Rice Protocols / Yinong Yang / Buch / Methods in Molecular Biology / HC runder Rücken kaschiert / Englisch / 2012 / Humana Press / EAN 9781627031936 - copertina rigida, flessible
2012, ISBN: 9781627031936
[ED: Gebunden], [PU: Humana Press], Features cutting-edge core techniques and approaches currently used to study rice molecular biology and functional genomicsIncludes detailed step-by-st… Altro …
[ED: Gebunden], [PU: Humana Press], Features cutting-edge core techniques and approaches currently used to study rice molecular biology and functional genomicsIncludes detailed step-by-step protocols that are ready for the labProvides expert tips and key implementation advice to ensure successful resultsWith the completion of a finished rice genome sequence, increasing efforts have focused on functional characterization of rice genes, elucidation of the underlying mechanisms involved in major agronomic traits (e.g., high yield, grain quality, abiotic stress tolerance, and disease resistance), and the subsequent translation of genomic knowledge into agricultural productivity via molecular breeding and improved cultural practice. To meet increasing interest in this field, Rice Protocols has been compiled to provide a series of core techniques and approaches commonly used in studying rice molecular biology and functional genomics. These approaches include genetic and molecular techniques such as artificial hybridization, fluorescence in situ hybridization, generation and characterization of chemical and T-DNA insertional mutants, quantitative trait loci (QTLs) analysis and map-based cloning, site-specific transgene integration, and artificial microRNA-mediated gene silencing, along with a variety of "omics" techniques. Written in the highly successful Methods in Molecular Biology? series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls.Authoritative and easy to use, Rice Protocols will prove useful for both beginners and experienced researchers whether they are molecular biologists who want to study rice plants or rice researchers who are interested in learning molecular techniques.1. Rice Artificial Hybridization for Genetic AnalysisXueyan Sha2. Fluorescence In Situ Hybridization Techniques for Cytogenetic and Genomic AnalysesJason G. Walling, Wenli Zhang, and Jiming Jiang3. Generation of Rice Mutants by Chemical MutagenesisThomas H. Tai4. TILLING and Ecotilling for RiceJennifer L. Cooper, Steven Henikoff, Luca Comai, and Bradley J. Till5. Functional Characterization of Rice Genes Using a Gene-Indexed T-DNA Insertional Mutant PopulationKi-Hong Jung and Gynheung An6. QTL Analysis and Map-Based Cloning of Salt Tolerance Gene in RiceJi-Ping Gao and Hong-Xuan Lin7. Site-Specific Gene Integration in RiceVibha Srivastava8. Transcriptome Profiling Analysis Using Rice Oligonucleotide MicroarraysKi-Hong Jung and Pamela C. Ronald9. Cloning of Small RNAs for the Discovery of Novel MicroRNAs in RiceGuru Jagadeeswaran and Ramanjulu Sunkar10. Global Identification of Small RNA Targets in Rice by Sequencing Sliced Ends of Messenger RNAsYong-Fang Li and Ramanjulu Sunkar11. Artificial MicroRNAs for Specific Gene Silencing in RiceNorman Warthmann, Stephan Ossowski, Rebecca Schwab, and Detlef Weigel12. Rice Proteomic Analysis: Sample Preparation to Protein IdentificationGanesh Kumar Agrawal, Nam-Soo Jwa, Young-Ho Jung, Sun Tae Kim, Dea-Wook Kim, Kyoungwon Cho, Junko Shibato, and Randeep Rakwal13. Quantification of Jasmonic and Salicylic Acids in Rice Seedling LeavesKyoungwon Cho, Oksoo Han, Shigeru Tamogami, Junko Shibato, Akihiro Kubo, Ganesh Kumar Agrawal, and Randeep Rakwal14. Analysis of Insect-Induced Volatiles from RiceNan Zhao, Xiaofeng Zhuang, Gitika Shrivastava, and Feng Chen15. Phenotypic and Physiological Evaluation for Drought and Salinity Stress Responses in RiceUtlwang Batlang, Niranjan Baisakh, Madana M.R. Ambavaram, and Andy Pereira16. Phenotypic, Physiological, and Molecular Evaluation of Rice Chilling Stress Response at the Vegetative StageBenildo G. de los Reyes, Song Joong Yun, Venura Herath, Fuyu Xu, Myoung Ryoul Park, Jeong Il Lee, and Ki Young Kim17. Analysis of Rice Root Hair Morphology Using Cryo-Scanning Electron MicroscopyZhiming Yu, Hanmin Chen, Yanli Tong, and Ping Wu18. Inoculation and Virulence Assay for Bacterial Blight and Bacterial Leaf Streak of RiceBing Yang and Adam Bogdanove19. Inoculation and Scoring Methods for Rice Sheath Blight DiseaseYulin Jia, Guangjie Liu, Dong-Soo Park, and Yinong Yang20. Molecular Approaches to Improve Rice Abiotic Stress ToleranceJunya Mizoi and Kazuko Yamaguchi-Shinozaki21. Molecular Strategies to Improve Rice Disease ResistanceEmily E. Helliwell and Yinong Yang22. Molecular Strategies to Engineer Transgenic Rice Seed Compartments for Large-Scale Production of Plant-Made PharmaceuticalsTrevor Greenham and Illimar AltosaarAppendix: Genomic and Bioinformatic Resources for Rice ResearchWenhua Liu, Kabin Xie, and Yinong YangVibha SrivastavaThis Methods in Molecular Biology(TM) book offers core techniques and approaches commonly used in studying rice molecular biology and functional genomics. Includes protocols, materials lists, troubleshooting tips and advice on avoiding common pitfalls.With the completion of a finished rice genome sequence, increasing efforts have focused on functional characterization of rice genes, elucidation of the underlying mechanisms involved in major agronomic traits (e.g., high yield, grain quality, abiotic stress tolerance, and disease resistance), and the subsequent translation of genomic knowledge into agricultural productivity via molecular breeding and improved cultural practice. To meet increasing interest in this field, Rice Protocols has been compiled to provide a series of core techniques and approaches commonly used in studying rice molecular biology and functional genomics. These approaches include genetic and molecular techniques such as artificial hybridization, fluorescence in situ hybridization, generation and characterization of chemical and T-DNA insertional mutants, quantitative trait loci (QTLs) analysis and map-based cloning, site-specific transgene integration, and artificial microRNA-mediated gene silencing, along with a variety of "omics" techniques. Written in the highly successful Methods in Molecular Biology(TM) series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls.Authoritative and easy to use, Rice Protocols will prove useful for both beginners and experienced researchers whether they are molecular biologists who want to study rice plants or rice researchers who are interested in learning molecular techniques.1. Rice Artificial Hybridization for Genetic AnalysisXueyan Sha2. Fluorescence In Situ Hybridization Techniques for Cytogenetic and Genomic AnalysesJason G. Walling, Wenli Zhang, and Jiming Jiang3. Generation of Rice Mutants by Chemical MutagenesisThomas H. Tai4. TILLING and Ecotilling for RiceJennifer L. Cooper, Steven Henikoff, Luca Comai, and Bradley J. Till5. Functional Characterization of Rice Genes Using a Gene-Indexed T-DNA Insertional Mutant PopulationKi-Hong Jung and Gynheung An6. QTL Analysis and Map-Based Cloning of Salt Tolerance Gene in RiceJi-Ping Gao and Hong-Xuan Lin7. Site-Specific Gene Integration in RiceVibha Srivastava8. Transcriptome Profiling Analysis Using Rice Oligonucleotide MicroarraysKi-Hong Jung and Pamela C. Ronald9. Cloning of Small RNAs for the Discovery of Novel MicroRNAs in RiceGuru Jagadeeswaran and Ramanjulu Sunkar10. Global Identification of Small RNA Targets in Rice by Sequencing Sliced Ends of Messenger RNAsYong-Fang Li and Ramanjulu Sunkar11. Artificial MicroRNAs for Specific Gene Silencing in RiceNorman Warthmann, Stephan Ossowski, Rebecca Schwab, and Detlef Weigel12. Rice Proteomic Analysis: Sample Preparation to Protein IdentificationGanesh Kumar Agrawal, Nam-Soo Jwa, Young-Ho Jung, Sun Tae Kim, Dea-Wook Kim, Kyoungwon Cho, Junko Shibato, and Randeep Rakwal13. Quantification of Jasmonic and Salicylic Acids in Rice Seedling LeavesKyoungwon Cho, Oksoo Han, Shigeru Tamogami, Junko Shibato, Akihiro Kubo, Ganesh Kumar Agrawal, and Randeep Rakwal14. Analysis of Insect-Induced Volatiles from RiceNan Zhao, Xiaofeng Zhuang, Gitika Shrivastava, and Feng Chen15. Phenotypic and Physiological Evaluation for Drought and Salinity Stress Responses in RiceUtlwang Batlang, Niranjan Baisakh, Madana M.R. Ambavaram, and Andy Pereira16. Phenotypic, Physiological, and Molecular Evaluation of Rice Chilling Stress Response at the Vegetative StageBenildo G. de los Reyes, Song Joong Yun, Venura Herath, Fuyu Xu, Myoung Ryoul Park, Jeong Il Lee, and Ki Young Kim17. Analysis of Rice Root Hair Morphology Using Cryo-Scanning Electron MicroscopyZhiming Yu, Hanmin Chen, Yanli Tong, and Ping Wu18. Inoculation and Virulence Assay for Bacterial Blight and Bacterial Leaf Streak of RiceBing Yang and Adam Bogdanove19. Inoculation and Scoring Methods for Rice Sheath Blight DiseaseYulin Jia, Guangjie Liu, Dong-Soo Park, and Yinong Yang20. Molecular Approaches to Improve Rice Abiotic Stress ToleranceJunya Mizoi and Kazuko Yamaguchi-Shinozaki21. Molecular Strategies to Improve Rice Disease ResistanceEmily E. Helliwell and Yinong Yang22. Molecular Strategies to Engineer Transgenic Rice Seed Compartments for Large-Scale Production of Plant-Made PharmaceuticalsTrevor Greenham and Illimar AltosaarAppendix: Genomic and Bioinformatic Resources for Rice ResearchWenhua Liu, Kabin Xie, and Yinong YangVibha SrivastavaInhaltsverzeichnis1. Rice Artificial Hybridization for Genetic AnalysisXueyan Sha2. Fluorescence In Situ Hybridization Techniques for Cytogenetic and Genomic AnalysesJason G. Walling, Wenli Zhang, and Jiming Jiang3. Generation of Rice Mutants by Chemical MutagenesisThomas H. Tai4. TILLING and Ecotilling for RiceJennifer L. Cooper, Steven Henikoff, Luca Comai, and Bradley J. Till5. Functional Characterization of Rice Genes Using a Gene-Indexed T-DNA Insertional Mutant PopulationKi-Hong Jung and Gynheung An6. QTL Analysis and Map-Based Cloning of Salt Tolerance Gene in RiceJi-Ping Gao and Hong-Xuan Lin7. Site-Specific Gene Integration in RiceVibha Srivastava8. Transcriptome Profiling Analysis Using Rice Oligonucleotide MicroarraysKi-Hong Jung and Pamela C. Ronald9. Cloning of Small RNAs for the Discovery of Novel MicroRNAs in RiceGuru Jagadeeswaran and Ramanjulu Sunkar10. Global Identification of Small RNA Targets in Rice by Sequencing Sliced Ends of Messenger RNAsYong-Fang Li and Ramanjulu Sunkar11. Artificial MicroRNAs for Specific Gene Silencing in RiceNorman Warthmann, Stephan Ossowski, Rebecca Schwab, and Detlef Weigel12. Rice Proteomic Analysis: Sample Preparation to Protein IdentificationGanesh Kumar Agrawal, Nam-Soo Jwa, Young-Ho Jung, Sun Tae Kim, Dea-Wook Kim, Kyoungwon Cho, Junko Shibato, and Randeep Rakwal13. Quantification of Jasmonic and Salicylic Acids in Rice Seedling LeavesKyoungwon Cho, Oksoo Han, Shigeru Tamogami, Junko Shibato, Akihiro Kubo, Ganesh Kumar Agrawal, and Randeep Rakwal14. Analysis of Insect-Induced Volatiles from RiceNan Zhao, Xiaofeng Zhuang, Gitika Shrivastava, and Feng Chen15. Phenotypic and Physiological Evaluation for Drought and Salinity Stress Responses in RiceUtlwang Batlang, Niranjan Baisakh, Madana M.R. Ambavaram, and Andy Pereira16. Phenotypic, Physiological, and Molecular Evaluation of Rice Chilling Stress Response at the Vegetative StageBenildo G. de los Reyes, Song Joong Yun, Venura Herath, Fuyu Xu, Myoung Ryoul Park, Jeong Il Lee, and Ki Young Kim17. Analysis of Rice Root Hair Morphology Using Cryo-Scanning Electron MicroscopyZhiming Yu, Hanmin Chen, Yanli Tong, and Ping Wu18. Inoculation and Virulence Assay for Bacterial Blight and Bacterial Leaf Streak of RiceBing Yang and Adam Bogdanove19. Inoculation and Scoring Methods for Rice Sheath Blight DiseaseYulin Jia, Guangjie Liu, Dong-Soo Park, and Yinong Yang20. Molecular Approaches to Improve Rice Abiotic Stress ToleranceJunya Mizoi and Kazuko Yamaguchi-Shinozaki21. Molecular Strategies to Improve Rice Disease ResistanceEmily E. Helliwell and Yinong Yang22. M, DE, [SC: 0.00], Neuware, gewerbliches Angebot, 348, [GW: 852g], 2013, Banküberweisung, PayPal, Sofortüberweisung<
booklooker.de |
Rice Protocols Yinong Yang Buch Methods in Molecular Biology HC runder Rücken kaschiert Englisch 2012 Humana Press EAN 9781627031936 - copertina rigida, flessible
2012, ISBN: 9781627031936
[ED: Gebunden], [PU: Humana Press], Features cutting-edge core techniques and approaches currently used to study rice molecular biology and functional genomicsIncludes detailed step-by-st… Altro …
[ED: Gebunden], [PU: Humana Press], Features cutting-edge core techniques and approaches currently used to study rice molecular biology and functional genomicsIncludes detailed step-by-step protocols that are ready for the labProvides expert tips and key implementation advice to ensure successful resultsWith the completion of a finished rice genome sequence, increasing efforts have focused on functional characterization of rice genes, elucidation of the underlying mechanisms involved in major agronomic traits (e.g., high yield, grain quality, abiotic stress tolerance, and disease resistance), and the subsequent translation of genomic knowledge into agricultural productivity via molecular breeding and improved cultural practice. To meet increasing interest in this field, Rice Protocols has been compiled to provide a series of core techniques and approaches commonly used in studying rice molecular biology and functional genomics. These approaches include genetic and molecular techniques such as artificial hybridization, fluorescence in situ hybridization, generation and characterization of chemical and T-DNA insertional mutants, quantitative trait loci (QTLs) analysis and map-based cloning, site-specific transgene integration, and artificial microRNA-mediated gene silencing, along with a variety of "omics" techniques. Written in the highly successful Methods in Molecular Biology? series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls.Authoritative and easy to use, Rice Protocols will prove useful for both beginners and experienced researchers whether they are molecular biologists who want to study rice plants or rice researchers who are interested in learning molecular techniques.1. Rice Artificial Hybridization for Genetic AnalysisXueyan Sha2. Fluorescence In Situ Hybridization Techniques for Cytogenetic and Genomic AnalysesJason G. Walling, Wenli Zhang, and Jiming Jiang3. Generation of Rice Mutants by Chemical MutagenesisThomas H. Tai4. TILLING and Ecotilling for RiceJennifer L. Cooper, Steven Henikoff, Luca Comai, and Bradley J. Till5. Functional Characterization of Rice Genes Using a Gene-Indexed T-DNA Insertional Mutant PopulationKi-Hong Jung and Gynheung An6. QTL Analysis and Map-Based Cloning of Salt Tolerance Gene in RiceJi-Ping Gao and Hong-Xuan Lin7. Site-Specific Gene Integration in RiceVibha Srivastava8. Transcriptome Profiling Analysis Using Rice Oligonucleotide MicroarraysKi-Hong Jung and Pamela C. Ronald9. Cloning of Small RNAs for the Discovery of Novel MicroRNAs in RiceGuru Jagadeeswaran and Ramanjulu Sunkar10. Global Identification of Small RNA Targets in Rice by Sequencing Sliced Ends of Messenger RNAsYong-Fang Li and Ramanjulu Sunkar11. Artificial MicroRNAs for Specific Gene Silencing in RiceNorman Warthmann, Stephan Ossowski, Rebecca Schwab, and Detlef Weigel12. Rice Proteomic Analysis: Sample Preparation to Protein IdentificationGanesh Kumar Agrawal, Nam-Soo Jwa, Young-Ho Jung, Sun Tae Kim, Dea-Wook Kim, Kyoungwon Cho, Junko Shibato, and Randeep Rakwal13. Quantification of Jasmonic and Salicylic Acids in Rice Seedling LeavesKyoungwon Cho, Oksoo Han, Shigeru Tamogami, Junko Shibato, Akihiro Kubo, Ganesh Kumar Agrawal, and Randeep Rakwal14. Analysis of Insect-Induced Volatiles from RiceNan Zhao, Xiaofeng Zhuang, Gitika Shrivastava, and Feng Chen15. Phenotypic and Physiological Evaluation for Drought and Salinity Stress Responses in RiceUtlwang Batlang, Niranjan Baisakh, Madana M.R. Ambavaram, and Andy Pereira16. Phenotypic, Physiological, and Molecular Evaluation of Rice Chilling Stress Response at the Vegetative StageBenildo G. de los Reyes, Song Joong Yun, Venura Herath, Fuyu Xu, Myoung Ryoul Park, Jeong Il Lee, and Ki Young Kim17. Analysis of Rice Root Hair Morphology Using Cryo-Scanning Electron MicroscopyZhiming Yu, Hanmin Chen, Yanli Tong, and Ping Wu18. Inoculation and Virulence Assay for Bacterial Blight and Bacterial Leaf Streak of RiceBing Yang and Adam Bogdanove19. Inoculation and Scoring Methods for Rice Sheath Blight DiseaseYulin Jia, Guangjie Liu, Dong-Soo Park, and Yinong Yang20. Molecular Approaches to Improve Rice Abiotic Stress ToleranceJunya Mizoi and Kazuko Yamaguchi-Shinozaki21. Molecular Strategies to Improve Rice Disease ResistanceEmily E. Helliwell and Yinong Yang22. Molecular Strategies to Engineer Transgenic Rice Seed Compartments for Large-Scale Production of Plant-Made PharmaceuticalsTrevor Greenham and Illimar AltosaarAppendix: Genomic and Bioinformatic Resources for Rice ResearchWenhua Liu, Kabin Xie, and Yinong YangVibha SrivastavaThis Methods in Molecular Biology(TM) book offers core techniques and approaches commonly used in studying rice molecular biology and functional genomics. Includes protocols, materials lists, troubleshooting tips and advice on avoiding common pitfalls.With the completion of a finished rice genome sequence, increasing efforts have focused on functional characterization of rice genes, elucidation of the underlying mechanisms involved in major agronomic traits (e.g., high yield, grain quality, abiotic stress tolerance, and disease resistance), and the subsequent translation of genomic knowledge into agricultural productivity via molecular breeding and improved cultural practice. To meet increasing interest in this field, Rice Protocols has been compiled to provide a series of core techniques and approaches commonly used in studying rice molecular biology and functional genomics. These approaches include genetic and molecular techniques such as artificial hybridization, fluorescence in situ hybridization, generation and characterization of chemical and T-DNA insertional mutants, quantitative trait loci (QTLs) analysis and map-based cloning, site-specific transgene integration, and artificial microRNA-mediated gene silencing, along with a variety of "omics" techniques. Written in the highly successful Methods in Molecular Biology(TM) series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls.Authoritative and easy to use, Rice Protocols will prove useful for both beginners and experienced researchers whether they are molecular biologists who want to study rice plants or rice researchers who are interested in learning molecular techniques.1. Rice Artificial Hybridization for Genetic AnalysisXueyan Sha2. Fluorescence In Situ Hybridization Techniques for Cytogenetic and Genomic AnalysesJason G. Walling, Wenli Zhang, and Jiming Jiang3. Generation of Rice Mutants by Chemical MutagenesisThomas H. Tai4. TILLING and Ecotilling for RiceJennifer L. Cooper, Steven Henikoff, Luca Comai, and Bradley J. Till5. Functional Characterization of Rice Genes Using a Gene-Indexed T-DNA Insertional Mutant PopulationKi-Hong Jung and Gynheung An6. QTL Analysis and Map-Based Cloning of Salt Tolerance Gene in RiceJi-Ping Gao and Hong-Xuan Lin7. Site-Specific Gene Integration in RiceVibha Srivastava8. Transcriptome Profiling Analysis Using Rice Oligonucleotide MicroarraysKi-Hong Jung and Pamela C. Ronald9. Cloning of Small RNAs for the Discovery of Novel MicroRNAs in RiceGuru Jagadeeswaran and Ramanjulu Sunkar10. Global Identification of Small RNA Targets in Rice by Sequencing Sliced Ends of Messenger RNAsYong-Fang Li and Ramanjulu Sunkar11. Artificial MicroRNAs for Specific Gene Silencing in RiceNorman Warthmann, Stephan Ossowski, Rebecca Schwab, and Detlef Weigel12. Rice Proteomic Analysis: Sample Preparation to Protein IdentificationGanesh Kumar Agrawal, Nam-Soo Jwa, Young-Ho Jung, Sun Tae Kim, Dea-Wook Kim, Kyoungwon Cho, Junko Shibato, and Randeep Rakwal13. Quantification of Jasmonic and Salicylic Acids in Rice Seedling LeavesKyoungwon Cho, Oksoo Han, Shigeru Tamogami, Junko Shibato, Akihiro Kubo, Ganesh Kumar Agrawal, and Randeep Rakwal14. Analysis of Insect-Induced Volatiles from RiceNan Zhao, Xiaofeng Zhuang, Gitika Shrivastava, and Feng Chen15. Phenotypic and Physiological Evaluation for Drought and Salinity Stress Responses in RiceUtlwang Batlang, Niranjan Baisakh, Madana M.R. Ambavaram, and Andy Pereira16. Phenotypic, Physiological, and Molecular Evaluation of Rice Chilling Stress Response at the Vegetative StageBenildo G. de los Reyes, Song Joong Yun, Venura Herath, Fuyu Xu, Myoung Ryoul Park, Jeong Il Lee, and Ki Young Kim17. Analysis of Rice Root Hair Morphology Using Cryo-Scanning Electron MicroscopyZhiming Yu, Hanmin Chen, Yanli Tong, and Ping Wu18. Inoculation and Virulence Assay for Bacterial Blight and Bacterial Leaf Streak of RiceBing Yang and Adam Bogdanove19. Inoculation and Scoring Methods for Rice Sheath Blight DiseaseYulin Jia, Guangjie Liu, Dong-Soo Park, and Yinong Yang20. Molecular Approaches to Improve Rice Abiotic Stress ToleranceJunya Mizoi and Kazuko Yamaguchi-Shinozaki21. Molecular Strategies to Improve Rice Disease ResistanceEmily E. Helliwell and Yinong Yang22. Molecular Strategies to Engineer Transgenic Rice Seed Compartments for Large-Scale Production of Plant-Made PharmaceuticalsTrevor Greenham and Illimar AltosaarAppendix: Genomic and Bioinformatic Resources for Rice ResearchWenhua Liu, Kabin Xie, and Yinong YangVibha SrivastavaInhaltsverzeichnis1. Rice Artificial Hybridization for Genetic AnalysisXueyan Sha2. Fluorescence In Situ Hybridization Techniques for Cytogenetic and Genomic AnalysesJason G. Walling, Wenli Zhang, and Jiming Jiang3. Generation of Rice Mutants by Chemical MutagenesisThomas H. Tai4. TILLING and Ecotilling for RiceJennifer L. Cooper, Steven Henikoff, Luca Comai, and Bradley J. Till5. Functional Characterization of Rice Genes Using a Gene-Indexed T-DNA Insertional Mutant PopulationKi-Hong Jung and Gynheung An6. QTL Analysis and Map-Based Cloning of Salt Tolerance Gene in RiceJi-Ping Gao and Hong-Xuan Lin7. Site-Specific Gene Integration in RiceVibha Srivastava8. Transcriptome Profiling Analysis Using Rice Oligonucleotide MicroarraysKi-Hong Jung and Pamela C. Ronald9. Cloning of Small RNAs for the Discovery of Novel MicroRNAs in RiceGuru Jagadeeswaran and Ramanjulu Sunkar10. Global Identification of Small RNA Targets in Rice by Sequencing Sliced Ends of Messenger RNAsYong-Fang Li and Ramanjulu Sunkar11. Artificial MicroRNAs for Specific Gene Silencing in RiceNorman Warthmann, Stephan Ossowski, Rebecca Schwab, and Detlef Weigel12. Rice Proteomic Analysis: Sample Preparation to Protein IdentificationGanesh Kumar Agrawal, Nam-Soo Jwa, Young-Ho Jung, Sun Tae Kim, Dea-Wook Kim, Kyoungwon Cho, Junko Shibato, and Randeep Rakwal13. Quantification of Jasmonic and Salicylic Acids in Rice Seedling LeavesKyoungwon Cho, Oksoo Han, Shigeru Tamogami, Junko Shibato, Akihiro Kubo, Ganesh Kumar Agrawal, and Randeep Rakwal14. Analysis of Insect-Induced Volatiles from RiceNan Zhao, Xiaofeng Zhuang, Gitika Shrivastava, and Feng Chen15. Phenotypic and Physiological Evaluation for Drought and Salinity Stress Responses in RiceUtlwang Batlang, Niranjan Baisakh, Madana M.R. Ambavaram, and Andy Pereira16. Phenotypic, Physiological, and Molecular Evaluation of Rice Chilling Stress Response at the Vegetative StageBenildo G. de los Reyes, Song Joong Yun, Venura Herath, Fuyu Xu, Myoung Ryoul Park, Jeong Il Lee, and Ki Young Kim17. Analysis of Rice Root Hair Morphology Using Cryo-Scanning Electron MicroscopyZhiming Yu, Hanmin Chen, Yanli Tong, and Ping Wu18. Inoculation and Virulence Assay for Bacterial Blight and Bacterial Leaf Streak of RiceBing Yang and Adam Bogdanove19. Inoculation and Scoring Methods for Rice Sheath Blight DiseaseYulin Jia, Guangjie Liu, Dong-Soo Park, and Yinong Yang20. Molecular Approaches to Improve Rice Abiotic Stress ToleranceJunya Mizoi and Kazuko Yamaguchi-Shinozaki21. Molecular Strategies to Improve Rice Disease ResistanceEmily E. Helliwell and Yinong Yang22. M, DE, [SC: 0.00], Neuware, gewerbliches Angebot, 348, [GW: 852g], 2013, Banküberweisung, PayPal, Sofortüberweisung<
booklooker.de |
2012, ISBN: 9781627031936
Author:-Yinong Yang. Title:-Rice Protocols. Title:-Rice ProtocolsAuthor:-Yinong YangFormat:-HardBackPublisher:-Humana PressPublisher Date:-2012-11-08Pages:-Genre:-ScienceISBN13:-978162703… Altro …
Author:-Yinong Yang. Title:-Rice Protocols. Title:-Rice ProtocolsAuthor:-Yinong YangFormat:-HardBackPublisher:-Humana PressPublisher Date:-2012-11-08Pages:-Genre:-ScienceISBN13:-9781627031936Condition:- BRAND NEW, Neu, Festpreisangebot, [LT: FixedPrice], Artikelzustand: Neu, Weight: 825grams, Subjects: Mathematics & Sciences, Topic: Science, Book Title: Rice Protocols, EAN: 9781627031936, Publication Year: 2012, Type: Textbook, Format: Hardcover, Language: English, Publication Name: Rice Protocols, Item Height: 254mm, Item Width: 178mm, Subject: Biology, Item Weight: 7977g, Number of Pages: 335 Pages, Humana Press Inc.<
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2012, ISBN: 9781627031936
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2012, ISBN: 9781627031936
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Rice Protocols / Yinong Yang / Buch / Methods in Molecular Biology / HC runder Rücken kaschiert / Englisch / 2012 / Humana Press / EAN 9781627031936 - copertina rigida, flessible
2012, ISBN: 9781627031936
[ED: Gebunden], [PU: Humana Press], Features cutting-edge core techniques and approaches currently used to study rice molecular biology and functional genomicsIncludes detailed step-by-st… Altro …
[ED: Gebunden], [PU: Humana Press], Features cutting-edge core techniques and approaches currently used to study rice molecular biology and functional genomicsIncludes detailed step-by-step protocols that are ready for the labProvides expert tips and key implementation advice to ensure successful resultsWith the completion of a finished rice genome sequence, increasing efforts have focused on functional characterization of rice genes, elucidation of the underlying mechanisms involved in major agronomic traits (e.g., high yield, grain quality, abiotic stress tolerance, and disease resistance), and the subsequent translation of genomic knowledge into agricultural productivity via molecular breeding and improved cultural practice. To meet increasing interest in this field, Rice Protocols has been compiled to provide a series of core techniques and approaches commonly used in studying rice molecular biology and functional genomics. These approaches include genetic and molecular techniques such as artificial hybridization, fluorescence in situ hybridization, generation and characterization of chemical and T-DNA insertional mutants, quantitative trait loci (QTLs) analysis and map-based cloning, site-specific transgene integration, and artificial microRNA-mediated gene silencing, along with a variety of "omics" techniques. Written in the highly successful Methods in Molecular Biology? series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls.Authoritative and easy to use, Rice Protocols will prove useful for both beginners and experienced researchers whether they are molecular biologists who want to study rice plants or rice researchers who are interested in learning molecular techniques.1. Rice Artificial Hybridization for Genetic AnalysisXueyan Sha2. Fluorescence In Situ Hybridization Techniques for Cytogenetic and Genomic AnalysesJason G. Walling, Wenli Zhang, and Jiming Jiang3. Generation of Rice Mutants by Chemical MutagenesisThomas H. Tai4. TILLING and Ecotilling for RiceJennifer L. Cooper, Steven Henikoff, Luca Comai, and Bradley J. Till5. Functional Characterization of Rice Genes Using a Gene-Indexed T-DNA Insertional Mutant PopulationKi-Hong Jung and Gynheung An6. QTL Analysis and Map-Based Cloning of Salt Tolerance Gene in RiceJi-Ping Gao and Hong-Xuan Lin7. Site-Specific Gene Integration in RiceVibha Srivastava8. Transcriptome Profiling Analysis Using Rice Oligonucleotide MicroarraysKi-Hong Jung and Pamela C. Ronald9. Cloning of Small RNAs for the Discovery of Novel MicroRNAs in RiceGuru Jagadeeswaran and Ramanjulu Sunkar10. Global Identification of Small RNA Targets in Rice by Sequencing Sliced Ends of Messenger RNAsYong-Fang Li and Ramanjulu Sunkar11. Artificial MicroRNAs for Specific Gene Silencing in RiceNorman Warthmann, Stephan Ossowski, Rebecca Schwab, and Detlef Weigel12. Rice Proteomic Analysis: Sample Preparation to Protein IdentificationGanesh Kumar Agrawal, Nam-Soo Jwa, Young-Ho Jung, Sun Tae Kim, Dea-Wook Kim, Kyoungwon Cho, Junko Shibato, and Randeep Rakwal13. Quantification of Jasmonic and Salicylic Acids in Rice Seedling LeavesKyoungwon Cho, Oksoo Han, Shigeru Tamogami, Junko Shibato, Akihiro Kubo, Ganesh Kumar Agrawal, and Randeep Rakwal14. Analysis of Insect-Induced Volatiles from RiceNan Zhao, Xiaofeng Zhuang, Gitika Shrivastava, and Feng Chen15. Phenotypic and Physiological Evaluation for Drought and Salinity Stress Responses in RiceUtlwang Batlang, Niranjan Baisakh, Madana M.R. Ambavaram, and Andy Pereira16. Phenotypic, Physiological, and Molecular Evaluation of Rice Chilling Stress Response at the Vegetative StageBenildo G. de los Reyes, Song Joong Yun, Venura Herath, Fuyu Xu, Myoung Ryoul Park, Jeong Il Lee, and Ki Young Kim17. Analysis of Rice Root Hair Morphology Using Cryo-Scanning Electron MicroscopyZhiming Yu, Hanmin Chen, Yanli Tong, and Ping Wu18. Inoculation and Virulence Assay for Bacterial Blight and Bacterial Leaf Streak of RiceBing Yang and Adam Bogdanove19. Inoculation and Scoring Methods for Rice Sheath Blight DiseaseYulin Jia, Guangjie Liu, Dong-Soo Park, and Yinong Yang20. Molecular Approaches to Improve Rice Abiotic Stress ToleranceJunya Mizoi and Kazuko Yamaguchi-Shinozaki21. Molecular Strategies to Improve Rice Disease ResistanceEmily E. Helliwell and Yinong Yang22. Molecular Strategies to Engineer Transgenic Rice Seed Compartments for Large-Scale Production of Plant-Made PharmaceuticalsTrevor Greenham and Illimar AltosaarAppendix: Genomic and Bioinformatic Resources for Rice ResearchWenhua Liu, Kabin Xie, and Yinong YangVibha SrivastavaThis Methods in Molecular Biology(TM) book offers core techniques and approaches commonly used in studying rice molecular biology and functional genomics. Includes protocols, materials lists, troubleshooting tips and advice on avoiding common pitfalls.With the completion of a finished rice genome sequence, increasing efforts have focused on functional characterization of rice genes, elucidation of the underlying mechanisms involved in major agronomic traits (e.g., high yield, grain quality, abiotic stress tolerance, and disease resistance), and the subsequent translation of genomic knowledge into agricultural productivity via molecular breeding and improved cultural practice. To meet increasing interest in this field, Rice Protocols has been compiled to provide a series of core techniques and approaches commonly used in studying rice molecular biology and functional genomics. These approaches include genetic and molecular techniques such as artificial hybridization, fluorescence in situ hybridization, generation and characterization of chemical and T-DNA insertional mutants, quantitative trait loci (QTLs) analysis and map-based cloning, site-specific transgene integration, and artificial microRNA-mediated gene silencing, along with a variety of "omics" techniques. Written in the highly successful Methods in Molecular Biology(TM) series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls.Authoritative and easy to use, Rice Protocols will prove useful for both beginners and experienced researchers whether they are molecular biologists who want to study rice plants or rice researchers who are interested in learning molecular techniques.1. Rice Artificial Hybridization for Genetic AnalysisXueyan Sha2. Fluorescence In Situ Hybridization Techniques for Cytogenetic and Genomic AnalysesJason G. Walling, Wenli Zhang, and Jiming Jiang3. Generation of Rice Mutants by Chemical MutagenesisThomas H. Tai4. TILLING and Ecotilling for RiceJennifer L. Cooper, Steven Henikoff, Luca Comai, and Bradley J. Till5. Functional Characterization of Rice Genes Using a Gene-Indexed T-DNA Insertional Mutant PopulationKi-Hong Jung and Gynheung An6. QTL Analysis and Map-Based Cloning of Salt Tolerance Gene in RiceJi-Ping Gao and Hong-Xuan Lin7. Site-Specific Gene Integration in RiceVibha Srivastava8. Transcriptome Profiling Analysis Using Rice Oligonucleotide MicroarraysKi-Hong Jung and Pamela C. Ronald9. Cloning of Small RNAs for the Discovery of Novel MicroRNAs in RiceGuru Jagadeeswaran and Ramanjulu Sunkar10. Global Identification of Small RNA Targets in Rice by Sequencing Sliced Ends of Messenger RNAsYong-Fang Li and Ramanjulu Sunkar11. Artificial MicroRNAs for Specific Gene Silencing in RiceNorman Warthmann, Stephan Ossowski, Rebecca Schwab, and Detlef Weigel12. Rice Proteomic Analysis: Sample Preparation to Protein IdentificationGanesh Kumar Agrawal, Nam-Soo Jwa, Young-Ho Jung, Sun Tae Kim, Dea-Wook Kim, Kyoungwon Cho, Junko Shibato, and Randeep Rakwal13. Quantification of Jasmonic and Salicylic Acids in Rice Seedling LeavesKyoungwon Cho, Oksoo Han, Shigeru Tamogami, Junko Shibato, Akihiro Kubo, Ganesh Kumar Agrawal, and Randeep Rakwal14. Analysis of Insect-Induced Volatiles from RiceNan Zhao, Xiaofeng Zhuang, Gitika Shrivastava, and Feng Chen15. Phenotypic and Physiological Evaluation for Drought and Salinity Stress Responses in RiceUtlwang Batlang, Niranjan Baisakh, Madana M.R. Ambavaram, and Andy Pereira16. Phenotypic, Physiological, and Molecular Evaluation of Rice Chilling Stress Response at the Vegetative StageBenildo G. de los Reyes, Song Joong Yun, Venura Herath, Fuyu Xu, Myoung Ryoul Park, Jeong Il Lee, and Ki Young Kim17. Analysis of Rice Root Hair Morphology Using Cryo-Scanning Electron MicroscopyZhiming Yu, Hanmin Chen, Yanli Tong, and Ping Wu18. Inoculation and Virulence Assay for Bacterial Blight and Bacterial Leaf Streak of RiceBing Yang and Adam Bogdanove19. Inoculation and Scoring Methods for Rice Sheath Blight DiseaseYulin Jia, Guangjie Liu, Dong-Soo Park, and Yinong Yang20. Molecular Approaches to Improve Rice Abiotic Stress ToleranceJunya Mizoi and Kazuko Yamaguchi-Shinozaki21. Molecular Strategies to Improve Rice Disease ResistanceEmily E. Helliwell and Yinong Yang22. Molecular Strategies to Engineer Transgenic Rice Seed Compartments for Large-Scale Production of Plant-Made PharmaceuticalsTrevor Greenham and Illimar AltosaarAppendix: Genomic and Bioinformatic Resources for Rice ResearchWenhua Liu, Kabin Xie, and Yinong YangVibha SrivastavaInhaltsverzeichnis1. Rice Artificial Hybridization for Genetic AnalysisXueyan Sha2. Fluorescence In Situ Hybridization Techniques for Cytogenetic and Genomic AnalysesJason G. Walling, Wenli Zhang, and Jiming Jiang3. Generation of Rice Mutants by Chemical MutagenesisThomas H. Tai4. TILLING and Ecotilling for RiceJennifer L. Cooper, Steven Henikoff, Luca Comai, and Bradley J. Till5. Functional Characterization of Rice Genes Using a Gene-Indexed T-DNA Insertional Mutant PopulationKi-Hong Jung and Gynheung An6. QTL Analysis and Map-Based Cloning of Salt Tolerance Gene in RiceJi-Ping Gao and Hong-Xuan Lin7. Site-Specific Gene Integration in RiceVibha Srivastava8. Transcriptome Profiling Analysis Using Rice Oligonucleotide MicroarraysKi-Hong Jung and Pamela C. Ronald9. Cloning of Small RNAs for the Discovery of Novel MicroRNAs in RiceGuru Jagadeeswaran and Ramanjulu Sunkar10. Global Identification of Small RNA Targets in Rice by Sequencing Sliced Ends of Messenger RNAsYong-Fang Li and Ramanjulu Sunkar11. Artificial MicroRNAs for Specific Gene Silencing in RiceNorman Warthmann, Stephan Ossowski, Rebecca Schwab, and Detlef Weigel12. Rice Proteomic Analysis: Sample Preparation to Protein IdentificationGanesh Kumar Agrawal, Nam-Soo Jwa, Young-Ho Jung, Sun Tae Kim, Dea-Wook Kim, Kyoungwon Cho, Junko Shibato, and Randeep Rakwal13. Quantification of Jasmonic and Salicylic Acids in Rice Seedling LeavesKyoungwon Cho, Oksoo Han, Shigeru Tamogami, Junko Shibato, Akihiro Kubo, Ganesh Kumar Agrawal, and Randeep Rakwal14. Analysis of Insect-Induced Volatiles from RiceNan Zhao, Xiaofeng Zhuang, Gitika Shrivastava, and Feng Chen15. Phenotypic and Physiological Evaluation for Drought and Salinity Stress Responses in RiceUtlwang Batlang, Niranjan Baisakh, Madana M.R. Ambavaram, and Andy Pereira16. Phenotypic, Physiological, and Molecular Evaluation of Rice Chilling Stress Response at the Vegetative StageBenildo G. de los Reyes, Song Joong Yun, Venura Herath, Fuyu Xu, Myoung Ryoul Park, Jeong Il Lee, and Ki Young Kim17. Analysis of Rice Root Hair Morphology Using Cryo-Scanning Electron MicroscopyZhiming Yu, Hanmin Chen, Yanli Tong, and Ping Wu18. Inoculation and Virulence Assay for Bacterial Blight and Bacterial Leaf Streak of RiceBing Yang and Adam Bogdanove19. Inoculation and Scoring Methods for Rice Sheath Blight DiseaseYulin Jia, Guangjie Liu, Dong-Soo Park, and Yinong Yang20. Molecular Approaches to Improve Rice Abiotic Stress ToleranceJunya Mizoi and Kazuko Yamaguchi-Shinozaki21. Molecular Strategies to Improve Rice Disease ResistanceEmily E. Helliwell and Yinong Yang22. M, DE, [SC: 0.00], Neuware, gewerbliches Angebot, 348, [GW: 852g], 2013, Banküberweisung, PayPal, Sofortüberweisung<
Yang, Yinong:
Rice Protocols Yinong Yang Buch Methods in Molecular Biology HC runder Rücken kaschiert Englisch 2012 Humana Press EAN 9781627031936 - copertina rigida, flessible2012, ISBN: 9781627031936
[ED: Gebunden], [PU: Humana Press], Features cutting-edge core techniques and approaches currently used to study rice molecular biology and functional genomicsIncludes detailed step-by-st… Altro …
[ED: Gebunden], [PU: Humana Press], Features cutting-edge core techniques and approaches currently used to study rice molecular biology and functional genomicsIncludes detailed step-by-step protocols that are ready for the labProvides expert tips and key implementation advice to ensure successful resultsWith the completion of a finished rice genome sequence, increasing efforts have focused on functional characterization of rice genes, elucidation of the underlying mechanisms involved in major agronomic traits (e.g., high yield, grain quality, abiotic stress tolerance, and disease resistance), and the subsequent translation of genomic knowledge into agricultural productivity via molecular breeding and improved cultural practice. To meet increasing interest in this field, Rice Protocols has been compiled to provide a series of core techniques and approaches commonly used in studying rice molecular biology and functional genomics. These approaches include genetic and molecular techniques such as artificial hybridization, fluorescence in situ hybridization, generation and characterization of chemical and T-DNA insertional mutants, quantitative trait loci (QTLs) analysis and map-based cloning, site-specific transgene integration, and artificial microRNA-mediated gene silencing, along with a variety of "omics" techniques. Written in the highly successful Methods in Molecular Biology? series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls.Authoritative and easy to use, Rice Protocols will prove useful for both beginners and experienced researchers whether they are molecular biologists who want to study rice plants or rice researchers who are interested in learning molecular techniques.1. Rice Artificial Hybridization for Genetic AnalysisXueyan Sha2. Fluorescence In Situ Hybridization Techniques for Cytogenetic and Genomic AnalysesJason G. Walling, Wenli Zhang, and Jiming Jiang3. Generation of Rice Mutants by Chemical MutagenesisThomas H. Tai4. TILLING and Ecotilling for RiceJennifer L. Cooper, Steven Henikoff, Luca Comai, and Bradley J. Till5. Functional Characterization of Rice Genes Using a Gene-Indexed T-DNA Insertional Mutant PopulationKi-Hong Jung and Gynheung An6. QTL Analysis and Map-Based Cloning of Salt Tolerance Gene in RiceJi-Ping Gao and Hong-Xuan Lin7. Site-Specific Gene Integration in RiceVibha Srivastava8. Transcriptome Profiling Analysis Using Rice Oligonucleotide MicroarraysKi-Hong Jung and Pamela C. Ronald9. Cloning of Small RNAs for the Discovery of Novel MicroRNAs in RiceGuru Jagadeeswaran and Ramanjulu Sunkar10. Global Identification of Small RNA Targets in Rice by Sequencing Sliced Ends of Messenger RNAsYong-Fang Li and Ramanjulu Sunkar11. Artificial MicroRNAs for Specific Gene Silencing in RiceNorman Warthmann, Stephan Ossowski, Rebecca Schwab, and Detlef Weigel12. Rice Proteomic Analysis: Sample Preparation to Protein IdentificationGanesh Kumar Agrawal, Nam-Soo Jwa, Young-Ho Jung, Sun Tae Kim, Dea-Wook Kim, Kyoungwon Cho, Junko Shibato, and Randeep Rakwal13. Quantification of Jasmonic and Salicylic Acids in Rice Seedling LeavesKyoungwon Cho, Oksoo Han, Shigeru Tamogami, Junko Shibato, Akihiro Kubo, Ganesh Kumar Agrawal, and Randeep Rakwal14. Analysis of Insect-Induced Volatiles from RiceNan Zhao, Xiaofeng Zhuang, Gitika Shrivastava, and Feng Chen15. Phenotypic and Physiological Evaluation for Drought and Salinity Stress Responses in RiceUtlwang Batlang, Niranjan Baisakh, Madana M.R. Ambavaram, and Andy Pereira16. Phenotypic, Physiological, and Molecular Evaluation of Rice Chilling Stress Response at the Vegetative StageBenildo G. de los Reyes, Song Joong Yun, Venura Herath, Fuyu Xu, Myoung Ryoul Park, Jeong Il Lee, and Ki Young Kim17. Analysis of Rice Root Hair Morphology Using Cryo-Scanning Electron MicroscopyZhiming Yu, Hanmin Chen, Yanli Tong, and Ping Wu18. Inoculation and Virulence Assay for Bacterial Blight and Bacterial Leaf Streak of RiceBing Yang and Adam Bogdanove19. Inoculation and Scoring Methods for Rice Sheath Blight DiseaseYulin Jia, Guangjie Liu, Dong-Soo Park, and Yinong Yang20. Molecular Approaches to Improve Rice Abiotic Stress ToleranceJunya Mizoi and Kazuko Yamaguchi-Shinozaki21. Molecular Strategies to Improve Rice Disease ResistanceEmily E. Helliwell and Yinong Yang22. Molecular Strategies to Engineer Transgenic Rice Seed Compartments for Large-Scale Production of Plant-Made PharmaceuticalsTrevor Greenham and Illimar AltosaarAppendix: Genomic and Bioinformatic Resources for Rice ResearchWenhua Liu, Kabin Xie, and Yinong YangVibha SrivastavaThis Methods in Molecular Biology(TM) book offers core techniques and approaches commonly used in studying rice molecular biology and functional genomics. Includes protocols, materials lists, troubleshooting tips and advice on avoiding common pitfalls.With the completion of a finished rice genome sequence, increasing efforts have focused on functional characterization of rice genes, elucidation of the underlying mechanisms involved in major agronomic traits (e.g., high yield, grain quality, abiotic stress tolerance, and disease resistance), and the subsequent translation of genomic knowledge into agricultural productivity via molecular breeding and improved cultural practice. To meet increasing interest in this field, Rice Protocols has been compiled to provide a series of core techniques and approaches commonly used in studying rice molecular biology and functional genomics. These approaches include genetic and molecular techniques such as artificial hybridization, fluorescence in situ hybridization, generation and characterization of chemical and T-DNA insertional mutants, quantitative trait loci (QTLs) analysis and map-based cloning, site-specific transgene integration, and artificial microRNA-mediated gene silencing, along with a variety of "omics" techniques. Written in the highly successful Methods in Molecular Biology(TM) series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls.Authoritative and easy to use, Rice Protocols will prove useful for both beginners and experienced researchers whether they are molecular biologists who want to study rice plants or rice researchers who are interested in learning molecular techniques.1. Rice Artificial Hybridization for Genetic AnalysisXueyan Sha2. Fluorescence In Situ Hybridization Techniques for Cytogenetic and Genomic AnalysesJason G. Walling, Wenli Zhang, and Jiming Jiang3. Generation of Rice Mutants by Chemical MutagenesisThomas H. Tai4. TILLING and Ecotilling for RiceJennifer L. Cooper, Steven Henikoff, Luca Comai, and Bradley J. Till5. Functional Characterization of Rice Genes Using a Gene-Indexed T-DNA Insertional Mutant PopulationKi-Hong Jung and Gynheung An6. QTL Analysis and Map-Based Cloning of Salt Tolerance Gene in RiceJi-Ping Gao and Hong-Xuan Lin7. Site-Specific Gene Integration in RiceVibha Srivastava8. Transcriptome Profiling Analysis Using Rice Oligonucleotide MicroarraysKi-Hong Jung and Pamela C. Ronald9. Cloning of Small RNAs for the Discovery of Novel MicroRNAs in RiceGuru Jagadeeswaran and Ramanjulu Sunkar10. Global Identification of Small RNA Targets in Rice by Sequencing Sliced Ends of Messenger RNAsYong-Fang Li and Ramanjulu Sunkar11. Artificial MicroRNAs for Specific Gene Silencing in RiceNorman Warthmann, Stephan Ossowski, Rebecca Schwab, and Detlef Weigel12. Rice Proteomic Analysis: Sample Preparation to Protein IdentificationGanesh Kumar Agrawal, Nam-Soo Jwa, Young-Ho Jung, Sun Tae Kim, Dea-Wook Kim, Kyoungwon Cho, Junko Shibato, and Randeep Rakwal13. Quantification of Jasmonic and Salicylic Acids in Rice Seedling LeavesKyoungwon Cho, Oksoo Han, Shigeru Tamogami, Junko Shibato, Akihiro Kubo, Ganesh Kumar Agrawal, and Randeep Rakwal14. Analysis of Insect-Induced Volatiles from RiceNan Zhao, Xiaofeng Zhuang, Gitika Shrivastava, and Feng Chen15. Phenotypic and Physiological Evaluation for Drought and Salinity Stress Responses in RiceUtlwang Batlang, Niranjan Baisakh, Madana M.R. Ambavaram, and Andy Pereira16. Phenotypic, Physiological, and Molecular Evaluation of Rice Chilling Stress Response at the Vegetative StageBenildo G. de los Reyes, Song Joong Yun, Venura Herath, Fuyu Xu, Myoung Ryoul Park, Jeong Il Lee, and Ki Young Kim17. Analysis of Rice Root Hair Morphology Using Cryo-Scanning Electron MicroscopyZhiming Yu, Hanmin Chen, Yanli Tong, and Ping Wu18. Inoculation and Virulence Assay for Bacterial Blight and Bacterial Leaf Streak of RiceBing Yang and Adam Bogdanove19. Inoculation and Scoring Methods for Rice Sheath Blight DiseaseYulin Jia, Guangjie Liu, Dong-Soo Park, and Yinong Yang20. Molecular Approaches to Improve Rice Abiotic Stress ToleranceJunya Mizoi and Kazuko Yamaguchi-Shinozaki21. Molecular Strategies to Improve Rice Disease ResistanceEmily E. Helliwell and Yinong Yang22. Molecular Strategies to Engineer Transgenic Rice Seed Compartments for Large-Scale Production of Plant-Made PharmaceuticalsTrevor Greenham and Illimar AltosaarAppendix: Genomic and Bioinformatic Resources for Rice ResearchWenhua Liu, Kabin Xie, and Yinong YangVibha SrivastavaInhaltsverzeichnis1. Rice Artificial Hybridization for Genetic AnalysisXueyan Sha2. Fluorescence In Situ Hybridization Techniques for Cytogenetic and Genomic AnalysesJason G. Walling, Wenli Zhang, and Jiming Jiang3. Generation of Rice Mutants by Chemical MutagenesisThomas H. Tai4. TILLING and Ecotilling for RiceJennifer L. Cooper, Steven Henikoff, Luca Comai, and Bradley J. Till5. Functional Characterization of Rice Genes Using a Gene-Indexed T-DNA Insertional Mutant PopulationKi-Hong Jung and Gynheung An6. QTL Analysis and Map-Based Cloning of Salt Tolerance Gene in RiceJi-Ping Gao and Hong-Xuan Lin7. Site-Specific Gene Integration in RiceVibha Srivastava8. Transcriptome Profiling Analysis Using Rice Oligonucleotide MicroarraysKi-Hong Jung and Pamela C. Ronald9. Cloning of Small RNAs for the Discovery of Novel MicroRNAs in RiceGuru Jagadeeswaran and Ramanjulu Sunkar10. Global Identification of Small RNA Targets in Rice by Sequencing Sliced Ends of Messenger RNAsYong-Fang Li and Ramanjulu Sunkar11. Artificial MicroRNAs for Specific Gene Silencing in RiceNorman Warthmann, Stephan Ossowski, Rebecca Schwab, and Detlef Weigel12. Rice Proteomic Analysis: Sample Preparation to Protein IdentificationGanesh Kumar Agrawal, Nam-Soo Jwa, Young-Ho Jung, Sun Tae Kim, Dea-Wook Kim, Kyoungwon Cho, Junko Shibato, and Randeep Rakwal13. Quantification of Jasmonic and Salicylic Acids in Rice Seedling LeavesKyoungwon Cho, Oksoo Han, Shigeru Tamogami, Junko Shibato, Akihiro Kubo, Ganesh Kumar Agrawal, and Randeep Rakwal14. Analysis of Insect-Induced Volatiles from RiceNan Zhao, Xiaofeng Zhuang, Gitika Shrivastava, and Feng Chen15. Phenotypic and Physiological Evaluation for Drought and Salinity Stress Responses in RiceUtlwang Batlang, Niranjan Baisakh, Madana M.R. Ambavaram, and Andy Pereira16. Phenotypic, Physiological, and Molecular Evaluation of Rice Chilling Stress Response at the Vegetative StageBenildo G. de los Reyes, Song Joong Yun, Venura Herath, Fuyu Xu, Myoung Ryoul Park, Jeong Il Lee, and Ki Young Kim17. Analysis of Rice Root Hair Morphology Using Cryo-Scanning Electron MicroscopyZhiming Yu, Hanmin Chen, Yanli Tong, and Ping Wu18. Inoculation and Virulence Assay for Bacterial Blight and Bacterial Leaf Streak of RiceBing Yang and Adam Bogdanove19. Inoculation and Scoring Methods for Rice Sheath Blight DiseaseYulin Jia, Guangjie Liu, Dong-Soo Park, and Yinong Yang20. Molecular Approaches to Improve Rice Abiotic Stress ToleranceJunya Mizoi and Kazuko Yamaguchi-Shinozaki21. Molecular Strategies to Improve Rice Disease ResistanceEmily E. Helliwell and Yinong Yang22. M, DE, [SC: 0.00], Neuware, gewerbliches Angebot, 348, [GW: 852g], 2013, Banküberweisung, PayPal, Sofortüberweisung<
2012
ISBN: 9781627031936
Author:-Yinong Yang. Title:-Rice Protocols. Title:-Rice ProtocolsAuthor:-Yinong YangFormat:-HardBackPublisher:-Humana PressPublisher Date:-2012-11-08Pages:-Genre:-ScienceISBN13:-978162703… Altro …
Author:-Yinong Yang. Title:-Rice Protocols. Title:-Rice ProtocolsAuthor:-Yinong YangFormat:-HardBackPublisher:-Humana PressPublisher Date:-2012-11-08Pages:-Genre:-ScienceISBN13:-9781627031936Condition:- BRAND NEW, Neu, Festpreisangebot, [LT: FixedPrice], Artikelzustand: Neu, Weight: 825grams, Subjects: Mathematics & Sciences, Topic: Science, Book Title: Rice Protocols, EAN: 9781627031936, Publication Year: 2012, Type: Textbook, Format: Hardcover, Language: English, Publication Name: Rice Protocols, Item Height: 254mm, Item Width: 178mm, Subject: Biology, Item Weight: 7977g, Number of Pages: 335 Pages, Humana Press Inc.<
2012, ISBN: 9781627031936
Hard cover, New, US edition. Satisfaction guaranteed! !, [PU: Humana Press Inc.]
2012, ISBN: 9781627031936
Springer, 2012. Hardcover. New., Springer, 2012, 6
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Informazioni dettagliate del libro - Rice Protocols
EAN (ISBN-13): 9781627031936
ISBN (ISBN-10): 1627031936
Copertina rigida
Copertina flessibile
Anno di pubblicazione: 2012
Editore: Humana Press Inc.
340 Pagine
Peso: 0,816 kg
Lingua: Englisch
Libro nella banca dati dal 2007-11-04T09:05:39+01:00 (Zurich)
Pagina di dettaglio ultima modifica in 2023-08-11T14:08:45+02:00 (Zurich)
ISBN/EAN: 1627031936
ISBN - Stili di scrittura alternativi:
1-62703-193-6, 978-1-62703-193-6
Stili di scrittura alternativi e concetti di ricerca simili:
Autore del libro : yang
Titolo del libro: rice
Dati dell'editore
Autore: Yinong Yang
Titolo: Methods in Molecular Biology; Rice Protocols
Editore: Humana; Humana Press
335 Pagine
Anno di pubblicazione: 2012-11-08
Totowa; NJ; US
Stampato / Fatto in
Peso: 7,977 kg
Lingua: Inglese
160,49 € (DE)
164,99 € (AT)
177,00 CHF (CH)
POD
XII, 335 p.
BB; Plant Sciences; Hardcover, Softcover / Biologie/Botanik; Botanik und Pflanzenwissenschaften; Verstehen; Agriculture; Cereal crops; Functional genomics; Molecular breeding; Oryza sativa; Rice genes; Rice molecular biology; Plant Genetics and Genomics; Plant Science; Plant Genetics; Pflanzenbiologie; Genetik (nicht-medizinisch); EA; BC
will prove useful for both beginners and experienced researchers whether they are molecular biologists who want to study rice plants or rice researchers who are interested in learning molecular techniques.Altri libri che potrebbero essere simili a questo:
Ultimo libro simile:
9781493957644 Rice Protocols (Yinong Yang)
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