour SEM of MicroMaize cells.

We have been investigating engineering bacteria to produce starch from the cellulose in waste biomass (that is agricultural waste, wood chippings, waste from paper production etc.). This starch could be:

  1. sold to the biofuels industry for conversion to ethanol
  2. used as feed for livestock
  3. used as a starch supplement in the human diet if needed.

This will reduce our dependence on fossil fuels and free up agricultural land for the growth of food crops, ultimately putting less strain on ecosystems.

Secondary Objective: Solving vitamin A deficiency in the developing world

We have also been continuing the work of our 2007 team in engineering Escherichia coli to produce the vitamin A precursor β-carotene. Vitamin A is required for vision and a healthy immune system. 250,000-500,000 children in the developing world lose their vision each year, half of them dying within 12 months of this ([http://www.who.int/nutrition/topics/vad/en/ WHO]).

Further Considerations

In the pursuit of our project, as well as the biological aspects, we: