Difference between revisions of "Team:Heidelberg/Cytochrome Engineering"
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| − | In general the PREDCEL protocol is followed as described <a href="https://2017.igem.org/Team:Heidelberg/Experiments">PREDCEL Protocol</a>. After the culture is grown to OD600 of 0.6 and the MP is activated by exchanging the initial medium containing glucose (repressing the MP) by medium containing arabinose, an 3 hour inoculation with phages takes place until the phage supernatant is transferred for the first time. After three rounds of passaging, the obtained phage supernatant is used to infect another E.coli strain, ensuring fast propagation of phages without selection pressure over night. Thereby phage wash out can be prevented and a sufficient phage titer can be generated for the inoculation of next PREDCEL culture. This is repeated after the next three rounds of selection are completed (Fig. 4). | + | In general the PREDCEL protocol is followed as described in the <a href="https://2017.igem.org/Team:Heidelberg/Experiments">PREDCEL Protocol</a>. After the culture is grown to OD600 of 0.6 and the MP is activated by exchanging the initial medium containing glucose (repressing the MP) by medium containing arabinose, an 3 hour inoculation with phages takes place until the phage supernatant is transferred for the first time. After three rounds of passaging, the obtained phage supernatant is used to infect another E.coli strain, ensuring fast propagation of phages without selection pressure over night. Thereby phage wash out can be prevented and a sufficient phage titer can be generated for the inoculation of next PREDCEL culture. This is repeated after the next three rounds of selection are completed (Fig. 4). |
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Revision as of 16:03, 1 November 2017
Cytochrome Engineering
Modulating CYP1A2 product specifity
Introduction
Enzymes, i.e. proteins mediating specific, catalytic functions, are amongst the most powerful molecular machines invented by nature. Since decades, humans utilize naturally occurring enzymes as bio detergents (e.g. in washing powderThe engineering of novel enzymes catalyzing reactions that do not or only inefficiently occur in nature holds great promise for biotechnological production of regenerative fuel, biomaterials and novel pharmaceuticals, e.g. based on Organosilicons. However, so far, enzyme engineering has typically been a time-consuming, elaborate, expensive and inefficient process, usually requiring laborious, iterative trial-and-error optimization of engineered candidates
To accelerate the development of novel enzymes, our team harnessed the engineering strategy nature uses: Evolution.
Figue 1: Selection process for improved CYP1A2 variants in directed evolution experiment
The evolutionary circle starts by M13 phages injecting their genome (SP) into bacterial cells, already containing two additional plasmids, AP and MP. The SP encodes CYP1A2 among genes (except geneIII) that are crucial for phage propagation. If through MP activation mutations in the CYP1A2 gene lead to improved CYP1A2 variants the intracellular level of theophylline increases. Theophylline molecules activate the theophylline riboswitch on the AP and thereby enhance geneIII expression. The assembled phages containing the improved CYP1A2 variant can leave the cell and propagate by infecting new cells.
Background
The human Cytochrome CYP1A2 is an example of a heme-dependent-thiolate monooxygenase, member of the P450 superfamily and plays an important role in the metabolism of many structurally unrelated substrates. Primarily the CYP1A2 is located in the endoplasmic reticulum of liver cells. It is of great interest as it is involved in the oxidative metabolism of many commonly used therapeutics and xenobiotics
Figue 2: Chemical structure of caffeine
Caffeine is a substrate of CYP1A2 perera2010caffeine .
Figue 3: Chemical structures of Paraxanthine, Theobromine and Theophylline
By N3 demethylation caffeine is metabolized into these three xanthine derivates by CYP1A2 perera2010caffeine .
Optimized PREDCEL Workflow
In general the PREDCEL protocol is followed as described in the PREDCEL Protocol. After the culture is grown to OD600 of 0.6 and the MP is activated by exchanging the initial medium containing glucose (repressing the MP) by medium containing arabinose, an 3 hour inoculation with phages takes place until the phage supernatant is transferred for the first time. After three rounds of passaging, the obtained phage supernatant is used to infect another E.coli strain, ensuring fast propagation of phages without selection pressure over night. Thereby phage wash out can be prevented and a sufficient phage titer can be generated for the inoculation of next PREDCEL culture. This is repeated after the next three rounds of selection are completed (Fig. 4).
Figue 1: title
gigure x with explanation of plaque assays
