Team:ULB-Brussels/Project

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Whether you want to stop a leaking ship's hull, or repair a fractured bone, you need a  strong adhesive. Our project aims at  producing a new generation of glue.  In contrast to most glues, our glue is natural, biodegradable, efficient on wet surfaces and is composed of  polysaccharides naturally produced by  the <i>Caulobacter crescentus</i> bacterium. Using BioBrick<sup>TM</sup> standard biological parts, we  engineered a  synthetic  <i>Escherichia coli</i> strain which  synthesizes this adhesive material. To improve our expression system, we plan to use a new plasmid stabilization technique, the Staby<sup>TM</sup> system. This system stabilizes expression plasmid without using antibiotics, which is of major concern in large-scale production of biological materials.
Whether you want to stop a leaking ship's hull, or repair a fractured bone, you need a  strong adhesive. Our project aims at  producing a new generation of glue.  In contrast to most glues, our glue is natural, biodegradable, efficient on wet surfaces and is composed of  polysaccharides naturally produced by  the <i>Caulobacter crescentus</i> bacterium. Using BioBrick<sup>TM</sup> standard biological parts, we  engineered a  synthetic  <i>Escherichia coli</i> strain which  synthesizes this adhesive material. To improve our expression system, we plan to use a new plasmid stabilization technique, the Staby<sup>TM</sup> system. This system stabilizes expression plasmid without using antibiotics, which is of major concern in large-scale production of biological materials.
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== Introduction ==
 
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Download [[Image:ULB-Report-Introduction.pdf]]
 
== Biological model ==
== Biological model ==

Revision as of 02:29, 22 October 2009

iGEM Team:ULB-Brussels Wiki

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Contents

Abstract

Whether you want to stop a leaking ship's hull, or repair a fractured bone, you need a strong adhesive. Our project aims at producing a new generation of glue. In contrast to most glues, our glue is natural, biodegradable, efficient on wet surfaces and is composed of polysaccharides naturally produced by the Caulobacter crescentus bacterium. Using BioBrickTM standard biological parts, we engineered a synthetic Escherichia coli strain which synthesizes this adhesive material. To improve our expression system, we plan to use a new plasmid stabilization technique, the StabyTM system. This system stabilizes expression plasmid without using antibiotics, which is of major concern in large-scale production of biological materials.


Biological model

Download File:ULB-Report-Model.pdf

Properties

Download File:ULB-Report-Properties.pdf

Mathematical modeling

Download File:ULB-Report-Modeling.pdf

Perspectives

Download File:ULB-Report-Perspectives.pdf

Appendix

Download File:ULB-Report-Appendix.pdf

Bibliography

Download File:ULB-Report-References.pdf