Burkholderia terrae BS001 has previously been found to be able to disperse along with growing fungal hyphae in soil, with the type-3 secretion system having a supportive role in this movement. In this study, we focus on the role of two motility- and adherence-associated appendages, i.e. type-4 pili (T4P) and flagella. Electron microcopy and motility testing revealed that strain BS001 produces polar flagella and can swim on semi-solid R2A agar. Flagellum- and T4P-negative mutants were then constructed to examine the ecological roles of the respective systems. Both in liquid media and on swimming agar, the mutant strains showed similar fitness to the wild-type strain in mixed culture. The flagellar mutant had completely lost its flagella, as well as its swimming capacity. It also lost its co-migration ability with two soil-exploring fungi, Lyophyllum sp. strain Karsten and Trichoderma asperellum 302, in soil microcosms. In contrast, the T4P mutant showed reduced surface twitching motility, whereas its co-migration ability in competition with the wild-type strain was slightly reduced. We conclude that the co-migration of strain BS001 with fungal hyphae through soil is dependent on the presence of functional flagella conferring swimming motility, with the T4P system having a minor effect.
The type three secretion system (T3SS) is known to play a critical role in several bacterial-eukaryotic cell interactions. Recent indirect evidence has also pointed to a role of this system in bacterial-fungal interactions in soil. In the current study, we examine if the T3SS of the fungal-interactive Burkholderia terrae strain BS001 can aid in the interaction of this bacterium with two soil fungi, i.e., Lyophyllum sp. strain Karsten and Trichoderma asperellum 302. We first analyzed the T3SS of strain BS001 and then constructed a knockout mutant of the essential sctD gene. The selected sctD mutant strain did not show any differences to the wild-type strain with respect to its growth and nutrient utilization behavior, excluding polar effects of the mutation. Then, the migration ability of the sctD mutant strain along with the hyphae of Lyophyllum sp. strain Karsten growing through presterilized soil was tested, revealing hampered comigration as compared to the wildtype strain. The effect was also observed with T. asperellum 302. However, the migration impairment was only noticed in mixed-inoculation experiments, whereas it remained unnoticed when the two strains were inoculated in separate. These data demonstrate that the T3SS assists B. terrae BS001 in its interaction with two soil fungi, without being essential for these interactions. As far as we know, this is the first time that the role of a T3SS in the comigration of bacteria along with soil-exploring fungi is verified directly.
Plasmids of the IncP-1β group have been found to be important carriers of accessory genes that enhance the ecological fitness of bacteria, whereas plasmids of the PromA group are key agents of horizontal gene transfer in particular soil settings. However, there is still a paucity of knowledge with respect to the diversity, abundance, and involvement in horizontal gene transfer of plasmids of both groups in the mycosphere. Using triparental exogenous isolation based on the IncQ tracer plasmid pSUP104 as well as direct molecular detection, we analyzed the pool of mobilizer and self-transferable plasmids in mycosphere soil. Replicate mushroom types that were related to Russula, Inocybe, Ampulloclitocybe, and Galerina spp. were sampled from a forest soil area, and bulk soil was used as the control. The data showed that the levels of IncP-1β plasmids are significantly raised across several of the mycospheres analyzed, whereas those of PromA group plasmids were similar across the mycospheres and corresponding bulk soil. Moreover, the frequencies of triparental exogenous isolation of mobilizer plasmids into a Pseudomonas fluorescens recipient strain were significantly elevated in communities from several mycospheres as compared with those from bulk soil. Molecular analysis of selected transconjugants, as well as from directly isolated strains, revealed the presence of plasmids of three size groups, i.e., (1) 40-45, (2) 50-60, and (3) ≥60 kb, across all isolations. Replicon typing using IncN, IncW and IncA/C proxies revealed no positive signals. In contrast, a suite of plasmids produced signals with IncP-1β as well as PromA type replicon typing systems. Moreover, a selected subset of plasmids, obtained from the Inocybe and Galerina isolates, was transferred out further, revealing their capacities to transfer and mobilize across a broad host range.
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