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Full-Text Articles in Life Sciences
A Proposed Mechanism For Nitrogen Acquisition By Grass Seedlings Through Oxidation Of Symbiotic Bacteria, James F. White Jr., Holly Crawford, Mónica S. Torres, Robert Mattera, Ivelisse Irizarry, Marshall Bergen
A Proposed Mechanism For Nitrogen Acquisition By Grass Seedlings Through Oxidation Of Symbiotic Bacteria, James F. White Jr., Holly Crawford, Mónica S. Torres, Robert Mattera, Ivelisse Irizarry, Marshall Bergen
All Faculty Scholarship for the College of the Sciences
In this paper we propose and provide evidence for a mechanism, oxidative nitrogen scavenging (ONS), whereby seedlings of some grass species may extract nitrogen from symbiotic diazotrophic bacteria through oxidation by plant-secreted reactive oxygen species (ROS). Experiments on this proposed mechanism employ tall fescue (Festuca arundinaceae) seedlings to elucidate features of the oxidative mechanism. We employed 15N2 gas assimilation experiments to demonstrate nitrogen fixation, direct microscopic visualization of bacteria on seedling surfaces to visualize the bacterial oxidation process, reactive oxygen probes to test for the presence of H2O2 and cultural experiments to assess conditions …
Escape From Preferential Retention Following Repeated Whole Genome Duplications In Plants, James C. Schnable, Xiaowu Wang, J. Chris Pires, Michael Freeling
Escape From Preferential Retention Following Repeated Whole Genome Duplications In Plants, James C. Schnable, Xiaowu Wang, J. Chris Pires, Michael Freeling
Department of Agronomy and Horticulture: Faculty Publications
The well supported gene dosage hypothesis predicts that genes encoding proteins engaged in dose–sensitive interactions cannot be reduced back to single copies once all interacting partners are simultaneously duplicated in a whole genome duplication. The genomes of extant flowering plants are the result of many sequential rounds of whole genome duplication, yet the fraction of genomes devoted to encoding complex molecular machines does not increase as fast as expected through multiple rounds of whole genome duplications. Using parallel interspecies genomic comparisons in the grasses and crucifers, we demonstrate that genes retained as duplicates following a whole genome duplication have only …