Wolbachia
publication ID |
https://doi.org/ 10.1007/s13127-015-0217-7 |
persistent identifier |
https://treatment.plazi.org/id/BA16D850-FFC7-FFF4-4461-F9195C183136 |
treatment provided by |
Felipe |
scientific name |
Wolbachia |
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Wolbachia View in CoL infection
The prevalence of Wolbachia was 100 % both in M. alcon and M. arion irrespective of phenology or differential food plant usage while the infection level was 36.2 % in M. nausithous and 14.4 % in M. teleius (Online Resource 1; Fig. 1a, b View Fig ). In Wolbachia infestation of the latter two species, we could not detect any geographical pattern ( Fig. 1b View Fig ).
All M. alcon individuals were infected with a single Wolbachia strain which belonged to supergroup B ( Table 1; Fig. 2). The WSP allele no. 575 and the sequence type (ST) no. 235 were identified in M. alcon . Similarly, all M. arion individuals were infected with only one strain which belonged to supergroup A ( Table 1; Fig. 2). A new WSP allele was identified from this species and submitted to the Wolbachia MLST database (no. 685). The sequence type (ST) no. 403 was found in M. arion .
M. nausithous harboured various 16S rRNA sequences belonging to both Wolbachia supergroups A and B (Fig. 2; Table 2). Additionally, highly divergent sequences occurred even in a single population of this species. Similarly, M. teleius contained different 16S rRNA sequences belonging to both supergroups A and B (Fig. 2; Table 2). The parameters of 16S rRNA gene diversity were proved to be higher in M. teleius than in M. nausithous ( Table 2). Additionally, neutrality tests indicated significantly positive departure from the neutral model of molecular evolution.
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