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United States Department of Agriculture

Agricultural Research Service


item Hoekenga, Owen - CORNELL UNIVERSITY
item Buckler, Edward
item Magalhaes, Jurandir - EMBRAPA, BRAZIL
item Isaacson, Tal - CORNELL UNIVERSITY
item Kirst, Matias - UNIVERSITY OF FLORIDA
item Krill, Allison - CORNELL UNIVERSITY
item Lyi, Sangbom - CORNELL UNIVERSITY
item Rose, Jocelyn - CORNELL UNIVERSITY
item Thannhauser, Theodore
item Kochian, Leon

Submitted to: Plant and Animal Genome VX Conference Abstracts
Publication Type: Abstract Only
Publication Acceptance Date: January 6, 2006
Publication Date: January 14, 2006
Citation: Hoekenga, O., Buckler Iv, E.S., Maron, L., Magalhaes, J., Isaacson, T., Kirst, M., Krill, A., Lyi, S.M., Rose, J., Thannhauser, T.W., Kochian, L.V. 2006. Interdisciplinary analysis of aluminum tolerance in maize [abstract]. Plant and Animal Genome VX Conference Abstracts. p. 226.

Technical Abstract: Aluminum (Al) toxicity is a profound limitation to crop production worldwide, reducing yields on up to 50% of potentially arable lands. Breeding for Al tolerance and agronomic practices aimed at ameliorating soil acidity have historically been productive avenues for improved crop production. However, it is widely recognized that additional improvements in crop Al tolerance will depend on biotechnology. We undertook an experimental plan integrating statistical genetic, genomic and proteomic approaches, building upon our previous work on the genetic and physiological bases for Al tolerance in maize. We identified five Al tolerance QTL in the Intermated B73 x Mo17 (IBM) recombinant inbred population, which together explain nearly 60% of the variance observed. Physiological profiling is underway, but we hypothesize that Al activated citrate release explains at least part of the differences in Al tolerance observed. We used microarray analysis to characterize the root tip transcriptome, together with a limited use of proteomics to validate the gene expression work. The results of the microarray experiments have been analyzed with respect to the physical and genetic maps of maize and in a comparative sense with the rice genome. Based on all of these experiments, we selected candidate Al tolerance genes to evaluate using association analysis. We identified several single nucleotide polymorphisms in multiple genes that are associated with Al tolerance. Supported by NSF Plant Genome Award DBI #0419435, a CGIAR Generation Challenge grant, a McKnight Foundation Collaborative Crop Research Program and USDA-ARS base funds.

Last Modified: 11/24/2015