Difference between revisions of "Team:Valencia UPV/Achievements"
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<ul><li>Successful assembly of the complete switch device with three different DNA binding domains. </li> | <ul><li>Successful assembly of the complete switch device with three different DNA binding domains. </li> | ||
− | <li>Exploring its functionality in plant leaves by | + | <li>Exploring its functionality in plant leaves by measuring the expression of the luciferase protein</li> |
</ul><br/> | </ul><br/> | ||
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</ul><br/> | </ul><br/> | ||
− | <p style="font-weight:bold">A plant codon usage optimization for BxbI and PhiC31 recombinases and its expression in plants | + | <p style="font-weight:bold">A plant codon usage optimization for BxbI and PhiC31 phage recombinases and its expression in plants |
for GFP visualization</p> | for GFP visualization</p> | ||
− | <ul><li>Designing reporter elements for each recombinase that | + | <ul><li>Designing and assembling reporter elements for each recombinase that allow identification of efficient excision activity. </li> |
− | + | <li>Successful expression and functionality of the reporter device for each recombinase in plant leaves.</li> | |
− | + | ||
− | + | ||
− | + | ||
− | + | ||
</ul><br/> | </ul><br/> | ||
− | <p style="font-weight:bold">A plant capable to express three different | + | <p style="font-weight:bold">A plant capable to express three different recombinant drugs. Results: Drugs</p> |
− | <ul><li>Succesful assembly of each drug with a constitutive plant promoter (P35S). </li> | + | <ul><li>Succesful assembly of each drug coding sequences with a constitutive plant promoter (P35S). </li> |
− | <li> | + | <li>Successful production of each of the three drugs in plant leaves.</li> |
</ul><br/> | </ul><br/> | ||
− | <p style="font-weight:bold"> | + | <p style="font-weight:bold">Transient expression assays to prove the capacity of seedlings from different plant species to be transformed for gene |
expression.</p> | expression.</p> |
Revision as of 23:23, 18 September 2015
Design of a synthetic biological circuit that acts as an eukaryotic decoder able to produce 2N outputs in response to N inputs. Results: Circuit An in silico approach of the biological decoder that has allowed a wide understanding of the
key control elements for a proper functioning of the circuit. Results: Modeling Construction and testing of the key genetic elements composing the synthetic circuit: A Red/Far Red light-inducible switch implementation in N. benthamiana plants. Expression evaluated by using firefly luciferase reporter gene. Results: Red/Far Red light switch A blue light dependant gene expression system, which has been transiently implemented in N.
benthamiana leaf tissues for the production of a gene of interest. Results: Blue light switch A de novo design of a violet/cyan light-dependent toggle switch for expression of a target gene
in plants. A plant codon usage optimization for BxbI and PhiC31 phage recombinases and its expression in plants
for GFP visualization A plant capable to express three different recombinant drugs. Results: Drugs Transient expression assays to prove the capacity of seedlings from different plant species to be transformed for gene
expression. Designed and implemented a portable bioreactor that contains the necessary elements and where
all the process of transformation and product selection happens. Magic lamp Created a virtual laboratory called Synbiocraft , where anyone just with a computer game can
feel the real experience of working in a lab without expending huge amounts of money. There you will be able to recreate
any project ever performed.Medals
Achievements
Future perspectives