05517nam 2200685Ia 450 991102009560332120200520144314.09786610921676978128092167412809216769783527610921352761092897835276109383527610936(CKB)1000000000377144(EBL)481506(OCoLC)173135610(SSID)ssj0000156119(PQKBManifestationID)11158482(PQKBTitleCode)TC0000156119(PQKBWorkID)10134196(PQKB)10823756(MiAaPQ)EBC481506(Perlego)2760314(EXLCZ)99100000000037714420060529d2007 uy 0engur|n|---|||||txtccrFlow cytometry with plant cells analysis of genes, chromosomes and genomes /edited by Jaroslav Dolezel, Johann Greilhuber, and Jan SudaWeinheim Wiley-VCH ;Chichester John Wiley [distributor]20071 online resource (481 p.)Description based upon print version of record.9783527314874 3527314873 Includes bibliographical references and index.Flow Cytometry with Plant Cells; Contents; Preface; List of Contributors; 1 Cytometry and Cytometers: Development and Growth; Overview; 1.1 Origins; 1.2 From Absorption to Fluorescence, from Imaging to Flow; 1.2.1 Early Microspectrophotometry and Image Cytometry; 1.2.2 Fluorescence Microscopy and the Fluorescent Antibody Technique; 1.2.3 Computers Meet Cytometers: The Birth of Analytical Flow Cytometry; 1.2.4 The Development of Cell Sorting; 1.3 The Growth of Multiparameter Flow Cytometry; 1.4 Bench-tops and Behemoths: Convergent Evolution; 1.5 Image Cytometry: New Beginnings?; References2 Principles of Flow CytometryOverview; 2.1 Introduction; 2.2 A Brief History of Flow Cytometry; 2.3 Components of a Flow Cytometer; 2.3.1 Fluidics; 2.3.2 Optics; 2.3.3 Electronic Systems; 2.4 Flow Cytometric Informatics; 2.5 Spectral Compensation; 2.6 Cell Sorting; 2.7 Calibration Issues; 2.8 Conclusions; References; 3 Flow Cytometry with Plants: an Overview; Overview; 3.1 Introduction; 3.2 Fluorescence is a Fundamental Parameter; 3.3 Pushing Plants through the Flow Cytometer; 3.3.1 Difficulties with Plants and their Cells; 3.3.2 Protoplasts are somewhat ""Easier"" than Intact Cells3.3.3 Going for Organelles3.4 Application of Flow Cytometry in Plants; 3.4.1 Microspores and Pollen; 3.4.2 Protoplasts; 3.4.2.1 Physiological Processes; 3.4.2.2 Secondary Metabolites; 3.4.2.3 Gene Expression; 3.4.2.4 Somatic Hybrids; 3.4.2.5 DNA Transfection; 3.4.3 Cell Nuclei; 3.4.3.1 Ploidy Levels; 3.4.3.2 Aneuploidy; 3.4.3.3 B Chromosomes; 3.4.3.4 Sex Chromosomes; 3.4.3.5 Cell Cycle and Endopolyploidy; 3.4.3.6 Reproductive Pathways; 3.4.3.7 Nuclear Genome Size; 3.4.3.8 DNA Base Content; 3.4.3.9 Chromatin Composition; 3.4.3.10 Sorting of Nuclei; 3.4.4 Mitotic Chromosomes; 3.4.5 Chloroplasts3.4.6 Mitochondria3.4.7 Plant Pathogens; 3.4.8 Aquatic Flow Cytometry; 3.5 A Flow Cytometer in Every Laboratory?; 3.6 Conclusions and Future Trends; References; 4 Nuclear DNA Content Measurement; Overview; 4.1 Introduction; 4.2 Nuclear DNA Content: Words, Concepts and Symbols; 4.2.1 Replication-Division Phases; 4.2.2 Alternation of Nuclear Phases; 4.2.3 Generative Polyploidy Levels; 4.2.4 Somatic Polyploidy; 4.3 Units for Presenting DNA Amounts and their Conversion Factors; 4.4 Sample Preparation for Flow Cytometric DNA Measurement; 4.4.1 Selection of the Tissue; 4.4.2 Reagents and Solutions4.4.2.1 Isolation Buffers and DNA Staining4.5 Standardization; 4.5.1 Types of Standardization; 4.5.2 Requirement of Internal Standardization - a Practical Test; 4.5.3 Choice of the Appropriate Standard Species; 4.5.3.1 Biological Similarity; 4.5.3.2 Genome Size; 4.5.3.3 Nature of the Standard; 4.5.3.4 Availability; 4.5.3.5 Cytological Homogeneity; 4.5.3.6 Accessibility; 4.5.3.7 Reliability of C-Values; 4.5.4 Studies on Plant Standards; 4.5.5 Suggested Standards; 4.6 Fluorescence Inhibitors and Coatings of Debris; 4.6.1 What are Fluorescence Inhibitors and Coatings of Debris?4.6.2 Experiments with Tannic AcidTargeted at beginners as well as experienced users, this handy reference explains the benefits and uses of flow cytometery in the study of plants and their genomes. Following a brief introduction that highlights general considerations when analyzing plant cells by flow cytometric methods, the book goes on to discuss examples of application in plant genetics, genomic analysis, cell cycle analysis, marine organism analysis and breeding studies.With its list of general reading and a glossary of terms, this first reference on FCM in plants fills a real gap by providing first-hand practical hinFlow cytometryPlant cells and tissuesFlow cytometry.Plant cells and tissues.571.62Dolezel Jaroslav1755879Greilhuber Johann1755878Suda Jan1838984MiAaPQMiAaPQMiAaPQBOOK9911020095603321Flow cytometry with plant cells4418092UNINA