Revision as of 22:14, 17 October 2018

Strain Engineering

Part Collection

Metabolic Engineering

Interlab

Accessible Science

Medal Criteria

Bronze

We fulfilled all bronze medal criteria Our team registered for iGEM, we had a challenging but great iGEM season and we are really looking forward to attend the Giant Jambore

Deliverables

We already finalized our Wiki and Judging Form We will hold our presentation at the Giant Jamboree in Boston and we expect exciting discussions at our poster.

Attributions

Our project was only possible with a great team and we also want to thank people, institutions and companies who helped with financial and infrastructural support or scientific advice, and we are grateful to honor them on our attributions page.

Characterization

We participated in the fifth iGEM InterLab measurement study, submitted our data in time and we are happy that our results were accepted by the measurement committee.

Silver

We are certain that we completed all silver medal criteria

Validated Part

We submitted BBa_K2560069 as a new basic parts. This part fulfills all formal requirements and was submitted to the registry. BBa_K2560069 is a 5’ Connector which was newly designed by us. We validated its function by showing that it can reduce crosstalk from backbone features 14 fold.

Collaborations

We strengthened the iGEM community in Germany by hosting the German iGEM Meetup and we planned and realized the Vibrigens InterLab study with eleven participating teams.

Human Practices

We got into contact with the BLISTA as part of our local community to open our project for everyone and we achieved to present our project in an accessible manner for the visually impaired.

Gold

We hope that we can convince you that we fulfilled all gold medal criteria.

Special Prizes

We are proud about what we achieved and applied for the following special awards:

Integrated Human Practices

Education and Public Engagement

Model

Measurement

Software Tool

Measurement

Best New Basic Part

Best New Composite Part

Best Part Collection

Results	Achieved
Initially, we carried out foundational experiments to characterize the growth rate, pH, salt and antibiotic tolerance of V. natriegens and sequenced its genome.
We performed Cloning in One day: From transformation to isolated plasmids in less than 12 hours!
Low amounts of DNA could be transformed reliably and we successfully demonstrated challenging clonings such as Gibson Assembly with 5 and Aquacloning with 3 fragments as well as 8 part golden-gate reactions
We designed and constructed the Marburg Collection, a highly flexible golden-gate based toolbox consisting of 123 parts
Dozens of test constructs were built and tested to obtain characterization data for all part categories in our toolbox
This was only possible with our novel experimental and data analysis workflow using platereader measurements
We successfully demonstrated a genome engineering workflow in V. natriegens to establish three new lab strains for diverse applications.
Subsequently, we were able to use Flp/FRT recombinase system for marker recycling thus allowing additional rounds of genomic modifications
Chromosomal locations suitable for genomic integration were identified and characterized to detect possible fitness effects
We accelerated metabolic engineering by developing a workflow for rapid pathway assembly and pathway optimization in V. natriegens
Model-predicted parts were used to construct a pathway for maximal 3-hydroxypropionate production in V. natriegens and we demonstrated its functionality
Via mass spectrometry, we detected our pathway product 3-hydroxypropionic acid in V. natriegens

@@ Line 559: / Line 559: @@
 						</tr>
 						<tr>
-							<td>Initially, we carried out foundational experiments to characterize the growth rate, pH, salt and antibiotic tolerance of <i>V. natriegens</i> and sequenced its genome.
+							<td class="scrollFade slideInRight" fadeTo="transformIn">Initially, we carried out foundational experiments to characterize the growth rate, pH, salt and antibiotic tolerance of <i>V. natriegens</i> and sequenced its genome.
 </td>
 							<td><div class="checkmark"></div></td>
 						</tr>
 						<tr>
-							<td>We performed Cloning in One day: From transformation to isolated plasmids in less than 12 hours!</td>
+							<td class="scrollFade slideInRight" fadeTo="transformIn">We performed Cloning in One day: From transformation to isolated plasmids in less than 12 hours!</td>
 							<td><div class="checkmark"></div></td>
 						</tr>
 						<tr>
-							<td>Low amounts of DNA could be transformed reliably and we successfully demonstrated challenging clonings such as Gibson Assembly with 5 and Aquacloning with 3 fragments as well as 8 part golden-gate reactions</td>
+							<td class="scrollFade slideInRight" fadeTo="transformIn">Low amounts of DNA could be transformed reliably and we successfully demonstrated challenging clonings such as Gibson Assembly with 5 and Aquacloning with 3 fragments as well as 8 part golden-gate reactions</td>
 							<td><div class="checkmark"></div></td>
 						</tr>
 						<tr>
-							<td>We designed and constructed the Marburg Collection, a highly flexible golden-gate based toolbox consisting of 123 parts
+							<td class="scrollFade slideInRight" fadeTo="transformIn">We designed and constructed the Marburg Collection, a highly flexible golden-gate based toolbox consisting of 123 parts
 </td>
 							<td><div class="checkmark"></div></td>
 						</tr>
 						<tr>
-							<td>Dozens of test constructs were built and tested to obtain characterization data for all part categories in our toolbox
+							<td class="scrollFade slideInRight" fadeTo="transformIn">Dozens of test constructs were built and tested to obtain characterization data for all part categories in our toolbox
 </td>
 							<td><div class="checkmark"></div></td>
 						</tr>
 						<tr>
-							<td>This was only possible with our novel experimental and data analysis workflow using platereader measurements
+							<td class="scrollFade slideInRight" fadeTo="transformIn">This was only possible with our novel experimental and data analysis workflow using platereader measurements
 </td>
 							<td><div class="checkmark"></div></td>
 						</tr>
 						<tr>
-							<td>We successfully demonstrated a genome engineering workflow in <i>V. natriegens</i> to establish three new lab strains for diverse applications.
+							<td class="scrollFade slideInRight" fadeTo="transformIn">We successfully demonstrated a genome engineering workflow in <i>V. natriegens</i> to establish three new lab strains for diverse applications.
 </td>
-							<td><div class="checkmark"></div></td>
+							<td class="scrollFade slideInRight" fadeTo="transformIn"><div class="checkmark"></div></td>
 						</tr>
 						<tr>
-							<td>Subsequently, we were able to use Flp/FRT recombinase system for marker recycling thus allowing additional rounds of genomic modifications</td>
+							<td class="scrollFade slideInRight" fadeTo="transformIn">Subsequently, we were able to use Flp/FRT recombinase system for marker recycling thus allowing additional rounds of genomic modifications</td>
 							<td><div class="checkmark"></div></td>
 						</tr>
 						<tr>
-							<td>Chromosomal locations suitable for genomic integration were identified and characterized to detect possible fitness effects </td>
+							<td class="scrollFade slideInRight" fadeTo="transformIn">Chromosomal locations suitable for genomic integration were identified and characterized to detect possible fitness effects </td>
 							<td><div class="checkmark"></div></td>
 						</tr>
 						<tr>
-							<td>We accelerated metabolic engineering by developing a workflow for rapid pathway assembly and pathway optimization in <i>V. natriegens</i></td>
+							<td class="scrollFade slideInRight" fadeTo="transformIn">We accelerated metabolic engineering by developing a workflow for rapid pathway assembly and pathway optimization in <i>V. natriegens</i></td>
 							<td><div class="checkmark"></div></td>
 						</tr>
                                                  <tr>
-							<td>Model-predicted parts were used to construct a pathway for maximal 3-hydroxypropionate production in <i>V. natriegens</i> and we demonstrated its functionality</td>
+							<td class="scrollFade slideInRight" fadeTo="transformIn">Model-predicted parts were used to construct a pathway for maximal 3-hydroxypropionate production in <i>V. natriegens</i> and we demonstrated its functionality</td>
 							<td><div class="checkmark"></div></td>
 						</tr>
                                                  <tr>
-	 						<td>Via mass spectrometry, we detected our pathway product                           3-hydroxypropionic acid in <i>V. natriegens</i>
+	 						<td class="scrollFade slideInRight" fadeTo="transformIn">Via mass spectrometry, we detected our pathway product                           3-hydroxypropionic acid in <i>V. natriegens</i>
 </td>
 							<td><div class="checkmark"></div></td>

Difference between revisions of "Team:Marburg"

Revision as of 22:14, 17 October 2018