Team:UC Davis/Project/Catalyst
From 2012.igem.org
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We are looking to overproduce the LC-Cutinase gene in <i>E. Coli</i> so that we can further characterize its ability to degrade PET. | We are looking to overproduce the LC-Cutinase gene in <i>E. Coli</i> so that we can further characterize its ability to degrade PET. | ||
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- | <br>We decided to use pelB as a leading sequence on the cutinase gene since it has been shown to direct the enzyme to the periplasmic space [1] . Once the enzyme is led towards the membrane, there is a leakage that helps it be secreted into the extracellular matrix [1 | + | <br>We decided to use pelB as a leading sequence on the cutinase gene since it has been shown to direct the enzyme to the periplasmic space [1] . Once the enzyme is led towards the membrane, there is a leakage that helps it be secreted into the extracellular matrix [1]. We hoped that this sequence would help the enzyme be secreted so the PET would more easily be degraded. When we ordered the cutinase sequence, we added pelB to the front of the sequence, in hopes of repeating the secretion shown in previous results. |
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Revision as of 18:47, 8 August 2012
Cutinase
We decided to use pelB as a leading sequence on the cutinase gene since it has been shown to direct the enzyme to the periplasmic space [1] . Once the enzyme is led towards the membrane, there is a leakage that helps it be secreted into the extracellular matrix [1]. We hoped that this sequence would help the enzyme be secreted so the PET would more easily be degraded. When we ordered the cutinase sequence, we added pelB to the front of the sequence, in hopes of repeating the secretion shown in previous results.