Team:BIT/project biosensors

From 2013.igem.org

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      <td class="t2">&nbsp;&nbsp;&nbsp;&nbsp;Beta-Lactam antibiotics have become less effective for the treatment of staphylococcal infections as a result of the bacteria's resistance to Beta-Lactam increases sharply during the past few years. Researches have shown that the resistance is mediated by beta-lactamase (encoded by <i>blaZ</i>) that hydrolyzes penicillin whose transcription is regulated by related regulators (encoded by <i>blaI</i>). The purified repressor(<i>BlaI</i>) of beta-lactamase production has been shown to bind specifically to two regions of dyad symmetry, known as operators, which are located between the divergently transcribed beta-lactamase structural gene(<i>blaZ</i>) and the gene(<i>blaR1</i>) encoding the putative transmembrane sensor protein.<br/>
      <td class="t2">&nbsp;&nbsp;&nbsp;&nbsp;Beta-Lactam antibiotics have become less effective for the treatment of staphylococcal infections as a result of the bacteria's resistance to Beta-Lactam increases sharply during the past few years. Researches have shown that the resistance is mediated by beta-lactamase (encoded by <i>blaZ</i>) that hydrolyzes penicillin whose transcription is regulated by related regulators (encoded by <i>blaI</i>). The purified repressor(<i>BlaI</i>) of beta-lactamase production has been shown to bind specifically to two regions of dyad symmetry, known as operators, which are located between the divergently transcribed beta-lactamase structural gene(<i>blaZ</i>) and the gene(<i>blaR1</i>) encoding the putative transmembrane sensor protein.<br/>
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           &nbsp;&nbsp;&nbsp;&nbsp;The <i>bla</i> operon has been found that is induced by beta-lactam.<br>
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           &nbsp;&nbsp;&nbsp;&nbsp;The <i>bla</i> operon has been found that is induced by beta-lactam.</td>
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           &nbsp;&nbsp;&nbsp;&nbsp;Hypothesis identified bla as a beta-lactam-sensing operon of beta-lactamase expression, so we designed two devices working in E.coli (DH5α) to build the beta-lactam biosensor.<br>
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            <td class="t3"><img src="https://static.igem.org/mediawiki/2013/f/f9/BITbeta-lactam_device.jpg" width="605" height="340">
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      <td class="t2">&nbsp;&nbsp;&nbsp;&nbsp;Hypothesis identified bla as a beta-lactam-sensing operon of beta-lactamase expression, so we designed two devices working in E.coli (DH5α) to build the beta-lactam biosensor.<br>
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      <td class="t2">&nbsp;&nbsp;&nbsp;&nbsp;We prepared a series of bera-lactam solution of which the concentration was respectively 0μg/mL, 10μg/mL, 20μg/mL, 30μg/mL, 5μg/mL, 100μg/mL and 200μg/mL, then we add the solution to the bacteria liquid with BBa_K1058009 of which the OD is around 0.2~0.3 with the ratio of 1:1000 respectively, and the concentration of beta-lactam in the environment of the engineering E.coli in 8 different tubes is respectively 0ng/mL, 10ng/mL, 20ng/mL, 30ng/mL, 5ng/mL, 100ng/mL and 200ng/mL. The samples were taken to two 96-well plates once per hour or once per 30 minutes. The intensity of green fluorescence was tested with a fluorescence microplate reader. The results are as follows.
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      <td class="t2">&nbsp;&nbsp;&nbsp;&nbsp;We prepared a series of bera-lactam solution of which the concentration was respectively 0 μg/mL, 10 μg/mL, 20 μg/mL, 30 μg/mL, 5 μg/mL, 100 μg/mL and 200 μg/mL, then we add the solution to the bacteria liquid with BBa_K1058009 of which the OD is around 0.2~0.3 with the ratio of 1:1000 respectively, and the concentration of beta-lactam in the environment of the engineering E.coli in 8 different tubes is respectively 0 ng/mL, 10 ng/mL, 20 ng/mL, 30 ng/mL, 5 ng/mL, 100 ng/mL and 200 ng/mL. The samples were taken to two 96-well plates once per hour or once per 30 minutes. The intensity of green fluorescence was tested with a fluorescence microplate reader. The results are as follows.
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      <td class="t2">&nbsp;&nbsp;&nbsp;&nbsp;A series of tetracycline solution of different concentration was prepared, then we add the solution to the bacteria liquid with tet sensor of which the OD is around 0.2~0.3 with the ratio of 1:1000 respectively, and then add milk into the mixture with the ratio of 1:9. The samples were taken to two 96-well plates once per hour or once per 30 minutes. The intensity of green fluorescence was tested with a fluorescence microplate reader. The results are as follows. We can tell that the maximum of the fluorescence intensity is at the concentration of 15~20ng/mL.<br>
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      <td class="t2">&nbsp;&nbsp;&nbsp;&nbsp;A series of tetracycline solution of different concentration was prepared, then we add the solution to the bacteria liquid with tet sensor of which the OD is around 0.2~0.3 with the ratio of 1:1000 respectively, and then add milk into the mixture with the ratio of 1:9. The samples were taken to two 96-well plates once per hour or once per 30 minutes. The intensity of green fluorescence was tested with a fluorescence microplate reader. The results are as follows. We can tell that the maximum of the fluorescence intensity is at the concentration of 15~20 ng/mL.<br>
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      <td class="t2">&nbsp;&nbsp;&nbsp;&nbsp;Genes conferring  resistance to chromate have been found in Pseudomonas spp., Streptococcus  lactis, Ochrobactrumtritici 5bvl1 and Cupriavidusmetallidurans. The  7,189-bp-long TnOtChr of Ochrobactrumtritici 5bvl1 contains a group of chrB, chrA, chrC, and chrF genes situated between divergently transcribed resolvase  and transposase genes.
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      <td class="t2">&nbsp;&nbsp;&nbsp;&nbsp;Genes conferring  resistance to chromate have been found in Pseudomonas spp., Streptococcus  lactis, Ochrobactrumtritici 5bvl1 and Cupriavidusmetallidurans. The  7,189-bp-long TnOtChr of Ochrobactrumtritici 5bvl1 contains a group of <i>chrB</i>, <i>chrA</i>, <i>chrC</i>, and <i>chrF</i> genes situated between divergently transcribed resolvase  and transposase genes.
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    <td class="t2">&nbsp;&nbsp;&nbsp;&nbsp;The chr promoter was strongly induced by chromate or dichromate, but it was completely unresponsive to Cr(III), oxidants, sulfate, or other oxyanions. Plasmid reporter experiments identified ChrB as a chromate-sensing regulator of chr expression. According to this evidence, we designed three kinds of devices working in E.coli (DH5α) to build Cr(VI)-biosensor.
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    <td class="t2">&nbsp;&nbsp;&nbsp;&nbsp;The chr promoter was strongly induced by chromate or dichromate, but it was completely unresponsive to Cr(III), oxidants, sulfate, or other oxyanions. Plasmid reporter experiments identified <i>ChrB</i> as a chromate-sensing regulator of <i>chr</i> expression. According to this evidence, we designed three kinds of devices working in E.coli (DH5α) to build Cr(VI)-biosensor.
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