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| Status |
Public on Apr 20, 2022 |
| Title |
Protozoan predation drives rapid adaptive divergence by selecting for tuned cellulose production and amyloid fibrils in Pseudomonas fluorescens SBW25 |
| Organisms |
Pseudomonas fluorescens; Acanthamoeba sp. |
| Experiment type |
Expression profiling by high throughput sequencing
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| Summary |
Purpose: Protozoan predators affect the structure of bacterial communities, but investigations into how predation influences bacterial evolution and antagonistic behaviours are scarce. We performed a 20-day predator-prey evolution experiment on solid media to investigate the adaptive traits that arise in bacterial prey under continuous protozoan predation.
Methods: Pseudomonas fluorescens SBW25 and a wild Acanthamoeba sp. isolate as a predator prey pair co-evolved for 20 days yielded both previously described (Wrinkly Spreader; WS) and novel colony morphotype (Wrinkly Fried Egg; WFE) isolates with conferred grazing resistance. These isolates were subjected to RNAseq profiling with and without predation to determine transcriptional changes contributing to grazing resistance.
Results: For differential gene expression the WT SBW25 without predation was used as a baseline. For the WS condition, a total of 881 differentially expressed genes (DEGs) were identified, of which 424 were upregulated and 457 were downregulated. In the WFE condition, a total of 908 DEGs were identified, of which 475 were upregulated and 434 were downregulated. Among all DEGs, 335 upregulated and 313 downregulated genes were shared between the WS1 and WFE conditions
Conclusions: Our findings suggest that protozoan predation can profoundly influence the course of genetic and phenotypic evolution in a short period of time. Together, the differential expression results suggest expression of features that would be expected to increase biofilm formation in WFE according to previous studies. However, increased expression of these traits may not lead to a stronger biofilm, but may still provide predation resistance. For example, fibrils may increase the effective profile size of a bacterial cell. Increased Fap-mediated biofilm formation also induces increased alginate synthesis in P. aeruginosa PA01, an exopolysaccharide that protects mucoid P. aeruginosa against macrophage killing. Interestingly, we found increased expression of alginate biosynthesis genes in both WFE and WS1 (algA, algF), suggesting alternate mechanisms leading to increased alginate production in these two strains.
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| Overall design |
mRNA profiles of Co-evolved predator (Acathamoeba sp.) and prey (Pseudomonas fluorescens SBW25)
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| Contributor(s) |
Golzar F, Miller M, Hendrickson H |
| Citation missing |
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| |
| Submission date |
Apr 13, 2022 |
| Last update date |
Apr 23, 2022 |
| Contact name |
Heather Hendrickson |
| E-mail(s) |
[email protected]
|
| Phone |
+6433691875
|
| Organization name |
University of Cantebury
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| Department |
Biological Sciences
|
| Street address |
+6433691875
|
| City |
Christchurch |
| ZIP/Postal code |
8140 |
| Country |
New Zealand |
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| Platforms (2) |
| GPL28120 |
NextSeq 550 (Pseudomonas fluorescens) |
| GPL32161 |
NextSeq 550 (Acanthamoeba sp.; Pseudomonas fluorescens) |
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| Samples (24)
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| Relations |
| BioProject |
PRJNA826423 |
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