04732nam 2200649Ia 450 991081808710332120240417030910.01-281-94849-797866119484981-57808-621-3(CKB)1000000000555372(EBL)3404290(SSID)ssj0000466124(PQKBManifestationID)11296510(PQKBTitleCode)TC0000466124(PQKBWorkID)10457667(PQKB)10008253(MiAaPQ)EBC3404290(Au-PeEL)EBL3404290(CaPaEBR)ebr10256705(CaONFJC)MIL194849(OCoLC)923386510(EXLCZ)99100000000055537220030115d2008 uy 0engur|n|---|||||txtccrPlant genome[electronic resource] biodiversity and evolutionVolume 1, Part EPhanerogams - Angiosperm /editors, A.K. Sharma and A. Sharma1st ed.Enfield, NH Science Publishersc20081 online resource (417 p.)Description based upon print version of record.1-57808-507-1 Includes bibliographical references and index.""Preface to the Series ""Plant Genome""""; ""Preface to this Volume""; ""Contents""; ""List of Contributors""; ""1. Repetitive DNA and Plant Evolution""; ""ABSTRACT ""; ""INTRODUCTION""; ""Linum usitatissimum""; ""Vicia faba""; ""Helianthus annuus""; ""Festuca arundinacea""; ""Dasypyrum villosum""; ""OTHER PLANT SPECIES""; ""CONCLUSION""; ""References ""; ""2. Evolution and Phylogenetic Relationship of the Rice Genome""; ""ABSTRACT ""; ""INTRODUCTION""; ""FEATURES OF THE RICE GENOME""; ""Centromeres and Telomeres""; ""Organelle Genome Insertions""; ""Gene Density""; ""Duplications""""Comparison of Rice Genomes""""THE IMPACT OF DUPLICATION ON EVOLUTION OF THE RICE GENOME""; ""ROLE OF TRANSPOSABLE ELEMENTS IN THE PROCESS OF EVOLUTION""; ""EVOLUTION OF GENE FAMILIES""; ""COMPARISON OF RICE WITH CEREAL GENOMES""; ""COMPARISON OF MODEL PLANT GENOMES - RICE VERSUS ARABIDOPSIS""; ""CONCLUSION""; ""Acknowledgments""; ""References ""; ""3. Genome Organization and Evolution in Genus Quercus (Fagaceae): Special Attention to Two European White Oaks Quercus petraea (Matt.) Liebl. and Q. robur L.""; ""ABSTRACT ""; ""INTRODUCTION""""SYSTEMATICS, PHYLOGENY AND HISTORY OF THE GENUS QUERCUS""""ECOLOGY OF OAKS""; ""INTERSPECIFIC HYBRIDIZATION I N OAKS: AN EXAMPLE OF EUROPEAN WHITE OAKS Q. PETRAEA AND Q. ROBUR""; ""KARYOTYPE EVOLUTION IN FAMILY FAGACEAE (AND IN GENUS QUERCUS IN PARTICULAR):CHROMOSOME NUMBER, KARYOTYPIC FEATURES AND GENOME SIZE""; ""MOLECULAR ORGANIZATION OF THE OAK GENOMES""; ""GENOME/KARYOTYPE EVOLUTION AND SPECIATION IN QUERCUS ""; ""CONCLUSION""; ""Acknowledgment""; ""References ""; ""4. Biodiversity and Evolution of Castanea""; ""ABSTRACT ""; ""PHYLOGEOGRAPHY OF AMERICAN CASTANEA SPECIES""""References """"5. Cytogenetic and Molecular Evidences on the Evolutionary Relationships Among Arachis Species""; ""ABSTRACT ""; ""INTRODUCTION""; ""SPECIES RELATIONSHIPS WITHIN ARACHIS SECTION""; ""GENETIC ORIGIN OF A. HYPOGAEA""; ""Single vs. Multiple Origin""; ""Wild Progenitors""; ""Is A. monticola the Wild Tetraploid Ancestor of A. hypogaea?""; ""ORIGIN OF X=9 BASIC CHROMOSOME NUMBER""; ""ORIGIN OF POLYPLOIDS IN RHIZOMATOSAE SECTION""; ""ORIGIN OF THE TRIPLOID CYTOTYPE OF A. PINTO1 (SECTION CAULORRHIZAE)""; ""CONCLUSION""; ""Acknowledgment""; ""References """"6. Biodiversity, Genetic Enhancement and Molecular Approaches in Lentil""""ABSTRACT ""; ""INTRODUCTION""; ""BIODIVERSITY AND EVOLUTION IN LENTIL""; ""VARIABILITY IN KEY TRAITS""; ""MAJOR ACCOMPLISHMENTS IN GENETIC ENHANCEMENT""; ""a. Resistance to Biotic Factors""; ""b. Improving Tolerance to Abiotic Stresses""; ""c. Construction of Plant Type Suitable for Machine Harvest""; ""d. Genetic Base of Lentil in South Asia has been Widened""; ""e. Varietal Development""; ""f. Development of Iron and Zinc-rich Lentil Varieties""; ""GENOME EVOLUTION IN LENTILS""""MOLECULAR APPROACHES USED FOR LENTIL ""Plant diversityPlant genomesPlantsEvolutionPlant diversity.Plant genomes.PlantsEvolution.Sharma Archana1932-2008.64632Sharma Arun Kumar1923-64631MiAaPQMiAaPQMiAaPQBOOK9910818087103321Plant genome3912977UNINA