02580nam a2200241 a 450000100080000000500110000800800410001902000180006010000180007824500310009626000350012730000110016252019870017365000100216065000230217065000120219365000200220565000380222565000100226365000230227365300210229665300210231710013982018-08-07       1998    bl uuuu     u00u1 u    #d  a4-431-70215-61 aSHIMAMOTO, K.  aMolecular biology of rice.  aTokyo (Japón): Springerc1998  a304 p.  aRecent advances in genome analysis and transformation have made rice a model monocot for molecular biologists. This volume covers four areas of rice molecular biology in which exciting progress has been made recently: genome analysis and gene isolation, development, regulation of gene expression, and transformation and rice improvement. It will be of great interest to researchers who work in traditional agricultural sciences using rice, as well as to those who have an interest in using rice as an experimental model for basic research. The book gives an overall view on what has already been done, as well as what will be possible in rice. It presents chapters on development and gene regulation - exciting new research area in the future, and explores potentials in rice improvement using various molecular biological methods.  CONTENT. Genome analysis and gene isolation: Current status of genome analysis in rice, Takuji Sasaki (RGP, Tsukuba).- Genome analysis and rice breeding, David J. Mackill (University of California).- Retrotransposons and gene isolation, Hirohiko Hirochika (NIAR, Tsukuba).- Ac/Ds as tools for rice molecular biology, Ko Shimamoto (Nara Inst. Sci. Tech).- Development: Morphogenetic mutants of rice, Yasuro Nagato (Univ. Tokyo).- Flower development, Junko Kyozuka (Nara Inst. Sci. Tech).- Homeo-box genes, Makoto Matsuoka ( Nagoya Univ.).- Regulation of gene expression: Regulation of gene expression by ABA, Tsukaho Hattori (Mie Univ.).- Regulation of alpha-amylase gene expression, Yu Su-May (Acad. Sinica, Taiwan).- Storage protein gene expression, Fumio Takaiwa (NIAR, Tsukuba).- Molecular biology of rice-pathogen interaction, Guo-Liang Wang (The National Univ. Singapore).- Transformation and rice improvement: Agrobacterium-mediated transformation, Toshihiko Komari (Japan Tobacco Inc.).- Genetic engineering of virus resistance, Peter Waterhouse (CSIRO, Australia).- Rice improvement by transformation, Ingo Potrykus (Inst. Plant Sci., ETH).  aARROZ  aBIOLOGIA MOLECULAR  aGENOMAS  aMAPAS GENETICOS  aMETODOS DE MEJORAMIENTO GENETICOS  aORYZA  aRECURSOS GENETICOS  aRice -- Breeding  aRice -- Genetics