From 2014.igem.org
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| + | Our project is to use replicons, self-replicating RNA systems as a novel method of gene silencing, to help treat diseases such as type 2 diabetes, alzheimer's, cancer and many more. In this project we are focusing on treating type 2 diabetes, but in theory our biobrick can be used to help treat a vast number of diseases and can be used for many more purposes than just gene silencing. We are utilizing the well characterized Hepatitis C virus subtype 1b RNA dependent RNA polymerase (RdRp), a protein that effectively copies a strand of mRNA, a polymerase for RNA rather than DNA. <p> |
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- | Our project involves the production of a self-replicating RNA system, utilizing the well characterized Hepatitis C virus subtype 1b RNA dependent RNA polymerase (RdRp). By using a number of different biological components, We wish to develop a system whereby small interfering RNAs (siRNAs) are produced intermittently; without having the need to systematically introduce siRNAs through injectable delievery into patients. As we circumvent the biological flow of information at the level of mRNA, our system overcomes the limitation of gene therapeutic methods which utilize vectors that routinely integrate into the host genome and can downregulate, or activate genes
| + | The main advantages of our method of gene silencing as opposed to conventional gene silencing are that this method is cheaper, it can be performed in situe, and perhaps most importantly is safer, as there is no incorporation into the genome meaning that genes which are not the target of the therapy are not affected. In addition, the gene silencing machinery existing as RNA as opposed to in DNA makes it much more easily accessable, and the addition of certain extra RNA (or alternatively certain biobricks bolted on to our biobrick) could be used to create a feedback mechanism, where the expression of certain genes is regulated. |
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| + | By using a number of different biological components, we wish to develop a system whereby small interfering RNAs (siRNAs) are produced intermittently; without having the need to systematically introduce siRNAs through injectable delivery into patients. As we circumvent the biological flow of information at the level of mRNA, our system overcomes the limitation of gene therapeutic methods which utilize vectors that routinely integrate into the host genome, and can down regulate or activate genes. |
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Revision as of 13:54, 4 August 2014
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Welcome to the official Wiki of the first University of Warwick 2014 iGEM team. Our team consists of members from different disciplines all having a common interest in the area of Synthetic biology coming together to compete, collaborate and contribute!
Small interfering RNAs (siRNAs) represent a diverse family of biological regulators that are able to bind specifically to mRNA and prevent translation. siRNAs have been used in reverse genetics to understand the function of genes in gene knock-out studies. It has become apparent from a clinical viewpoint that siRNAs represent one type of therapeutic against diseases which have abberant gene expression profilessuch as alzheimers and cancer.
siRNAs work through a conserved evolutionariy mechanism, specific to eukaryotes that utilizes the enzyme RNAse type 3 enzyme Dicer, that is able to dice a siRNA
Our project is to use replicons, self-replicating RNA systems as a novel method of gene silencing, to help treat diseases such as type 2 diabetes, alzheimer's, cancer and many more. In this project we are focusing on treating type 2 diabetes, but in theory our biobrick can be used to help treat a vast number of diseases and can be used for many more purposes than just gene silencing. We are utilizing the well characterized Hepatitis C virus subtype 1b RNA dependent RNA polymerase (RdRp), a protein that effectively copies a strand of mRNA, a polymerase for RNA rather than DNA.
The main advantages of our method of gene silencing as opposed to conventional gene silencing are that this method is cheaper, it can be performed in situe, and perhaps most importantly is safer, as there is no incorporation into the genome meaning that genes which are not the target of the therapy are not affected. In addition, the gene silencing machinery existing as RNA as opposed to in DNA makes it much more easily accessable, and the addition of certain extra RNA (or alternatively certain biobricks bolted on to our biobrick) could be used to create a feedback mechanism, where the expression of certain genes is regulated.
By using a number of different biological components, we wish to develop a system whereby small interfering RNAs (siRNAs) are produced intermittently; without having the need to systematically introduce siRNAs through injectable delivery into patients. As we circumvent the biological flow of information at the level of mRNA, our system overcomes the limitation of gene therapeutic methods which utilize vectors that routinely integrate into the host genome, and can down regulate or activate genes.
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