Reactive oxygen species play a dual role in the resistance and susceptibility of Camellia to flower blight disease : a thesis presented in partial fulfilment of the requirements for the degree of Master of Science in Plant Biology at Massey University, Manawatลซ, New Zealand

dc.contributor.authorFulton, Cade
dc.date.accessioned2022-03-28T00:54:55Z
dc.date.available2022-03-28T00:54:55Z
dc.date.issued2020
dc.description.abstractReactive oxygen species (ROS), a group of highly reactive biomolecules, are known to rapidly accumulate in plant tissue as an early defence response to pathogen invasion. However, ROS can also contribute to pathogen virulence. Currently, little is known about the activity of these compounds during the interaction between ๐˜Š๐˜ข๐˜ฎ๐˜ฆ๐˜ญ๐˜ญ๐˜ช๐˜ข and the ๐˜Š๐˜ข๐˜ฎ๐˜ฆ๐˜ญ๐˜ญ๐˜ช๐˜ข flower blight (CFB) necrotrophic fungal pathogen, ๐˜Š๐˜ช๐˜ฃ๐˜ฐ๐˜ณ๐˜ช๐˜ฏ๐˜ช๐˜ข ๐˜ค๐˜ข๐˜ฎ๐˜ฆ๐˜ญ๐˜ญ๐˜ช๐˜ข๐˜ฆ L. M. Kohn (Sclerotiniaceae). It has been shown that there is a spectrum of resistance and susceptibility to the disease within the ๐˜Š๐˜ข๐˜ฎ๐˜ฆ๐˜ญ๐˜ญ๐˜ช๐˜ข genus. This study aimed to elucidate the role that ROS play during ๐˜Š. ๐˜ค๐˜ข๐˜ฎ๐˜ฆ๐˜ญ๐˜ญ๐˜ช๐˜ข๐˜ฆ interactions with ๐˜Š๐˜ข๐˜ฎ๐˜ฆ๐˜ญ๐˜ญ๐˜ช๐˜ข on this spectrum of resistance. To achieve this, hydrogen peroxide accumulation was first visualised and compared between the CFB resistant ๐˜Š๐˜ข๐˜ฎ๐˜ฆ๐˜ญ๐˜ญ๐˜ช๐˜ข ๐˜ญ๐˜ถ๐˜ต๐˜ค๐˜ฉ๐˜ถ๐˜ฆ๐˜ฏ๐˜ด๐˜ช๐˜ด and the susceptible ๐˜Š๐˜ข๐˜ฎ๐˜ฆ๐˜ญ๐˜ญ๐˜ช๐˜ข Nicky Crispโ€™ in response to ๐˜Š. ๐˜ค๐˜ข๐˜ฎ๐˜ฆ๐˜ญ๐˜ญ๐˜ช๐˜ข๐˜ฆ. Following the inoculation of flower petals with ๐˜Š. ๐˜ค๐˜ข๐˜ฎ๐˜ฆ๐˜ญ๐˜ญ๐˜ช๐˜ข๐˜ฆ ascospores, widespread apoplastic hydrogen peroxide accumulation and upregulation of genes encoding NADPH oxidase and cell wall peroxidase began 12 hours earlier in the resistant ๐˜Š. ๐˜ญ๐˜ถ๐˜ต๐˜ค๐˜ฉ๐˜ถ๐˜ฆ๐˜ฏ๐˜ด๐˜ช๐˜ด species than the susceptible C. โ€˜Nicky Crispโ€™, which showed very little observable accumulation. In addition, the quantity of hydrogen peroxide significantly increased in the resistant ๐˜Š. ๐˜ญ๐˜ถ๐˜ต๐˜ค๐˜ฉ๐˜ถ๐˜ฆ๐˜ฏ๐˜ด๐˜ช๐˜ด petals, but no change was observed in the susceptible C. โ€˜Nicky Crispโ€™ within the same timeframe. The application of exogenous antioxidants to scavenge the hydrogen peroxide accumulation resulted in disease development in the normally resistant ๐˜Š. ๐˜ญ๐˜ถ๐˜ต๐˜ค๐˜ฉ๐˜ถ๐˜ฆ๐˜ฏ๐˜ด๐˜ช๐˜ด, while the incidence of disease was significantly reduced in the susceptible C. โ€˜Nicky Crispโ€™. Therefore, it was hypothesised that early ROS accumulation contributes to CFB resistance and that late ROS accumulation contributes to CFB susceptibility. This work further expands knowledge of plant interactions with necrotrophic fungal pathogens from the Sclerotiniaceae family by demonstrating that ROS both positively and negatively regulates CFB development based on temporal accumulation, thereby discovering a dual role for ROS accumulation during this interaction.en
dc.identifier.urihttp://hdl.handle.net/10179/16991
dc.language.isoenen
dc.publisherMassey Universityen
dc.rightsThe Authoren
dc.subject.anzsrc310805 Plant pathologyen
dc.titleReactive oxygen species play a dual role in the resistance and susceptibility of Camellia to flower blight disease : a thesis presented in partial fulfilment of the requirements for the degree of Master of Science in Plant Biology at Massey University, Manawatลซ, New Zealanden
dc.typeThesisen
massey.contributor.authorFulton, Cade
thesis.degree.disciplinePlant Biologyen
thesis.degree.levelMastersen
thesis.degree.nameMaster of Science (MSc)en

Files

Original bundle

Now showing 1 - 1 of 1
Loading...
Thumbnail Image
Name:
FultonMScThesis.pdf
Size:
1.69 MB
Format:
Adobe Portable Document Format
Description:

License bundle

Now showing 1 - 1 of 1
Loading...
Thumbnail Image
Name:
license.txt
Size:
3.32 KB
Format:
Item-specific license agreed upon to submission
Description: