Journal of Visualized Experiments www.jove.com Video Article RNA Interference in Ticks
Ticks are obligate hematophagous ectoparasites of wild and domestic animals and humans, and are considered to be second worldwide to mosquitoes as vectors of human diseases 1 and the most important vectors affecting cattle industry worldwide 2. Ticks are classified in the subclass Acari, order Paras...
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ftciteseerx:oai:CiteSeerX.psu:10.1.1.289.2280 2023-05-15T15:11:47+02:00 Journal of Visualized Experiments www.jove.com Video Article RNA Interference in Ticks Katherine M. Kocan Edmour Blouin José De La Fuente The Pennsylvania State University CiteSeerX Archives application/zip http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.289.2280 en eng http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.289.2280 Metadata may be used without restrictions as long as the oai identifier remains attached to it. ftp://ftp.ncbi.nlm.nih.gov/pub/pmc/1b/75/J_Vis_Exp_2011_Jan_20_(47)_2474.tar.gz text ftciteseerx 2016-01-07T21:26:18Z Ticks are obligate hematophagous ectoparasites of wild and domestic animals and humans, and are considered to be second worldwide to mosquitoes as vectors of human diseases 1 and the most important vectors affecting cattle industry worldwide 2. Ticks are classified in the subclass Acari, order Parasitiformes, suborder Ixodida and are distributed worldwide from Arctic to tropical regions 3. Despite efforts to control tick infestations, these ectoparasites remain a serious problem for human and animal health 4,5. RNA interference (RNAi) 6 is a nucleic acid-based reverse genetic approach that involves disruption of gene expression in order to determine gene function or its effect on a metabolic pathway. Small interfering RNAs (siRNAs) are the effector molecules of the RNAi pathway that is initiated by double-stranded RNA (dsRNA) and results in a potent sequence-specific degradation of cytoplasmic mRNAs containing the same sequence as the dsRNA trigger 7-9. Post-transcriptional gene silencing mechanisms initiated by dsRNA have been discovered in all eukaryotes studied thus far, and RNAi has been rapidly developed in a variety of organisms as a tool for functional genomics studies and other applications 10. RNAi has become the most widely used gene-silencing technique in ticks and other organisms where alternative approaches for genetic manipulation are not available or are unreliable 5,11. The genetic characterization of ticks has been limited until the recent application of RNAi 12,13. In the short time that RNAi has been available, it has proved to be a valuable tool for studying tick gene function, the characterization of the tick-pathogen interface and the screening and characterization of tick protective antigens 14. Herein, a method for RNAi through injection of Text Arctic Unknown Arctic |
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Ticks are obligate hematophagous ectoparasites of wild and domestic animals and humans, and are considered to be second worldwide to mosquitoes as vectors of human diseases 1 and the most important vectors affecting cattle industry worldwide 2. Ticks are classified in the subclass Acari, order Parasitiformes, suborder Ixodida and are distributed worldwide from Arctic to tropical regions 3. Despite efforts to control tick infestations, these ectoparasites remain a serious problem for human and animal health 4,5. RNA interference (RNAi) 6 is a nucleic acid-based reverse genetic approach that involves disruption of gene expression in order to determine gene function or its effect on a metabolic pathway. Small interfering RNAs (siRNAs) are the effector molecules of the RNAi pathway that is initiated by double-stranded RNA (dsRNA) and results in a potent sequence-specific degradation of cytoplasmic mRNAs containing the same sequence as the dsRNA trigger 7-9. Post-transcriptional gene silencing mechanisms initiated by dsRNA have been discovered in all eukaryotes studied thus far, and RNAi has been rapidly developed in a variety of organisms as a tool for functional genomics studies and other applications 10. RNAi has become the most widely used gene-silencing technique in ticks and other organisms where alternative approaches for genetic manipulation are not available or are unreliable 5,11. The genetic characterization of ticks has been limited until the recent application of RNAi 12,13. In the short time that RNAi has been available, it has proved to be a valuable tool for studying tick gene function, the characterization of the tick-pathogen interface and the screening and characterization of tick protective antigens 14. Herein, a method for RNAi through injection of |
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Katherine M. Kocan Edmour Blouin José De La Fuente |
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Katherine M. Kocan Edmour Blouin José De La Fuente Journal of Visualized Experiments www.jove.com Video Article RNA Interference in Ticks |
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Katherine M. Kocan Edmour Blouin José De La Fuente |
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Katherine M. Kocan |
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Journal of Visualized Experiments www.jove.com Video Article RNA Interference in Ticks |
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Journal of Visualized Experiments www.jove.com Video Article RNA Interference in Ticks |
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Journal of Visualized Experiments www.jove.com Video Article RNA Interference in Ticks |
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Journal of Visualized Experiments www.jove.com Video Article RNA Interference in Ticks |
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Journal of Visualized Experiments www.jove.com Video Article RNA Interference in Ticks |
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journal of visualized experiments www.jove.com video article rna interference in ticks |
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