Team:Heidelberg/Project/miRNA Kit
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==Abstract== | ==Abstract== | ||
==Introduction== | ==Introduction== | ||
- | MicroRNAs (miRNAs) are endogenous 22-nt long non-coding RNAs that regulate gene expression post-transcriptionally in a diversity of organisms (Bartel, 2004). Although the understanding of miRNA biological functions is progressing remarkably, the exact mechanisms by which miRNAs regulate gene expression are still not unambiguously defined. However, it is commonly believed that miRNAs '''trigger target mRNA regulation''' by binding to 3’UTRs (Chekulaeva & Filipowicz, 2009). The discovery of the first miRNA (lin-4) revealed sequence complementarity to multiple conserved sites in the 3’UTR of the lin-14 mRNA (Lee et al., 1993; Wightman et al., 1993). Exact principles of gene expression knockdown mediated by miRNA are still in debate (Eulalio et al., 2008). <br/> '''Binding site properties''' have an essential impact on miRNA-mRNA interaction. Rational design of binding sites could thereby help to achieve a narrow range of knockdown. The applicability is still limited by redundant target sites and various miRNA expression patterns within the cells. This hampers distinct expression levels of the gene of interest (GOI) fused to the miRNA binding site. We want to overcome these limitations with our '''synthetic miRNA Kit'''. | + | MicroRNAs (miRNAs) are endogenous 22-nt long non-coding RNAs that regulate gene expression post-transcriptionally in a diversity of organisms (Bartel, 2004). Although the understanding of miRNA biological functions is progressing remarkably, the exact mechanisms by which miRNAs regulate gene expression are still not unambiguously defined. However, it is commonly believed that miRNAs '''trigger target mRNA regulation''' by binding to 3’UTRs (Chekulaeva & Filipowicz, 2009). The discovery of the first miRNA (lin-4) revealed sequence complementarity to multiple conserved sites in the 3’UTR of the lin-14 mRNA (Lee et al., 1993; Wightman et al., 1993). Exact principles of gene expression knockdown mediated by miRNA are still in debate (Eulalio et al., 2008). |
+ | <br/> | ||
+ | '''Binding site properties''' have an essential impact on miRNA-mRNA interaction. Rational design of binding sites could thereby help to achieve a narrow range of knockdown. The applicability is still limited by redundant target sites and various miRNA expression patterns within the cells. This hampers distinct expression levels of the gene of interest (GOI) fused to the miRNA binding site. We want to overcome these limitations with our '''synthetic miRNA Kit'''. | ||
+ | <br/> | ||
We cannot only benefit by using the above mentioned miRNA properties; additionally, a big part of our project aims at the characterization of binding site sequences. Therefore we also wrote a programm from constructing synthetic miRNA binding sites (miBS designer). Some functionally important parts of miRNAs have been described in literature, such as the seed region. The seed region is defined as a region of seven nucleotides that show perfect pairing between the miRNA and its target sequence. The seed usually consists of the nucleotides 2-8 of a miRNA binding sites in the 5'UTR of the miRNA (Grimson et al., 2007; Bartel, 2009). Based on this simple principle, we randomized our miRNA binding sites between nucleotide 9 - 12 or 9 - 22 or tried rational exchanges of nucleotides to see how they would effect binding of the miRNA to its target mRNA, e. g. replacing one purin base with another versus replacing it with a pyrimidin base. A more detailed description of the different binding sites we characterized can be found in our [https://2010.igem.org/Team:Heidelberg/Project/miMeasure measurements] page. After creating a binding site library and testing the miRNA-binding site interaction in vitro, we were able to compute an in [https://2010.igem.org/Team:Heidelberg/Modeling/miGUI silico model] based on a machine learning approach. | We cannot only benefit by using the above mentioned miRNA properties; additionally, a big part of our project aims at the characterization of binding site sequences. Therefore we also wrote a programm from constructing synthetic miRNA binding sites (miBS designer). Some functionally important parts of miRNAs have been described in literature, such as the seed region. The seed region is defined as a region of seven nucleotides that show perfect pairing between the miRNA and its target sequence. The seed usually consists of the nucleotides 2-8 of a miRNA binding sites in the 5'UTR of the miRNA (Grimson et al., 2007; Bartel, 2009). Based on this simple principle, we randomized our miRNA binding sites between nucleotide 9 - 12 or 9 - 22 or tried rational exchanges of nucleotides to see how they would effect binding of the miRNA to its target mRNA, e. g. replacing one purin base with another versus replacing it with a pyrimidin base. A more detailed description of the different binding sites we characterized can be found in our [https://2010.igem.org/Team:Heidelberg/Project/miMeasure measurements] page. After creating a binding site library and testing the miRNA-binding site interaction in vitro, we were able to compute an in [https://2010.igem.org/Team:Heidelberg/Modeling/miGUI silico model] based on a machine learning approach. | ||
Revision as of 14:16, 25 October 2010
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