5 results on '"G Jesus Sanchez"'
Search Results
2. Population structure and genetic diversity of New World maize races assessed by DNA microsatellites
- Author
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Vigouroux, Yves, Glaubitz, Jeffrey C., Matsuoka, Yoshihiro, Goodman, Major M., G., Jesus Sanchez, and Doebley, John
- Subjects
Corn -- Genetic aspects ,Corn -- Economic aspects ,Biological diversity -- Research ,Biological sciences - Abstract
Because of the economic importance of maize and its scientific importance as a model system for studies of domestication, its evolutionary history is of general interest. We analyzed the population genetic structure of maize races by genotyping 964 individual plants, representing almost the entire set of ~350 races native to the Americas, with 96 microsatellites. Using Bayesian clustering, we detected four main clusters consisting of highland Mexican, northern United States (US), tropical lowland, and Andean races. Phylogenetic analysis indicated that the southwestern US was an intermediary stepping stone between Mexico and the northern US. Furthermore, southeastern US races appear to be of mixed northern flint and tropical lowland ancestry, while lowland middle South American races are of mixed Andean and tropical lowland ancestry. Several cases of post-Columbian movement of races were detected, most notably from the US to South America. Of the four main clusters, the highest genetic diversity occurs in highland Mexican races, while diversity is lowest in the Andes and northern US. Isolation by distance appears to be the main factor underlying the historical diversification of maize. We identify highland Mexico and the Andes as potential sources of genetic diversity underrepresented among elite lines used in maize breeding programs. Keys words: diversification; domestication; genetic diversity; microsatellites; races; Zea mays subsp. mays.
- Published
- 2008
3. Population structure and genetic diversity of New World maize races assessed by DNA microsatellites
- Author
-
Jeffrey C. Glaubitz, Yves Vigouroux, Yoshihiro Matsuoka, G Jesus Sanchez, Major M. Goodman, and John Doebley
- Subjects
education.field_of_study ,Genetic diversity ,Phylogenetic tree ,Ecology ,media_common.quotation_subject ,Population ,Plant Science ,Biology ,parasitic diseases ,Genetic structure ,Genetics ,Microsatellite ,Domestication ,education ,Ecology, Evolution, Behavior and Systematics ,Diversity (politics) ,media_common ,Isolation by distance - Abstract
Because of the economic importance of maize and its scientific importance as a model system for studies of domestication, its evolutionary history is of general interest. We analyzed the population genetic structure of maize races by genotyping 964 individual plants, representing almost the entire set of ∼350 races native to the Americas, with 96 microsatellites. Using Bayesian clustering, we detected four main clusters consisting of highland Mexican, northern United States (US), tropical lowland, and Andean races. Phylogenetic analysis indicated that the southwestern US was an intermediary stepping stone between Mexico and the northern US. Furthermore, southeastern US races appear to be of mixed northern flint and tropical lowland ancestry, while lowland middle South American races are of mixed Andean and tropical lowland ancestry. Several cases of post-Columbian movement of races were detected, most notably from the US to South America. Of the four main clusters, the highest genetic diversity occurs in highland Mexican races, while diversity is lowest in the Andes and northern US. Isolation by distance appears to be the main factor underlying the historical diversification of maize. We identify highland Mexico and the Andes as potential sources of genetic diversity underrepresented among elite lines used in maize breeding programs.
- Published
- 2008
4. Genetic diversity and population structure of teosinte
- Author
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Jason Hill, G Jesus Sanchez, Yves Vigouroux, Kenji Fukunaga, Kejun Liu, Edward S. Buckler, Yoshihiro Matsuoka, and John Doebley
- Subjects
Genetic Markers ,Genotype ,Population ,Introgression ,Minisatellite Repeats ,Subspecies ,Biology ,Investigations ,Genes, Plant ,Zea mays ,Species Specificity ,Phylogenetics ,Genetics ,education ,Alleles ,Phylogeny ,Hybrid ,Genetic diversity ,education.field_of_study ,Phylogenetic tree ,Geography ,fungi ,food and beverages ,Genetic Variation ,Nucleic Acid Hybridization ,Phylogeography ,Genetics, Population ,Multigene Family ,Monte Carlo Method ,Software ,Microsatellite Repeats - Abstract
The teosintes, the closest wild relatives of maize, are important resources for the study of maize genetics and evolution and for plant breeding. We genotyped 237 individual teosinte plants for 93 microsatellites. Phylogenetic relationships among species and subspecific taxa were largely consistent with prior analyses for other types of molecular markers. Plants of all species formed monophyletic clades, although relationships among species were not fully resolved. Phylogenetic analysis indicated that the Mexican annual teosintes divide into two clusters that largely correspond to the previously defined subspecies, Z. mays ssp. parviglumis and ssp. mexicana, although there are a few samples that represent either evolutionary intermediates or hybrids between these two subspecies. The Mexican annual teosintes show genetic substructuring along geographic lines. Hybridization or introgression between some teosintes and maize occurs at a low level and appears most common with Z. mays ssp. mexicana. Phylogeographic and phylogenetic analyses of the Mexican annual teosintes indicated that ssp. parviglumis diversified in the eastern part of its distribution and spread from east to west and that ssp. mexicana diversified in the Central Plateau of Mexico and spread along multiple paths to the north and east. We defined core sets of collections of Z. mays ssp. mexicana and ssp. parviglumis that attempt to capture the maximum number of microsatellite alleles for given sample sizes.
- Published
- 2005
5. A single domestication for maize shown by multilocus microsatellite genotyping
- Author
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Yves Vigouroux, G Jesus Sanchez, John Doebley, Edward S. Buckler, Yoshihiro Matsuoka, and Major M. Goodman
- Subjects
Genetic diversity ,Multidisciplinary ,Phylogenetic tree ,Genotype ,Genomics of domestication ,Biology ,Biological Sciences ,biology.organism_classification ,Genes, Plant ,Zea mays ,Zea diploperennis ,Gene flow ,Phylogenetics ,Evolutionary biology ,Botany ,Microsatellite ,Domestication ,Phylogeny ,Microsatellite Repeats - Abstract
There exists extraordinary morphological and genetic diversity among the maize landraces that have been developed by pre-Columbian cultivators. To explain this high level of diversity in maize, several authors have proposed that maize landraces were the products of multiple independent domestications from their wild relative (teosinte). We present phylogenetic analyses based on 264 individual plants, each genotyped at 99 microsatellites, that challenge the multiple-origins hypothesis. Instead, our results indicate that all maize arose from a single domestication in southern Mexico about 9,000 years ago. Our analyses also indicate that the oldest surviving maize types are those of the Mexican highlands with maize spreading from this region over the Americas along two major paths. Our phylogenetic work is consistent with a model based on the archaeological record suggesting that maize diversified in the highlands of Mexico before spreading to the lowlands. We also found only modest evidence for postdomestication gene flow from teosinte into maize.
- Published
- 2002
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