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Skip to Search Results- 1Adihetty, Dilini D
- 1Donner, Tyler James
- 1Li, Shengjuan
- 1Mikitzel, Loretta J.
- 1Nguyen, Linh M
- 1Sherr, Ira
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Fall 2018
In pea (Pisum sativum), normal pericarp growth requires the presence of seeds and removal or abortion of seeds lead to reduced pericarp growth and subsequent abscission. Previous studies in pea showed that auxin levels are higher in seeds than the surrounding ovary (pericarp) tissues, suggesting...
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Fall 2022
To form tissue networks, animal cells migrate and interact through proteins protruding from their plasma membranes. Plant cells can do neither, yet plants form vein networks. How plants do so is unclear, but the prevailing hypothesis proposes that GNOM — a regulator of vesicle formation in...
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Effect of modulation of auxin response on clubroot development caused by Plasmodiophora brassicae in Arabidopsis
DownloadSpring 2024
Clubroot disease caused by the obligate biotrophic protist Plasmodiophora brassicae, is a serious soilborne disease in Brassicaceae species including cruciferous crops such as canola and the genetic model species Arabidopsis. This disease, identified by the formation of sizable root galls, is...
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Fall 2012
ABSTRACT The plant vascular system transports water and nutrients, but also regulatory molecules that function in short- and long-distance mechanisms to pattern surrounding tissues. As such, the development of the vascular system is tied to the overall patterning and development of the plant...
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The ecology of boreal forest floor microbial communities in relation to environmental factors
DownloadFall 2012
Soil microbial communities in boreal forests are structured by complex interactions among many factors operating simultaneously on large and small spatial scales. Of particular note in the boreal mixedwood, the microbial communities under trembling aspen and white spruce forest floors are...
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Spring 2013
The plant vascular system is a network of vascular strands that transport nutrients and signals. Some of these signals control the development of non-vascular tissues surrounding vascular strands; some others coordinate the development of new branches, leaves, and flowers with that of new roots....