Understanding resistance and transcriptional responses to potato virus Y infection in potato plants

The potato is one of the world's most important crops. Cultivation of potatoes occurs on every continent except Antarctica and in a wide variety of climates. Potatoes are susceptible to a multitude of pathogens that can decrease yield and market quality. Viruses are particularly problematic for...

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Bibliographic Details
Main Author: Ross, Brian Thomas
Other Authors: Chairperson, Graduate Committee: Michelle Flenniken, Nina Zidack and Michelle L. Flenniken were co-authors of the article, 'Extreme resistance to viruses in potato and soybean' in the journal 'Frontiers in plant science' which is contained within this dissertation., Nina Zidack and Michelle L. Flenniken were co-authors of the article, 'Transcriptional responses to potato virus Y infection in resistant and susceptible potato cultivars' submitted to the journal 'Cultivars' which is contained within this dissertation.
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: Montana State University - Bozeman, College of Agriculture 2021
Subjects:
Potatoes
RNA viruses
Plant viruses
Natural immunity
Host-virus relationships
Genetic transcription
Antarc*
Antarctica
Online Access:https://scholarworks.montana.edu/xmlui/handle/1/16650
Description
Summary:The potato is one of the world's most important crops. Cultivation of potatoes occurs on every continent except Antarctica and in a wide variety of climates. Potatoes are susceptible to a multitude of pathogens that can decrease yield and market quality. Viruses are particularly problematic for potato growers, as most potato production involves the replanting of tubers grown the previous year. Because virus-infected potato plants can harbor virus in their tubers, these tubers can in turn be the source of infection in the next generation of plants. Strains of Potato virus Y are the most economically burdensome viruses for potato growers worldwide. In field settings, Potato virus Y is primarily transmitted to plant by aphids feeding on leaves, but PVY can also be transmitted mechanically through infected plant sap. The use of insecticides and the application of mineral oil to leaves can help limit aphid populations and prevent infection to an extent but are generally both less effective and more environmentally impactful than genetic antiviral resistance mechanisms. The incorporation of genes that provide durable resistance to Potato virus Y into commercial potatoes is a major focus of potato breeders. One form of resistance, called extreme resistance, is characterized by a lack of symptoms and little to no virus replication occurring at the site of infection, but the molecular mechanisms of this response are not well understood. A comprehensive analysis of the extreme resistance literature indicates that movement of the resistance protein from the cytoplasm to the nucleus of the cell directly after virus infection may be a key aspect of this immune response. The downstream, transcriptional aspects of the extreme resistance response are also not well understood. We analyzed the gene expression from a Potato virus Y-resistant potato variety, Payette Russet, and a commonly grown susceptible variety, Russet Burbank, at a series of time points after virus infection using RNA sequencing. Results of these analyses ...

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