Titlebook: Genetics and Genomics of Cotton; Andrew H. Paterson Book 2009 Springer-Verlag New York 2009 DNA.biodiversity.bioinformatics.cotton.ecosyst

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Physical Composition and Organization of the , Genomesf this variation was attributable to the repetitive DNA fractions, and subsequent cloning and sequencing studies have revealed specific DNA elements and families that contribute to this variation. The relationship between physical quantity of DNA and genetic distance (recombination fraction) in a re

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The , Transcriptomeces are from cultivated . and its close diploid relatives . and .. Our current understanding of the . transcriptome is based on the assembly of these expressed sequences into unique, non-overlapping unigenes (putative gene models). With this compilation of expressed sequences, DNA microarrays have b

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Genetic Engineering of Cottonand hope from scientists and the public alike. The technologies justify the responses, for they are undoubtedly the most powerful biological research tools in existence today. They are not, however, new tools that have suddenly burst upon us. Rather, as with most new tools, the scientific community

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Bridging Classical and Molecular Cytogenetics of ,studied by cotton genetists and breeders. Cytogenetic tools play an important role in cotton genome research and cotton breeding. Based essentially on the observation of chromosome morphologies and the analysis of chromosome pairing, classical cytogenetics has contributed greatly to understanding co

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Bridging Classical and Molecular Genetics of Cotton Disease Resistancehan 50 bacteria, fungi, virus, and nematodes have been implicated in cotton diseases that annually account for an estimated $897 million in lost revenue to the U.S. crop. Advances in cotton genetics have led to the development of several technologies that enable the detailed examination of the cotto

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Bridging Classical and Molecular Genetics of Abiotic Stress Resistance in Cottonor abiotic stress factor (section .). Plant responses to abiotic stress are briefly discussed (section .), followed by the origin of cotton and its implications for the available genetic resources for abiotic stress resistance (section .). The next sections describe attempts to dissect and improve c