Difference between revisions of "Team:Waterloo"

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<h2>Welcome to Waterloo iGEM 2019!</h2>
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<p>Despite playing an important role in protecting crops, herbicides can negatively impact the rhizosphere by interfering with root nodule formation. Rhizobia are soil bacteria that form beneficial relationships with agriculturally important legumes. These microorganisms form root nodules and fix nitrogen gas into ammonia, which plants need to grow. Farmers using herbicides that interfere with biological nitrogen fixation need to apply more nitrogen fertilizers. The runoff from these fertilizers causes nutrient pollution. Therefore, we aim to minimize the use of nitrogen fertilizers. To do this, we are engineering Bradyrhizobium diazoefficiens USDA110 to have the ability to form root nodules with soybeans in the presence of the herbicide linuron. We hope to confer herbicide tolerance by giving B. diazoefficiens the ability to biologically transform the herbicide and dampen its toxicity. Agriculture is a large component of our community. This project hopes to provide constructive synthetic biology solutions that support current agricultural practices.</p>
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  margin-right: auto;">Despite playing an important role in protecting crops, herbicides can negatively impact the rhizosphere by interfering with root nodule formation. Rhizobia are soil bacteria that form beneficial relationships with agriculturally important legumes. These microorganisms form root nodules and fix nitrogen gas into ammonia, which plants need to grow. Farmers using herbicides that interfere with biological nitrogen fixation need to apply more nitrogen fertilizers. The runoff from these fertilizers causes nutrient pollution. Therefore, we aim to minimize the use of nitrogen fertilizers. To do this, we are engineering Bradyrhizobium diazoefficiens USDA110 to have the ability to form root nodules with soybeans in the presence of the herbicide linuron. We hope to confer herbicide tolerance by giving B. diazoefficiens the ability to biologically transform the herbicide and dampen its toxicity. Agriculture is a large component of our community. This project hopes to provide constructive synthetic biology solutions that support current agricultural practices.</p></center>
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Despite playing an important role in protecting crops, herbicides can negatively impact the rhizosphere by interfering with root nodule formation. Rhizobia are soil bacteria that form beneficial relationships with agriculturally important legumes. These microorganisms form root nodules and fix nitrogen gas into ammonia, which plants need to grow. Farmers using herbicides that interfere with biological nitrogen fixation need to apply more nitrogen fertilizers. The runoff from these fertilizers causes nutrient pollution. Therefore, we aim to minimize the use of nitrogen fertilizers. To do this, we are engineering Bradyrhizobium diazoefficiens USDA110 to have the ability to form root nodules with soybeans in the presence of the herbicide linuron. We hope to confer herbicide tolerance by giving B. diazoefficiens the ability to biologically transform the herbicide and dampen its toxicity. Agriculture is a large component of our community. This project hopes to provide constructive synthetic biology solutions that support current agricultural practices.
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<h3>Model</h3>
 
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<p>We love differential equations!</p>
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<p>An "ode" to DEs...</p>
 
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Revision as of 00:23, 21 October 2019

Waterloo iGEM 2019

Welcome to Waterloo iGEM 2019!

Despite playing an important role in protecting crops, herbicides can negatively impact the rhizosphere by interfering with root nodule formation. Rhizobia are soil bacteria that form beneficial relationships with agriculturally important legumes. These microorganisms form root nodules and fix nitrogen gas into ammonia, which plants need to grow. Farmers using herbicides that interfere with biological nitrogen fixation need to apply more nitrogen fertilizers. The runoff from these fertilizers causes nutrient pollution. Therefore, we aim to minimize the use of nitrogen fertilizers. To do this, we are engineering Bradyrhizobium diazoefficiens USDA110 to have the ability to form root nodules with soybeans in the presence of the herbicide linuron. We hope to confer herbicide tolerance by giving B. diazoefficiens the ability to biologically transform the herbicide and dampen its toxicity. Agriculture is a large component of our community. This project hopes to provide constructive synthetic biology solutions that support current agricultural practices.

Demonstrate

How did our project fare in the implementation stage?

Attributions

To all the lovely people who helped!

Collaborations

Team work makes the dream work!

Human Practices

Communication, education, and regulation!

Model

An "ode" to DEs...

Results

Keeping our data in check!

Parts

What's a good pun about plasmids?

Improve

Science is about incremental improvements!

Experiments

What's a good pun about plasmids?

Safety

Stay safe amigos!

Design

Design->Build->Test!

Inspiration

Synbio is inspiring!