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Bridging Comparative Genomics and DNA Marker-aided Molecular Breeding  

Choi, Hong-Kyu (Department of Genetic Engineering, Dong-A University)
Cook, Douglas R. (Department of Plant Pathology, University of California)
Publication Information
Korean Journal of Breeding Science / v.43, no.2, 2011 , pp. 103-114 More about this Journal
Abstract
In recent years, genomic resources and information have accumulated at an ever increasing pace, in many plant species, through whole genome sequencing, large scale analysis of transcriptomes, DNA markers and functional studies of individual genes. Well-characterized species within key plant taxa, co-called "model systems", have played a pivotal role in nucleating the accumulation of genomic information and databases, thereby providing the basis for comparative genomic studies. In addition, recent advances to "Next Generation" sequencing technologies have propelled a new wave of genomics, enabling rapid, low cost analysis of numerous genomes, and the accumulation of genetic diversity data for large numbers of accessions within individual species. The resulting wealth of genomic information provides an opportunity to discern evolutionary processes that have impacted genome structure and the function of genes, using the tools of comparative analysis. Comparative genomics provides a platform to translate information from model species to crops, and to relate knowledge of genome function among crop species. Ultimately, the resulting knowledge will accelerate the development of more efficient breeding strategies through the identification of trait-associated orthologous genes and next generation functional gene-based markers.
Keywords
Comparative genomics; Genetic marker; Molecular breeding;
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