RNA interference technology: from basic science to drug development
RNA Interference (RNAi) technology has rapidly become one of the key methods used in functional genomics. RNAi is used to block the expression of genes and create phenotypes that can potentially yield clues about the function of these genes. In the postgenomic era, the elucidation of the physiologic...
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| Zusammenfassung: | RNA Interference (RNAi) technology has rapidly become one of the key methods used in functional genomics. RNAi is used to block the expression of genes and create phenotypes that can potentially yield clues about the function of these genes. In the postgenomic era, the elucidation of the physiological function of genes has become the rate-limiting step in the quest to develop 'gene-based drugs' and RNAi could potentially play a pivotal role in the validation of such novel drugs. In this 2005 overview, the basic concepts and applications of RNAi biology are discussed. Leading experts from both academia and industry have contributed to this invaluable reference. The volume is forwarded by Andrew Fire, one of the winners of the 2006 Nobel Prize for the discovery of RNA Interference |
| Beschreibung: | Title from publisher's bibliographic system (viewed on 05 Oct 2015) |
| Beschreibung: | 1 online resource (xxxiii, 510 pages) |
| ISBN: | 9780511546402 |
| DOI: | 10.1017/CBO9780511546402 |
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| 505 | 8 | |a Sect. 1. Basic RNAi, siRNA, microRNAs and gene-silencing mechanisms. RNAi beginnings. Overview of the pathway in C. elegans -- Dicer in RNAi: its roles in vivo and utility in vitro -- Genes required for RNA interference -- MicroRNAs: a small contribution from worms -- miRNAs in the brain and the application of RNAi to neurons -- Sect. 2. Design, synthesis of siRNAs. Degign and synthesis of small interfering RNA (siRNA) -- Automated design and high throughput chemical synthesis of siRNA -- Rational design of siRNAs with the Sfold software -- Enzymatic production of small interfering RNAs -- Sect. 3. Vector development and in vivo, in vitro and in ovo delivery methods. Six methods of inducing RNAi in mammalian cells -- Viral delivery of shRNA -- siRNA delivery by lentiviral vectors: design and applications -- Liposomal delivery of siRNAs in mice | |
| 505 | 8 | |a Chemical modifications to achieve increased stability and sensitive detection of siRNA -- RNA interference in postimplantation mouse embryos -- In ovo RNAi opens new possibilities for functional genomics in vertebrates -- Sect. 4. Gene silencing in model organisms. Practical applications of RNAi in C. elegans -- Inducible RNAi as a forward genetic tool in Trypanosoma brucei -- RNA-mediated gene silencing in fission yeast -- RNA silencing in filamentous fungi: Mucor ciccinelloides as a model organism -- RNAi and gene silencing phenomena mediated by viral suppressors in plants | |
| 505 | 8 | |a Sect. 5. Drug target validation. Delivering siRNA in vivo for functional genomics and novel therapeutics -- The role of RNA interference in drug target validation: application to Hepatitis C -- RNAi in the drug discovery process -- RNA interference technology in the discovery and validation of druggable targets -- Sect. 6. Therapeutic and drug development. RNAi-mediated silencing of viral gene expression and replication -- RNAi in drug development: practical considerations -- RNA interference studies in liver failure -- RNAi applications in living animal systems -- Sect. 7. High-throughput genome-wide RNAi analysis. High-throughput RNAi by soaking in Caenorhabtis elegans -- Tools for integrative genomics: genome-wide RNAi and expression profiling in Drosophila -- Microarray analysis and RNA silencing to determine genes functionally important in mesothelioma -- High-throughput RNA interference -- Generation of highly specific vector-based shRNAi libraries directed against the entire human genome | |
| 520 | |a RNA Interference (RNAi) technology has rapidly become one of the key methods used in functional genomics. RNAi is used to block the expression of genes and create phenotypes that can potentially yield clues about the function of these genes. In the postgenomic era, the elucidation of the physiological function of genes has become the rate-limiting step in the quest to develop 'gene-based drugs' and RNAi could potentially play a pivotal role in the validation of such novel drugs. In this 2005 overview, the basic concepts and applications of RNAi biology are discussed. Leading experts from both academia and industry have contributed to this invaluable reference. The volume is forwarded by Andrew Fire, one of the winners of the 2006 Nobel Prize for the discovery of RNA Interference | ||
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Datensatz im Suchindex
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| author2_role | edt |
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| building | Verbundindex |
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| contents | Sect. 1. Basic RNAi, siRNA, microRNAs and gene-silencing mechanisms. RNAi beginnings. Overview of the pathway in C. elegans -- Dicer in RNAi: its roles in vivo and utility in vitro -- Genes required for RNA interference -- MicroRNAs: a small contribution from worms -- miRNAs in the brain and the application of RNAi to neurons -- Sect. 2. Design, synthesis of siRNAs. Degign and synthesis of small interfering RNA (siRNA) -- Automated design and high throughput chemical synthesis of siRNA -- Rational design of siRNAs with the Sfold software -- Enzymatic production of small interfering RNAs -- Sect. 3. Vector development and in vivo, in vitro and in ovo delivery methods. Six methods of inducing RNAi in mammalian cells -- Viral delivery of shRNA -- siRNA delivery by lentiviral vectors: design and applications -- Liposomal delivery of siRNAs in mice Chemical modifications to achieve increased stability and sensitive detection of siRNA -- RNA interference in postimplantation mouse embryos -- In ovo RNAi opens new possibilities for functional genomics in vertebrates -- Sect. 4. Gene silencing in model organisms. Practical applications of RNAi in C. elegans -- Inducible RNAi as a forward genetic tool in Trypanosoma brucei -- RNA-mediated gene silencing in fission yeast -- RNA silencing in filamentous fungi: Mucor ciccinelloides as a model organism -- RNAi and gene silencing phenomena mediated by viral suppressors in plants Sect. 5. Drug target validation. Delivering siRNA in vivo for functional genomics and novel therapeutics -- The role of RNA interference in drug target validation: application to Hepatitis C -- RNAi in the drug discovery process -- RNA interference technology in the discovery and validation of druggable targets -- Sect. 6. Therapeutic and drug development. RNAi-mediated silencing of viral gene expression and replication -- RNAi in drug development: practical considerations -- RNA interference studies in liver failure -- RNAi applications in living animal systems -- Sect. 7. High-throughput genome-wide RNAi analysis. High-throughput RNAi by soaking in Caenorhabtis elegans -- Tools for integrative genomics: genome-wide RNAi and expression profiling in Drosophila -- Microarray analysis and RNA silencing to determine genes functionally important in mesothelioma -- High-throughput RNA interference -- Generation of highly specific vector-based shRNAi libraries directed against the entire human genome |
| ctrlnum | (ZDB-20-CBO)CR9780511546402 (OCoLC)850628876 (DE-599)BVBBV043945079 |
| dewey-full | 572.8/8 |
| dewey-hundreds | 500 - Natural sciences and mathematics |
| dewey-ones | 572 - Biochemistry |
| dewey-raw | 572.8/8 |
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| dewey-sort | 3572.8 18 |
| dewey-tens | 570 - Biology |
| discipline | Biologie |
| doi_str_mv | 10.1017/CBO9780511546402 |
| format | Electronic eBook |
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| illustrated | Not Illustrated |
| indexdate | 2024-07-10T07:39:23Z |
| institution | BVB |
| isbn | 9780511546402 |
| language | English |
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| spelling | RNA interference technology from basic science to drug development edited by Krisharao Appasani Cambridge Cambridge University Press 2004 1 online resource (xxxiii, 510 pages) txt rdacontent c rdamedia cr rdacarrier Title from publisher's bibliographic system (viewed on 05 Oct 2015) Sect. 1. Basic RNAi, siRNA, microRNAs and gene-silencing mechanisms. RNAi beginnings. Overview of the pathway in C. elegans -- Dicer in RNAi: its roles in vivo and utility in vitro -- Genes required for RNA interference -- MicroRNAs: a small contribution from worms -- miRNAs in the brain and the application of RNAi to neurons -- Sect. 2. Design, synthesis of siRNAs. Degign and synthesis of small interfering RNA (siRNA) -- Automated design and high throughput chemical synthesis of siRNA -- Rational design of siRNAs with the Sfold software -- Enzymatic production of small interfering RNAs -- Sect. 3. Vector development and in vivo, in vitro and in ovo delivery methods. Six methods of inducing RNAi in mammalian cells -- Viral delivery of shRNA -- siRNA delivery by lentiviral vectors: design and applications -- Liposomal delivery of siRNAs in mice Chemical modifications to achieve increased stability and sensitive detection of siRNA -- RNA interference in postimplantation mouse embryos -- In ovo RNAi opens new possibilities for functional genomics in vertebrates -- Sect. 4. Gene silencing in model organisms. Practical applications of RNAi in C. elegans -- Inducible RNAi as a forward genetic tool in Trypanosoma brucei -- RNA-mediated gene silencing in fission yeast -- RNA silencing in filamentous fungi: Mucor ciccinelloides as a model organism -- RNAi and gene silencing phenomena mediated by viral suppressors in plants Sect. 5. Drug target validation. Delivering siRNA in vivo for functional genomics and novel therapeutics -- The role of RNA interference in drug target validation: application to Hepatitis C -- RNAi in the drug discovery process -- RNA interference technology in the discovery and validation of druggable targets -- Sect. 6. Therapeutic and drug development. RNAi-mediated silencing of viral gene expression and replication -- RNAi in drug development: practical considerations -- RNA interference studies in liver failure -- RNAi applications in living animal systems -- Sect. 7. High-throughput genome-wide RNAi analysis. High-throughput RNAi by soaking in Caenorhabtis elegans -- Tools for integrative genomics: genome-wide RNAi and expression profiling in Drosophila -- Microarray analysis and RNA silencing to determine genes functionally important in mesothelioma -- High-throughput RNA interference -- Generation of highly specific vector-based shRNAi libraries directed against the entire human genome RNA Interference (RNAi) technology has rapidly become one of the key methods used in functional genomics. RNAi is used to block the expression of genes and create phenotypes that can potentially yield clues about the function of these genes. In the postgenomic era, the elucidation of the physiological function of genes has become the rate-limiting step in the quest to develop 'gene-based drugs' and RNAi could potentially play a pivotal role in the validation of such novel drugs. In this 2005 overview, the basic concepts and applications of RNAi biology are discussed. Leading experts from both academia and industry have contributed to this invaluable reference. The volume is forwarded by Andrew Fire, one of the winners of the 2006 Nobel Prize for the discovery of RNA Interference Small interfering RNA. Gene silencing RNS-Interferenz (DE-588)4802706-6 gnd rswk-swf Geninaktivierung (DE-588)4820638-6 gnd rswk-swf RNS-Interferenz (DE-588)4802706-6 s Geninaktivierung (DE-588)4820638-6 s 1\p DE-604 Appasani, Krishnarao 1959- edt Erscheint auch als Druckausgabe 978-0-521-20517-7 Erscheint auch als Druckausgabe 978-0-521-83677-7 https://doi.org/10.1017/CBO9780511546402 Verlag URL des Erstveröffentlichers Volltext 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk |
| spellingShingle | RNA interference technology from basic science to drug development Sect. 1. Basic RNAi, siRNA, microRNAs and gene-silencing mechanisms. RNAi beginnings. Overview of the pathway in C. elegans -- Dicer in RNAi: its roles in vivo and utility in vitro -- Genes required for RNA interference -- MicroRNAs: a small contribution from worms -- miRNAs in the brain and the application of RNAi to neurons -- Sect. 2. Design, synthesis of siRNAs. Degign and synthesis of small interfering RNA (siRNA) -- Automated design and high throughput chemical synthesis of siRNA -- Rational design of siRNAs with the Sfold software -- Enzymatic production of small interfering RNAs -- Sect. 3. Vector development and in vivo, in vitro and in ovo delivery methods. Six methods of inducing RNAi in mammalian cells -- Viral delivery of shRNA -- siRNA delivery by lentiviral vectors: design and applications -- Liposomal delivery of siRNAs in mice Chemical modifications to achieve increased stability and sensitive detection of siRNA -- RNA interference in postimplantation mouse embryos -- In ovo RNAi opens new possibilities for functional genomics in vertebrates -- Sect. 4. Gene silencing in model organisms. Practical applications of RNAi in C. elegans -- Inducible RNAi as a forward genetic tool in Trypanosoma brucei -- RNA-mediated gene silencing in fission yeast -- RNA silencing in filamentous fungi: Mucor ciccinelloides as a model organism -- RNAi and gene silencing phenomena mediated by viral suppressors in plants Sect. 5. Drug target validation. Delivering siRNA in vivo for functional genomics and novel therapeutics -- The role of RNA interference in drug target validation: application to Hepatitis C -- RNAi in the drug discovery process -- RNA interference technology in the discovery and validation of druggable targets -- Sect. 6. Therapeutic and drug development. RNAi-mediated silencing of viral gene expression and replication -- RNAi in drug development: practical considerations -- RNA interference studies in liver failure -- RNAi applications in living animal systems -- Sect. 7. High-throughput genome-wide RNAi analysis. High-throughput RNAi by soaking in Caenorhabtis elegans -- Tools for integrative genomics: genome-wide RNAi and expression profiling in Drosophila -- Microarray analysis and RNA silencing to determine genes functionally important in mesothelioma -- High-throughput RNA interference -- Generation of highly specific vector-based shRNAi libraries directed against the entire human genome Small interfering RNA. Gene silencing RNS-Interferenz (DE-588)4802706-6 gnd Geninaktivierung (DE-588)4820638-6 gnd |
| subject_GND | (DE-588)4802706-6 (DE-588)4820638-6 |
| title | RNA interference technology from basic science to drug development |
| title_auth | RNA interference technology from basic science to drug development |
| title_exact_search | RNA interference technology from basic science to drug development |
| title_full | RNA interference technology from basic science to drug development edited by Krisharao Appasani |
| title_fullStr | RNA interference technology from basic science to drug development edited by Krisharao Appasani |
| title_full_unstemmed | RNA interference technology from basic science to drug development edited by Krisharao Appasani |
| title_short | RNA interference technology |
| title_sort | rna interference technology from basic science to drug development |
| title_sub | from basic science to drug development |
| topic | Small interfering RNA. Gene silencing RNS-Interferenz (DE-588)4802706-6 gnd Geninaktivierung (DE-588)4820638-6 gnd |
| topic_facet | Small interfering RNA. Gene silencing RNS-Interferenz Geninaktivierung |
| url | https://doi.org/10.1017/CBO9780511546402 |
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