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

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Sorghum Transformation: Overview and Utilitye other resources to aid in down-stream hypothesis testing. A key functional genomics tool is the ability to modulate gene expression through the introduction of transgenic genetic elements. This is exemplified by recent work (Cook et al. Plant Cell 22:867–887, 2010) in which RNAi experiments were e

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Bridging Conventional and Molecular Genetics of Sorghum Insect Resistanceal basis are the greenbug, sorghum midge, sorghum shoot fly (. Rond.), stem borers (. Swin. and . Fuller), and armyworms (. Walk and . J.E. Smith). Recent advances in sorghum genetics, genomics, and breeding have led to development of some cutting-edge molecular technologies that are complementary t

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https://doi.org/10.1007/978-3-531-93471-6., and . Sugarcane has long been recognized as one of the world’s most efficient crops in converting solar energy into chemical energy harvestable as biomass, and is of growing interest as a biofactory for production of fossil fuel alternatives and other high-value bioproducts.

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,Alkoholische Geistesst?rungen,ng time, including short-day flower induction, will permit plant breeders to optimize local adaptation and biomass-yield of ., just as they have done for maize, sorghum and sugarcane. Germplasm collections that are representative of the genus and publicly available need to be established and charact

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https://doi.org/10.1007/978-3-663-13569-2 provide the foundation for use of sorghum as a Saccharinae functional genomics model. Here, we revisit the sequencing and initial analysis of the sorghum genome, providing more detail than could be included in the primary description of the genome and also highlighting planned efforts to increase k

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