Optimisation of Sporosori Purification and Protein Extraction Techniques for the Biotrophic Protozoan Plant Pathogen Spongospora subterranea

Article

Balotf, Sadegh, Wilson, R., Tegg, Robert S., Nichols, David S. and Wilson, Calum R.. 2020. "Optimisation of Sporosori Purification and Protein Extraction Techniques for the Biotrophic Protozoan Plant Pathogen Spongospora subterranea." Molecules. 25 (14). https://doi.org/10.3390/molecules25143109
Article Title

Optimisation of Sporosori Purification and Protein Extraction Techniques for the Biotrophic Protozoan Plant Pathogen Spongospora subterranea

ERA Journal ID22271
Article CategoryArticle
AuthorsBalotf, Sadegh, Wilson, R., Tegg, Robert S., Nichols, David S. and Wilson, Calum R.
Journal TitleMolecules
Journal Citation25 (14)
Number of Pages13
YearJul 2020
PublisherMDPI AG
Place of PublicationSwitzerland
ISSN1420-3049
Digital Object Identifier (DOI)https://doi.org/10.3390/molecules25143109
Web Address (URL)https://www.mdpi.com/1420-3049/25/14/3109
Abstract

Spongospora subterranea is a soil-borne plant pathogen responsible for the economically significant root and powdery scab diseases of potato. However, the obligate biotrophic nature of S. subterranea has made the detailed study of the pathogen problematic. Here, we first compared the benefits of sporosori partial purification utilizing Ludox® gradient centrifugation. We then undertook optimization efforts for protein isolation comparing the use of a urea buffer followed by single-pot solid-phase-enhanced sample preparation (SP3) and a sodium dodecyl sulphate (SDS) buffer followed by suspension-trapping (S-Trap). Label-free, quantitative proteomics was then used to evaluate the efficiency of the sporosori purification and the protein preparation methods. The purification protocol produced a highly purified suspension of S. subterranea sporosori without affecting the viability of the spores. The results indicated that the use of a combination of SDS and S-Trap for sample clean-up and digestion obtained a significantly higher number of identified proteins compared to using urea and SP3, with 218 and 652 proteins identified using the SP3 and S-Trap methods, respectively. The analysis of proteins by mass spectrometry showed that the number of identified proteins increased by approximately 40% after the purification of spores by Ludox®. These results suggested a potential use of the described spore purification and protein preparation methods for the proteomics study of obligate biotrophic pathogens such as S. subterranea.

KeywordsSpongospora subterranea; sporosori; density gradient centrifugation; Ludox(R); proteomics; S-Trap
Contains Sensitive ContentDoes not contain sensitive content
ANZSRC Field of Research 20203001. Agricultural biotechnology
Byline AffiliationsUniversity of Tasmania
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