A physical map of the 1-gigabase bread wheat chromosome 3B |
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| Authors: | Paux Etienne Sourdille Pierre Salse Jérôme Saintenac Cyrille Choulet Frédéric Leroy Philippe Korol Abraham Michalak Monika Kianian Shahryar Spielmeyer Wolfgang Lagudah Evans Somers Daryl Kilian Andrzej Alaux Michael Vautrin Sonia Bergès Hélène Eversole Kellye Appels Rudi Safar Jan Simkova Hana Dolezel Jaroslav Bernard Michel Feuillet Catherine |
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| Affiliation: | Institut National de la Recherche Agronomique, Université Blaise Pascal (INRA-UBP), UMR 1095, Genetics Diversity and Ecophysiology of Cereals, Clermont-Ferrand, France. |
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| Abstract: | As the staple food for 35% of the world's population, wheat is one of the most important crop species. To date, sequence-based tools to accelerate wheat improvement are lacking. As part of the international effort to sequence the 17-billion-base-pair hexaploid bread wheat genome (2n = 6x = 42 chromosomes), we constructed a bacterial artificial chromosome (BAC)-based integrated physical map of the largest chromosome, 3B, that alone is 995 megabases. A chromosome-specific BAC library was used to assemble 82% of the chromosome into 1036 contigs that were anchored with 1443 molecular markers, providing a major resource for genetic and genomic studies. This physical map establishes a template for the remaining wheat chromosomes and demonstrates the feasibility of constructing physical maps in large, complex, polyploid genomes with a chromosome-based approach. |
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