Most Plasmodiophora brassicae Populations in Single Canola Root Galls from Alberta Fields are Mixtures of Multiple Strains.

Clubroot, caused by Plasmodiophora brassicae, is an important disease on canola in Alberta, Canada. The pathogen is grouped into pathotypes according to their virulence reaction on differential hosts. Multiple pathotypes or strains are known exist in one field, one plant, or even one gall. This study was conducted with the objective of testing the prevalence of the coexistence of multiple strains in a single gall. In all, 79 canola clubroot galls were collected from 22 fields across Northern Alberta in 2018. Genomic DNA extracted from these single galls was analyzed using RNase H-dependent PCR (rhPCR). The rhPCR primers were designed to amplify a partial sequence of a dimorphic gene, with one primer pair specific to one sequence and the other primer pair specific to the alternative sequence. The amplification of both sequences from DNA obtained from a single gall would indicate that it contains two different P. brassicae strains. The rhPCR analyses indicated that the P. brassicae populations in 50 of the 79 galls consisted of more than one strain. This result emphasizes the need for cautious interpretation of results when a single-gall population is subject to pathotyping or being used as inoculum in plant pathology research. It also confirms that the maintenance of pathotype diversity within single root galls is a common occurrence which has implications for the durability, and stewardship, of single-gene host resistance.

DNA Sequence Dimorphisms in Populations of the Clubroot Pathogen Plasmodiophora brassicae.

To develop genetic markers for differentiation between pathotypes of the clubroot pathogen Plasmodiophora brassicae, DNA polymorphisms of 85 P. brassicae genes were investigated by comparing the sequences of these genes from published expressed sequence tag libraries to their sequences in the two released whole genomes. A significant portion of the identified sequence differences across all polymorphic genes are between an isolate from New Zealand and the two whole-genome sequenced isolates. Four genes with a high density of polymorphisms were selected and their partial sequences were amplified by polymerase chain reaction (PCR) from the old pathotypes 2, 3, 5, 6, and 8 (based on the Williams differential set) and the new virulent populations 3-like and 5-like. On the sequences of two of the four genes, the old pathotypes are all identical to the two whole-genome sequenced isolates and all of the new virulent populations are identical to the New Zealand isolate. Based on the dimorphism on the sequence of these two genes, an RNase H-dependent PCR protocol was developed. This protocol was demonstrated to be useful for virulent pathotype identification and may also be used to study the population dynamics of P. brassicae and the in planta interaction of different pathotypes.

Alkaline treatment of resting spores prior to DNA extraction improves the purity of Plasmodiophora brassicae DNA.

A commonly used protocol for DNA extraction from Plasmodiophora brassicae was modified by adding an alkaline treatment step to increase the purity of resting spores. The quality of DNA extracted by the modified protocol was improved due to the removal of DNA contamination from host plant cells and other microorganisms.