Dissertation
Transcriptomic Characterization of Novel Fruit Ripening Pathways
Washington State University
Doctor of Philosophy (PhD), Washington State University
12/2019
DOI:
https://doi.org/10.7273/000005570
Abstract
Ripening of climacteric fruits is characterized by a rise in respiration and concomitant burst of ethylene biosynthesis. While this general pattern is shared among climacteric fruits, there are a few exceptions. European pears (Pyrus communis) require a genetically pre-determined amount of cold exposure, called conditioning, to transition from System 1 (S1) to System 2 (S2) ethylene biosynthesis. Recent research from the lab has implicated pre-climacteric alternative oxidase activity in this transition. In addition to the need for cold exposure, European pear cultivars exhibit variability in response to ethylene receptor antagonist 1-methylcyclopropene (1-MCP). Unlike apples and other climacteric fruits, pears do not regain their ripening capacity following 1-MCP treatment despite the conditioning treatment. A chemical genomics study aimed at activating alternative oxidase in 1-MCP treated pears identified glyoxylic acid for its ability to override the metabolic blockage of ethylene biosynthesis caused by 1-MCP.This dissertation characterizes a natural variation in climacteric ripening represented by European pear, by (1) Summarizing and distilling published information regarding the role of respiration in climacteric fruit. Many of the physiological and phenotypic changes that occur during ripening are attributed to ethylene, however the molecular and metabolic crosstalk between autocatalytic ethylene production and respiration are less understood. Results of recent work implicate the alternative oxidase (AOX) respiratory pathway in crosstalk between ethylene, respiration, and other ripening-associated processes; (2) Conducting comparative physiological and transcriptomics analyses of two pear genotypes that require different durations of cold temperature exposure in order to ripen. Transcriptomic analysis revealed that cold temperature conditioning leads to heightened expression of vernalization-associated genes, homologs of which are necessary for other cold-dependent processes like seed germination and flowering. These genes may serve as regulatory points in the initiation of ripening in fruit that require cold conditioning; (3) Assessing the impact of glyoxylic acid in chemical induction of ripening in 1-MCP treated 'D'Anjou' pear fruit using physiological and transcriptomics approaches. Results demonstrate that glyoxylic acid effectively elicits physiological responses as well as significant changes in global gene expression, including that of AOX, in 1-MCP treated pear fruit that would be otherwise incapable of ripening normally.
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Details
- Title
- Transcriptomic Characterization of Novel Fruit Ripening Pathways
- Creators
- Seanna Louise Hewitt
- Contributors
- Amit Dhingra (Chair)Katherine M Evans (Committee Member) - Washington State University, Horticulture, Department ofAnantharaman Kalyanaraman (Committee Member) - Washington State University, Electrical Engineering and Computer Science, School ofRichard N Knowles (Committee Member)
- Awarding Institution
- Washington State University
- Academic Unit
- Program in Molecular Plant Sciences
- Theses and Dissertations
- Doctor of Philosophy (PhD), Washington State University
- Publisher
- Washington State University
- Number of pages
- 170
- Identifiers
- 99901054233001842
- Language
- English
- Resource Type
- Dissertation