Rice Biotechnology: Improving Yield, Stress Tolerance and Grain Quality, No. 236
* Plant genomics: knowing the identity and location of each gene in the rice genome is of immense value in all aspects of rice science and cultivar improvement.
* Molecular biological approaches to increase yield: to produce more biomass by increasing photosynthetic rate and duration, and by improving grain filling.
* Enhancing tolerance to biotic and abiotic stresses: with new DNA array technologies, it is now possible to assess global genomic response to stresses. Understanding the relationships among stress pathways may create new opportunities for gene manipulation to enhance tolerance to multiple biotic and abiotic stresses.
* Improving nutritional quality in the grain: knowledge of the biosynthesis of micronutrients in plants permits genetic engineering of metabolic pathways to enhance the availability of micronutrients.
Chair's Introduction (G. Khush).
A Framework for Sequencing the Rice Genome (G. Presting, et al.).
Rice Genomics: Current Status of Genome Sequencing (T. Matsumoto).
Rice--The Pivotal Genome in Cereal Comparative Genetics (M. Gale, et al.).
Bioinformatics for Rice Resources (B. Sobral, et al.).
Regulation of Gene Expression by Small Molecules in Rice (S. Zhang, et al.).
Introduction of Genes Encoding C4 Photosynthesis Enzymes into Rice Plants: Physiological Consequences (M. Ku, et al.).
Increasing Rice Photosynthesis by Manipulation of the Acclimation and Adaptation to Light (P. Horton, et al.).
Increasing Rice Productivity and Yield by Manipulation of Starch Synthesis (T. Okita, et al.).
Genetic Analysis of Plant Disease Resistance Pathways (J. Parker, et al.).
Regulation of Systemic Acquired Resistance by NPR1 and its Partners (X. Dong, et al.).
Improving Plant Drought, Salt and Freezing Tolerance by Gene Transfer of a Single Stress-inducible Transcription Factor (K. Yamaguchi-Shinozaki & K. Shinozaki).
Dissection of Defence Response Pathways in Rice (J. Leach, et al.).
Breeding for Nutritional Characteristics in Cereals (R. Graham & G. Gregorio).
Biosynthesis of beta-Carotene (Provitamin A) in Rice Endosperm Achieved by Genetic Engineering (S. Al-Babili, et al.).
Developing Transgenic Grains with Improved Oils, Proteins and Carbohydrates (B. Mazur).
Summing-Up: Cutting -Edge Science for Rice Improvement--Breakthroughs and Beneficiaries (J. Bennett).
Index of Contributors.
Rice Biotechnology: Improving Yield, Stress Tolerance and Grain Quality, No. 236 (US $205.00)
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