Difference between revisions of "Template:Heidelberg/project/standardization/HRP"
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HRP-mimicking DNAzyme folds into a G-quadruplex and binds hemin into it. Upon binding of the hemin to the G-quadruplex the DNAzyme catalyzes the reduction of H<sub>2</sub>O<sub>2</sub> to H<sub>2</sub>O and a reactive oxygen species and thus result to the activation of a classical HRP substrate like luminol. | HRP-mimicking DNAzyme folds into a G-quadruplex and binds hemin into it. Upon binding of the hemin to the G-quadruplex the DNAzyme catalyzes the reduction of H<sub>2</sub>O<sub>2</sub> to H<sub>2</sub>O and a reactive oxygen species and thus result to the activation of a classical HRP substrate like luminol. | ||
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<h3 class="basicheader"> HRP DNAzyme in the AptaBody </h3> | <h3 class="basicheader"> HRP DNAzyme in the AptaBody </h3> | ||
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Initially we have connected the HRP-mimicking DNAzyme via a linker region to a His-tag aptamer<x-ref>Bartnicki2014</x-ref> (Fig.3). This way we showed that these two parts together with a linker that connects both can be applied to detect different His-tagged proteins from cell lysate on a Western blot. The aptamer part of this construct can easily be exchange by any other aptamer as we could show for p53. We generated an aptamer for p53 and were able to detect p53 with its AptaBody. We have calculated several other aptamers for proteins that need to be tested with our software MAWS. Aptamers generated by our software MAWS can be fused to the versatile HRP DNAzyme to produce a library of AptaBodies. | Initially we have connected the HRP-mimicking DNAzyme via a linker region to a His-tag aptamer<x-ref>Bartnicki2014</x-ref> (Fig.3). This way we showed that these two parts together with a linker that connects both can be applied to detect different His-tagged proteins from cell lysate on a Western blot. The aptamer part of this construct can easily be exchange by any other aptamer as we could show for p53. We generated an aptamer for p53 and were able to detect p53 with its AptaBody. We have calculated several other aptamers for proteins that need to be tested with our software MAWS. Aptamers generated by our software MAWS can be fused to the versatile HRP DNAzyme to produce a library of AptaBodies. |
Revision as of 20:02, 18 September 2015
HRP-mimicking DNAzyme
HRP-mimicking DNAzyme folds into a G-quadruplex and binds hemin into it. Upon binding of the hemin to the G-quadruplex the DNAzyme catalyzes the reduction of H2O2 to H2O and a reactive oxygen species and thus result to the activation of a classical HRP substrate like luminol.
HRP DNAzyme in the AptaBody
Initially we have connected the HRP-mimicking DNAzyme via a linker region to a His-tag aptamer
The transformation of a terminal label into an internal label, one can be achieved by splinted ligation using a DNA template that is complementary to the two RNA templates that are to be connected to each other