Titlebook: Genomics of the Saccharinae; Andrew H. Paterson Book 2013 Springer Science+Business Media New York 2013

prodrome

Genetic Engineering of ,procedures, allowing a higher efficiency of generating transgenic plants using .-mediated and biolistic gene transfers. Elucidation of gene function and development of varieties with improved yield, sugar level, fiber content, and other desirable traits and products for superior performance have bee

Gum-Disease

Genetic Engineering of ,ass and biofuels industries. An efficient method for transformation of . developed in the laboratories of the authors is presented. Traits of value to the biomass/biofuels industry and strategies for how they could be improved by insertion of a transgene(s) are described, including herbicide resista

CURB

florid

Emmenagogue

Bridging Classical and Molecular Genetics of Sorghum Disease Resistancedentification of resistant cultivars from large and readily available germplasm collections, crosses to elite but susceptible varieties, followed by backcrosses, selfing, and selection, have been used to develop disease-resistant breeding and commercial lines. However, for almost every disease, the

假設(shè)

Bridging Conventional and Molecular Genetics of Sorghum Insect Resistance crop. Insect pests are a major constraint in sorghum production, and nearly 150 insect species are serious pests of this crop worldwide and cause more than 9% loss annually. Annual losses due to insect pests in sorghum have been estimated to be $1,089 million in the semiarid tropics (ICRISAT Annual

致命

Book 2013nity and the promise of still-greater contributions, as a result of some of the highest biomass productivity levels known, resilience to drought and other environmental challenges that are likely to increase, amenability to production systems that may mitigate or even reverse losses of ecological ca

范圍廣

BROW

theta-waves