Team:Queens Canada/Side/KillSwitch
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<regulartext>This study inspired us to create an indirect kill switch (as mentioned above) using a mutant worm lacking the gene mrt-2, one of the many genes involved in germline immortality. All of our engineered worms will be mrt-2 mutants and into them we will inject our genetic construct. Given that the germ-line of the mrt-2 mutant has a limited number of generations in which it can reproduce, our created strain is timed for eventual extinction of a span between 2 months and 1 year, with the average being 6.25 months.</regulartext><p> | <regulartext>This study inspired us to create an indirect kill switch (as mentioned above) using a mutant worm lacking the gene mrt-2, one of the many genes involved in germline immortality. All of our engineered worms will be mrt-2 mutants and into them we will inject our genetic construct. Given that the germ-line of the mrt-2 mutant has a limited number of generations in which it can reproduce, our created strain is timed for eventual extinction of a span between 2 months and 1 year, with the average being 6.25 months.</regulartext><p> | ||
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<h3orange> <b>The Knockout Pathway </b> </h3orange><p> | <h3orange> <b>The Knockout Pathway </b> </h3orange><p> | ||
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<regulartext>RNAi knockout is a method of gene regulation where dsRNA is introduced to the worm, binding to gene products such as specific RNAs (mRNA), thereby decreasing or eradicating RNA activity by recycling said products. The RNAi pathway is initiated by the enzyme Dicer which cleaves long dsRNA (double stranded RNA) molecules into short fragments of about 20 nucleotides that are called siRNA (small Interfering RNA). These molecules of siRNA intereact with the RNA-induced silencing complex (RISC) which seeks out strands of RNA complementary to the siRNA and leads to the degredation of the target RNA.</regulartext><p> | <regulartext>RNAi knockout is a method of gene regulation where dsRNA is introduced to the worm, binding to gene products such as specific RNAs (mRNA), thereby decreasing or eradicating RNA activity by recycling said products. The RNAi pathway is initiated by the enzyme Dicer which cleaves long dsRNA (double stranded RNA) molecules into short fragments of about 20 nucleotides that are called siRNA (small Interfering RNA). These molecules of siRNA intereact with the RNA-induced silencing complex (RISC) which seeks out strands of RNA complementary to the siRNA and leads to the degredation of the target RNA.</regulartext><p> | ||
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Latest revision as of 01:23, 29 October 2011
2. Smelick C, Ahmed S. (2005) Achieving immortality in the C. elegans germline. Ageing Research Reviews, 4(1):67-82
3. Telomere Shortening and Damage (2009) (http://www.immortalhumans.com/telomere-shortening-and-damage/)
4. Fire A, Xu S, Montgomery MK, Kostas SA, Driver SE, Mello CC. (1998) Potent and specific genetic interference by double-stranded RNA in Caenorhabditis elegans. Nature, 391(6669):806-11
5. Tabara H, Grishok A, Mello CC. (1998) RNAi in C. elegans: soaking in the genome sequence. Science, 282(5388):430-1
6. Timmons L, Fire A. (1998) Specific interference by ingested dsRNA. Nature, 395(6705):854
7. Timmons L. (2006) Construction of Plasmids for RNA Interference and In Vitro Transcription of Double-Stranded RNA. Methods Mol Biol. 351:109-17.
8. Simmer F, Tijsterman M, Parrish S, Koushika SP, Nonet ML, Fire A, Ahringer J, Plasterk RHA. (2002) Loss of the Putative RNA-Directed RNA Polymerase RRF-3 Makes C. elegans Hypersensitive to RNAi. Current Biology, 12(15): 1317-1319.