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− | < | + | <h1>New Application Track</h1> |
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The New Applications tracks in iGEM is possibly the most difficult to describe. Without using the term "catch-all", there is a certain diversity of projects that is not found as much in other tracks. New Application teams work to create novel, forward thinking projects and innovative ideas that don't fit into conventional paradigms. | The New Applications tracks in iGEM is possibly the most difficult to describe. Without using the term "catch-all", there is a certain diversity of projects that is not found as much in other tracks. New Application teams work to create novel, forward thinking projects and innovative ideas that don't fit into conventional paradigms. | ||
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+ | <li><a href ="https://igem.org/Team_Tracks?year=2016"> iGEM 2016 New Application team list</a></li> | ||
<li><a href ="https://igem.org/Team_Tracks?year=2015"> iGEM 2015 New Application team list</a></li> | <li><a href ="https://igem.org/Team_Tracks?year=2015"> iGEM 2015 New Application team list</a></li> | ||
<li><a href ="https://igem.org/Team_Tracks?year=2014"> iGEM 2014 New Application team list</a></li> | <li><a href ="https://igem.org/Team_Tracks?year=2014"> iGEM 2014 New Application team list</a></li> | ||
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+ | <h3><a href="https://2016.igem.org/Team:SCAU-China"> SCAU-China 2016 </a></h3> | ||
+ | <h4> aSTARice -- astaxanthin biosynthesis in rice endosperm </h4> | ||
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− | + | Astaxanthin is a naturally-occurring keto-carotenoid found in microalgae, salmon, shrimp, crustaceans, and the feathers of some birds. It provides the red color of salmon meat and cooked shellfish.Because astaxanthin is a powerful antioxidant with great value in medical and health care,it is meaningful to make astaxanthin an accessible health product.Currently, the industrial ways to produce astaxanthin are extract from microalgae Haematococcus pluvialis,Phaffia yeast,shrimp processing waste and chemical product.However these ways aren’t safety enough and the purification is difficult. While higher plants are supposed to be an efficient and safe bioreactor to produce astaxanthin,because it has advanced protein processing system to produce complex product.So we think about using higher plant to produce astaxanthin.In our project,we take rice endosperm as the bioreactor of astaxanthin production,and use a technique called multiple-gene metabolic engineering to specifically express astaxanthin in rice endosperm. In this way, rice endosperm can produce and store astaxanthin. | |
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Revision as of 16:39, 16 December 2016
New Application Track
The New Applications tracks in iGEM is possibly the most difficult to describe. Without using the term "catch-all", there is a certain diversity of projects that is not found as much in other tracks. New Application teams work to create novel, forward thinking projects and innovative ideas that don't fit into conventional paradigms.
New Application is an apt description for a track that doesn't have a common problem, or focus tying all projects together. It is the novelty of ideas and approach in investigating a question that may never have previously been examined that qualifies a project in the New Application track.
You will find images and abstracts of the winning New Application teams from 2013 to 2015 in the page below. Also, follow the links below to see projects from all the New Application track teams.
SCAU-China 2016
aSTARice -- astaxanthin biosynthesis in rice endosperm
Astaxanthin is a naturally-occurring keto-carotenoid found in microalgae, salmon, shrimp, crustaceans, and the feathers of some birds. It provides the red color of salmon meat and cooked shellfish.Because astaxanthin is a powerful antioxidant with great value in medical and health care,it is meaningful to make astaxanthin an accessible health product.Currently, the industrial ways to produce astaxanthin are extract from microalgae Haematococcus pluvialis,Phaffia yeast,shrimp processing waste and chemical product.However these ways aren’t safety enough and the purification is difficult. While higher plants are supposed to be an efficient and safe bioreactor to produce astaxanthin,because it has advanced protein processing system to produce complex product.So we think about using higher plant to produce astaxanthin.In our project,we take rice endosperm as the bioreactor of astaxanthin production,and use a technique called multiple-gene metabolic engineering to specifically express astaxanthin in rice endosperm. In this way, rice endosperm can produce and store astaxanthin.