Team:Calgary/Project/OurSensor/Reporter/BetaLactamase
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<p><b>Figure 9. </b>Absorbance values at 600nm in different time points. Amounts from 1.0µg to 10µg of TALE A-link-Beta-lactamase (<a href=" http://parts.igem.org/wiki/index.php?title=Part:BBa_K1189031">BBa_K1189031</a >) were sufficient to degrade the ampicillin in the media allowing bacteria susceptible to ampicillin to grow.</a> | <p><b>Figure 9. </b>Absorbance values at 600nm in different time points. Amounts from 1.0µg to 10µg of TALE A-link-Beta-lactamase (<a href=" http://parts.igem.org/wiki/index.php?title=Part:BBa_K1189031">BBa_K1189031</a >) were sufficient to degrade the ampicillin in the media allowing bacteria susceptible to ampicillin to grow.</a> | ||
</figcaption> | </figcaption> | ||
- | <p>After verifying that <a href="http://parts.igem.org/wiki/index.php?title=Part:BBa_K782004">TALE A</a>-linker-beta-lactamase (<a href=" http://parts.igem.org/wiki/index.php?title=Part:BBa_K1189031">BBa_K1189031</a >) retained enzymatic activity and was able to degrade ampicillin, we performed a <a href="https://2013.igem.org/Team:Calgary/Notebook/Protocols/BenzylpenicillianAssay">colourimetric assay</a> using benzylpenicillin as our substrate. We were able to see a colour change from red to yellow. Our negative controls, to which benzylpenicillin was not added, remained red. We can also see the colour change correlate to the amount of purified TALE linked to beta lactamase present in each sample(Figure 10).</p> | + | <p>After verifying that <a href="http://parts.igem.org/wiki/index.php?title=Part:BBa_K782004">TALE A</a>-linker-beta-lactamase (<a href=" http://parts.igem.org/wiki/index.php?title=Part:BBa_K1189031">BBa_K1189031</a >) retained enzymatic activity and was able to degrade ampicillin, we performed a <a href="https://2013.igem.org/Team:Calgary/Notebook/Protocols/BenzylpenicillianAssay">colourimetric assay</a> using benzylpenicillin as our substrate. We were able to see a colour change from red to yellow. Our negative controls, to which benzylpenicillin was not added, remained red. We can also see the colour change correlate to the amount of purified TALE linked to beta lactamase present in each sample (Figure 10).</p> |
<figure> | <figure> | ||
<img src="https://static.igem.org/mediawiki/2013/8/86/YYC2013_Blac_%2B_Penicillium_G.jpg"> | <img src="https://static.igem.org/mediawiki/2013/8/86/YYC2013_Blac_%2B_Penicillium_G.jpg"> |
Revision as of 03:06, 28 September 2013
Beta-Lactamase
Beta-Lactamase
What is Beta-lactamase?
Beta-lactamase (BLA) is an enzyme encoded by the ampicillin resistant gene (ampr) frequently present in plasmids for selection. Structurally, beta-lactamase is a 29-kDa monomeric enzyme (Figure 1). Its enzymatic activity provides resistance to beta-lactam antibiotics such as cephamysin, carbapenems and penicillium through hydrolysis of the β-lactam ring, a structure shared by these antibiotics (Qureshi, 2007).
Many advantages come from working with beta-lactamase. It shows high catalytic efficiency and simple kinetics. Also, no orthologs of BLA are known to be encoded by eukaryotic cells and no toxicity was identified making this protein very useful in studies involved eukaryotes (Qureshi, 2007). Beta-lactamase has been used to track pathogens in infected murine models (Kong et. al, 2010). However, in addition to its application in eukaryotic cells, beta-lactamase efficiently cleaves a wide variety of substrates but its versatility goes beyond that; BLA preserves its activity even when fused to heterologous protein (Moore et. al, 1997). This feature, in particular, makes beta-lactamase a potential tool for assemble of synthetic constructs.
How is Beta-lactamase used as a Reporter?
Beta-lactamase, in the presence of different substrates, can give various outputs. It can produce a fluorogenic output in the presence of a cephalosporin derivative (CCF2/AM) and BLA enzymatic activity can be detected by a fluorometer (Remy et al., 2007).
Besides fluorescence assays, beta-lactamase can also be used to obtain colourimetric outputs by breaking down synthetic compounds such as nitrocefin (Figure 2). The colour change goes from red to yellow (Remy et al., 2007). Colourimetric assays can also be done with benzylpenicillin as the substrate, which, gives a pH output that can be detected with pH indicators to give a colourimetric output (Li et al., 2008).