Team:Bielefeld-Germany/Results/Summary
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'''Bisphenol A subproject''': We enabled ''E. coli'' to degrade BPA ''in vivo'' and improved the specific BPA degradation rate by creating a Fd<sub>bisd</sub>:CYP<sub>bisd</sub> fusion protein (BisdA | BisdB), changing the cytochrome P450 electron transport system from a putida-like bacterial class I type to a class V type. | '''Bisphenol A subproject''': We enabled ''E. coli'' to degrade BPA ''in vivo'' and improved the specific BPA degradation rate by creating a Fd<sub>bisd</sub>:CYP<sub>bisd</sub> fusion protein (BisdA | BisdB), changing the cytochrome P450 electron transport system from a putida-like bacterial class I type to a class V type. | ||
- | '''S-layer subproject''': Four different S-layer BioBricks with different lattice structures were created and sent to the partsregistry. The behaviour of these genes when expressed in ''E. coli'' were characterized and purification strategies for the expressed proteins were developed. Two purified fluorescent S-layer fusion proteins from different organisms were immobilized on beads, leading to a highly significant fluorescence enhancement of these beads (p < 10<sup>-14</sup>). | + | '''S-layer subproject''': Four different S-layer BioBricks with different lattice structures were created and sent to the partsregistry. The behaviour of these genes when expressed in ''E. coli'' were characterized and purification strategies for the expressed proteins were developed. Two purified fluorescent S-layer fusion proteins from different organisms were immobilized on beads, leading to a highly significant fluorescence enhancement of these beads (p < 10<sup>-14</sup>). Furthermore regarding the other two S-layers we discovered that while expression with a lipid anchor resulted in an integration into the cellmembrane, the expression with a TAT-sequence resulted in a segregation into the medium. We also detected, that those S-layers seem to stabilize the biologically active conformation of mRFP. |
'''NAD<sup>+</sup> detection''': We were able to utilize NAD<sup>+</sup>-dependent DNA ligase from ''E. coli'' (LigA) for a highly sensitive molecular beacon based bioassay detecting NAD<sup>+</sup> in nano molarity scale. The deadenylated form of LigA could ligate a split target hybridized to a molecular beacon resulting in an increase of fluorescence intensity which was still measurable in presence of 5 nM NAD<sup>+</sup>. Relating to this, the initial velocity displayed a linear dependence on the employed NAD<sup>+</sup> concentrations as long as these remained the limiting factor for DNA ligation. | '''NAD<sup>+</sup> detection''': We were able to utilize NAD<sup>+</sup>-dependent DNA ligase from ''E. coli'' (LigA) for a highly sensitive molecular beacon based bioassay detecting NAD<sup>+</sup> in nano molarity scale. The deadenylated form of LigA could ligate a split target hybridized to a molecular beacon resulting in an increase of fluorescence intensity which was still measurable in presence of 5 nM NAD<sup>+</sup>. Relating to this, the initial velocity displayed a linear dependence on the employed NAD<sup>+</sup> concentrations as long as these remained the limiting factor for DNA ligation. |
Revision as of 02:49, 22 September 2011
Bisphenol A subproject: We enabled E. coli to degrade BPA in vivo and improved the specific BPA degradation rate by creating a Fdbisd:CYPbisd fusion protein (BisdA | BisdB), changing the cytochrome P450 electron transport system from a putida-like bacterial class I type to a class V type.
S-layer subproject: Four different S-layer BioBricks with different lattice structures were created and sent to the partsregistry. The behaviour of these genes when expressed in E. coli were characterized and purification strategies for the expressed proteins were developed. Two purified fluorescent S-layer fusion proteins from different organisms were immobilized on beads, leading to a highly significant fluorescence enhancement of these beads (p < 10-14). Furthermore regarding the other two S-layers we discovered that while expression with a lipid anchor resulted in an integration into the cellmembrane, the expression with a TAT-sequence resulted in a segregation into the medium. We also detected, that those S-layers seem to stabilize the biologically active conformation of mRFP.
NAD+ detection: We were able to utilize NAD+-dependent DNA ligase from E. coli (LigA) for a highly sensitive molecular beacon based bioassay detecting NAD+ in nano molarity scale. The deadenylated form of LigA could ligate a split target hybridized to a molecular beacon resulting in an increase of fluorescence intensity which was still measurable in presence of 5 nM NAD+. Relating to this, the initial velocity displayed a linear dependence on the employed NAD+ concentrations as long as these remained the limiting factor for DNA ligation.