Team:Johns Hopkins-Wetware/requirements

From 2012.igem.org

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<li><a href="https://2012.igem.org/Team:Johns_Hopkins-Wetware/humanpractice">human practice</a>
<li><a href="https://2012.igem.org/Team:Johns_Hopkins-Wetware/humanpractice">human practice</a>
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<li><a href="https://2012.igem.org/Team:Johns_Hopkins-Wetware/thepartscourselabmanual">Lab Manual</a></li>
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<li><a href="https://2012.igem.org/Team:Johns_Hopkins-Wetware/Safety">safety</a>
<li><a href="https://2012.igem.org/Team:Johns_Hopkins-Wetware/Safety">safety</a>
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Collaboration with the Dalton High School iGEM team:
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Collaboration with:<a href="https://2012hs.igem.org/Team:Dalton_School_NY"> Dalton High School iGEM 2012. </a>
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Collaboration with the John Hopkins Software Team:
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Collaboration with:<a href="https://2012.igem.org/Team:Johns_Hopkins-Software"> JHU Software iGEM 2012. </a>
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The second of our collaborations was with our colleagues on the Johns Hopkins software team. They developed AutoGene, "an all-encompassing plasmid design suite meant to streamline the process of both annotating and building sequences." We sent them several plasmid sequences and they returned the annotated plasmids. We then provided feedback to the software team on the performance of AutoGene. This collaboration was beneficial to the JHU Software team as our requests and user feedback helped them to develop AutoGene.
The second of our collaborations was with our colleagues on the Johns Hopkins software team. They developed AutoGene, "an all-encompassing plasmid design suite meant to streamline the process of both annotating and building sequences." We sent them several plasmid sequences and they returned the annotated plasmids. We then provided feedback to the software team on the performance of AutoGene. This collaboration was beneficial to the JHU Software team as our requests and user feedback helped them to develop AutoGene.
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We designed a synthetic biology lab manual to be used in introductory biology lab courses.
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We designed a synthetic biology lab manual to be used in introductory biology lab courses.<a href="https://2012.igem.org/Team:Johns_Hopkins-Wetware/humanpractice"> The Yeast Golden Gate Lab Course. </a>
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Demonstrate that at least one new biobrick part or device of your own design and construction works as expected:
Demonstrate that at least one new biobrick part or device of your own design and construction works as expected:
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We showed that our ethanol-induced promoters showed different responses to ethanol. We showed that our CYP2E1 expressing yeast strains lowered the concentration of ethanol over a 24 hour fermentation. We showed that our Golden Gate to BioBrick conversion vectors could easily convert our Golden Gate promoters, coding sequences, and terminators to the BioBrick standard for submission to the Registry.
We showed that our ethanol-induced promoters showed different responses to ethanol. We showed that our CYP2E1 expressing yeast strains lowered the concentration of ethanol over a 24 hour fermentation. We showed that our Golden Gate to BioBrick conversion vectors could easily convert our Golden Gate promoters, coding sequences, and terminators to the BioBrick standard for submission to the Registry.
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Characterize the operation of at least one new Biobrick part or device and enter this information in the "main page" section of that part's registry entry:
Characterize the operation of at least one new Biobrick part or device and enter this information in the "main page" section of that part's registry entry:
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We characterized the operation of our ethanol-induced promoters by using them to express GFP under different ethanol concentrations. We measured the effect of CYP2E1 expression under ethanol-induced and constitutive promoters on the ethanol concentration during fermentation.
We characterized the operation of our ethanol-induced promoters by using them to express GFP under different ethanol concentrations. We measured the effect of CYP2E1 expression under ethanol-induced and constitutive promoters on the ethanol concentration during fermentation.
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Team registration:
Team registration:
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We are registered!
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Our team has been registered for the Igem competition.
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Judging form:
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Judging Form
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Can be found here.
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The judging form has been completed. It details that we believe we deserve to win the Gold medal due to the reasons specified therein. It also shows our best new parts.<a href="https://igem.org/2012_Judging_Form?id=799"> Judging form can be found here </a>
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Team Wiki:
Team Wiki:
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Where do you think you are right now?
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                The wiki, through the intensive and dedicated work of our wiki master, James, has been set up and completed. It includes our project and our new assembly standard, Golden Gate.
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Present a poster and talk at the iGEM Jamboree:
Present a poster and talk at the iGEM Jamboree:
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See you in Pittsburgh!
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Our poster has been designed and is ready for the flight to Pittsburgh. Our presentation is set to be a stellar one.
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At least one new submitted and highly-documented standard Biobrick part or device:
At least one new submitted and highly-documented standard Biobrick part or device:
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See our list of submitted parts.
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Our ethanol inducible promoters: BBa_K799001, BBa_K799003, BBa_K799005, BBa_K799007, BBa_K799009 were placed in control of GFP and fluorescence data was analyzed at various ethanol concentrations. The graphs can be seen on the respective page of each part.<a href="https://2012.igem.org/Team:Johns_Hopkins-Wetware/Parts"> See our list of submitted parts. </a>
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Latest revision as of 03:50, 4 October 2012

JHU iGEM 2012
Gold Medal Requirements

Improve the function of an existing BioBrick part or device:


We have modified pSB1C3, the standard iGEM shipping plasmid, to allow for easy conversion of our yeast Golden Gate (yGG) parts to the BioBrick standard. We submitted three modified pSB1C3 plasmids, one to convert each type of yGG part: promoters, open reading frames (ORFs), and terminators. Being able to convert parts between standards represents a major challenge, in large part because standards are constantly changing. Thus, we feel this set of 'conversion vectors' is an important contribution.



Help another iGEM team:


Collaboration with: Dalton High School iGEM 2012.

A former PhD student at Johns Hopkins University and a current high school science teacher and iGEM advison at the Dalton School in New York City, Dr. Jennifer Hackett approached the Hopkins wetware iGEM team to discuss a mutual interest in characterizing yeast promoters. As a result of this conversation, we suggested that as one component of the Dalton School's iGEM project, Dr. Hackett could implement both our Parts Course as well as our Yeast Transcriptional Unit Assembly Standard (RFC88). In brief, we suggested that the Dalton team could subclone a series of yeast promoters, flanked by BsaI sites and our signature overhang sequences, so they could efficiently and directionally assembly these promoters upstream of genes encoding different fluorescent proteins. As part of this collaboration, we selected ~30 yeast promoter sequences for the Dalton team to clone. Promoters were chosen if they could be induced (e.g. by temperature or sugar source), or would drive expression of the downstream fluorescent protein with varying strengths. The Dalton School had a successful project and were able to clone almost the entire set of promoters. They are now working on assembling transcriptional units and testing the effects of the different promoters.



Collaboration with: JHU Software iGEM 2012.


The second of our collaborations was with our colleagues on the Johns Hopkins software team. They developed AutoGene, "an all-encompassing plasmid design suite meant to streamline the process of both annotating and building sequences." We sent them several plasmid sequences and they returned the annotated plasmids. We then provided feedback to the software team on the performance of AutoGene. This collaboration was beneficial to the JHU Software team as our requests and user feedback helped them to develop AutoGene.


Outline and detail a new approach to an issue of human practice in synthetic biology:


We designed a synthetic biology lab manual to be used in introductory biology lab courses. The Yeast Golden Gate Lab Course.

to the top
Silver Medal Requirements

Demonstrate that at least one new biobrick part or device of your own design and construction works as expected:


We showed that our ethanol-induced promoters showed different responses to ethanol. We showed that our CYP2E1 expressing yeast strains lowered the concentration of ethanol over a 24 hour fermentation. We showed that our Golden Gate to BioBrick conversion vectors could easily convert our Golden Gate promoters, coding sequences, and terminators to the BioBrick standard for submission to the Registry.


Characterize the operation of at least one new Biobrick part or device and enter this information in the "main page" section of that part's registry entry:


We characterized the operation of our ethanol-induced promoters by using them to express GFP under different ethanol concentrations. We measured the effect of CYP2E1 expression under ethanol-induced and constitutive promoters on the ethanol concentration during fermentation.

to the top
Bronze Medal Requirements

Team registration:


Our team has been registered for the Igem competition.


Judging Form


The judging form has been completed. It details that we believe we deserve to win the Gold medal due to the reasons specified therein. It also shows our best new parts. Judging form can be found here


Team Wiki:


The wiki, through the intensive and dedicated work of our wiki master, James, has been set up and completed. It includes our project and our new assembly standard, Golden Gate.


Present a poster and talk at the iGEM Jamboree:


Our poster has been designed and is ready for the flight to Pittsburgh. Our presentation is set to be a stellar one.


At least one new submitted and highly-documented standard Biobrick part or device:


Our ethanol inducible promoters: BBa_K799001, BBa_K799003, BBa_K799005, BBa_K799007, BBa_K799009 were placed in control of GFP and fluorescence data was analyzed at various ethanol concentrations. The graphs can be seen on the respective page of each part. See our list of submitted parts.


to the top

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