Team:Valencia Biocampus/TheSeat
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and suitability for engineering purposes.<br/> | and suitability for engineering purposes.<br/> | ||
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Finally, one technical –yet important- detail: we are not using neither commercial kits nor manual protocols for isolating metagenomic DNA. We are building | Finally, one technical –yet important- detail: we are not using neither commercial kits nor manual protocols for isolating metagenomic DNA. We are building | ||
our own robot… | our own robot… |
Latest revision as of 22:55, 25 August 2014
The Seat of the ST²OOL
By checking how standard, stable, orthogonal or patentable Biobricks are we have performed an analysis of four engineering pillars. But we wanted to combine these pillars, these four legs of our ST2OOL, with a truly synthetic and constructive approach.
In The Seat of the ST2OOL we are developing a functional metagenomic strategy in which we aim at isolating promoter sequences from natural
environments. We will then characterize these sequences in order to select those with the highest stability, standard and orthogonal behaviors. We are
working with soil and compost samples, from which we will isolate total metagenomic DNA, which will then be digested, ligated into an expression vector and
used to built a library in E. coli. Transformants –clones with a promoter-like natural sequence- will be subjected to a range of stresses and
subtransformation steps to find out their stability and standard/orthogonal behavior. To the best of our knowledge, this is the first Synthetic Biology
functional metagenomic approach aiming at selecting biological parts not because of their “strength” but because of their compatibility with other parts
and suitability for engineering purposes.
Finally, one technical –yet important- detail: we are not using neither commercial kits nor manual protocols for isolating metagenomic DNA. We are building our own robot…