جزییات کتاب
Induced mutagenesis is a common and promising method for screening for new crops with improved properties. This title introduces the different methods and then focuses on the screening, detection and analysis of the novel mutations. Written by a global team of authors the book is an indispensable tool for all scientists working on crop breeding in industry and academia.Content: Chapter 1 Physically Induced Mutation: Ion Beam Mutagenesis (pages 1–16): Shimpei Magori, Atsushi Tanaka and Masayoshi KawaguchiChapter 2 Ds Transposon Mutant Lines for Saturation Mutagenesis of the Arabidopsis genome (pages 17–30): Takashi Kuromori and Takashi HirayamaChapter 3 Use of Mutants from T?DNA Insertion Populations Generated by High?Throughput Screening (pages 31–54): Ralf Stracke, Gunnar Huep and Bernd WeisshaarChapter 4 Making Mutations is an Active Process: Methods to Examine DNA Polymerase Errors (pages 55–82): Kristin A. Eckert and Erin E. GestlChapter 5 Tnt1 Induced Mutations in Medicago: Characterization and Applications (pages 83–99): Pascal Ratet, Jiangqi Wen, Viviane Cosson, Million Tadege and Kirankumar S. MysoreChapter 6 Mutation Discovery with the Illumina® Genome Analyzer (pages 101–120): Abizar Lakdawalla and Gary P. SchrothChapter 7 Chemical Methods for Mutation Detection: The Chemical Cleavage of Mismatch Method (pages 121–130): Tania Tabone, Georgina Sallmann and Richard G. H. CottonChapter 8 Mutation Detection in Plants by Enzymatic Mismatch Cleavage (pages 131–148): Bradley J. TillChapter 9 Mutation Scanning and Genotyping in Plants by High?Resolution DNA Melting (pages 149–165): Jason T. McKinney, Lyle M. Nay, David De Koeyer, Gudrun H. Reed, Mikeal Wall, Robert A. Palais, Robert L. Jarret and Carl T. WittwerChapter 10 In Silico Methods: Mutation Detection Software for Sanger Sequencing, Genome and Fragment Analysis (pages 167–184): Kevin Levan, Teresa Snyder?Leiby, C. S. Jonathan Liu and Ni ShouyongChapter 11 Use of TILLING for Reverse and Forward Genetics of Rice (pages 185–197): Sujay Rakshit, Hiroyuki Kanzaki, Hideo Matsumura, Arunita Rakshit, Takahiro Fujibe, Yudai Okuyama, Kentaro Yoshida, Muluneh Oli, Matt Shenton, Hiroe Utsushi, Chikako Mitsuoka, Akira Abe, Yutaka Kiuchi and Ryohei TerauchiChapter 12 Sequencing?Based Screening of Mutations and Natural Variation using the KeyPoint™ Technology (pages 199–213): Diana Rigola and Michiel J. T. van EijkChapter 13 Natural and Induced Mutants of Barley: Single Nucleotide Polymorphisms in Genes Important for Breeding (pages 215–230): William T. B. Thomas, Brian P. Forster and Robbie WaughChapter 14 Association Mapping for the Exploration of Genetic Diversity and Identification of Useful Loci for Plant Breeding (pages 231–246): Andre Belo and Stanley D. LuckChapter 15 Using Mutations in Corn Breeding Programs (pages 247–261): Anastasia L. Bodnar and M. Paul ScottChapter 16 Gene Targeting as a Precise Tool for Plant Mutagenesis (pages 263–285): Oliver Zobell and Bernd ReissChapter 17 True Single Molecule Sequencing (tSMS)™ by Synthesis (pages 287–306): Scott Jenkins and Avak KahvejianChapter 18 High?Throughput Sequencing by Hybridization (pages 307–318): Sten LinnarssonChapter 19 DNA Sequencing?by?Synthesis using Novel Nucleotide Analogs (pages 319–338): Lin Yu, Jia Guo, Ning Xu, Zengmin Li and Jingyue JuChapter 20 Emerging Technologies: Nanopore Sequencing for Mutation Detection (pages 339–354): Ryan Rollings and Jiali Li