Quantification of the capacity of vibrio fischeri to establish symbiosis with Euprymna scolopes

Donnelly, Aidan R.; Giacobe, Elizabeth J.; Cook, Rachel A.; Francis, Gareth M.; Buddle, Grace K.; Beaubrun, Christina L.; Cecere, Andrew G.; Miyashiro, Tim I.

doi:10.1371/journal.pone.0287519

Cited by 2 publications

(1 citation statement)

References 28 publications

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“…A 3.5-h exposure to a seawater inoculum of ES114 containing approximately 1,700 CFU/mL will result in half of hatchling population becoming bioluminescent by 24 h post-inoculation (p.i.) (Donnelly et al, 2023). However, we found that hatchlings exposed to inoculums of MRE010 exceeding 10 5 CFU/mL failed to emit bioluminescence (Figure 2).…”

Section: Mre010 Exhibits a Colonization Defectmentioning

confidence: 85%

Inhibition of biofilm formation by a lipopolysaccharide-associated glycosyltransferase in the bacterial symbiont Vibrio fischeri

Provencher,

Ehrig,

Cecere

et al. 2023

Front. Bacteriol.

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Many animals form symbioses with environmental bacteria that provide biological functions beneficial to their hosts. The mechanisms that affect the acquisition of bacterial symbionts remain poorly understood but are important to identify to develop new ways to improve animal health. Vibrio fischeri is a Gram-negative bacterium that forms a mutualistic symbiosis with the Hawaiian bobtail squid Euprymna scolopes. From within a light organ, these V. fischeri populations engage in quorum sensing to produce bioluminescence for the host to eliminate its shadow. In our attempts to investigate how quorum sensing contributes to the evolution of V. fischeri, we unexpectedly isolated a strain that produced large structures resembling biofilms along glass surfaces that readily stain with crystal violet. Biofilm formation by this strain is independent of sypG, which encodes the primary activator of the symbiotic polysaccharide (syp) locus, suggesting a novel biofilm pathway. Squid colonization assays revealed that the isolate exhibited a colonization defect, which suggests that its biofilm phenotype inhibits establishment of symbiosis. Whole-genome sequencing and subsequent culture assays suggest that this biofilm phenotype is due to a single point mutation that confers an I125F substitution in the putative glycosyltransferase VF_0133. Expression of the wild-type copy of VF_0133 in trans eliminates the biofilm-like phenotypes in culture and restores the ability of the strain to establish symbiosis. Investigation of lipopolysaccharide (LPS) structure by silver stain suggests significant modifications to the oligosaccharide core and O-antigen in this strain. Taken together, these findings add knowledge to the role of LPS in V. fischeri physiology and light organ colonization, which provides important insight into how bacterial symbionts are acquired from the environment.

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Section: Mre010 Exhibits a Colonization Defectmentioning

confidence: 85%

Inhibition of biofilm formation by a lipopolysaccharide-associated glycosyltransferase in the bacterial symbiont Vibrio fischeri

Provencher,

Ehrig,

Cecere

et al. 2023

Front. Bacteriol.

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A case study assessing the impact of mating frequency on the reproductive performance of the Hawaiian bobtail squid Euprymna scolopes

2023

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Background The symbiosis between the Hawaiian bobtail squid Euprymna scolopes and bacterium Vibrio fischeri serves as a model for investigating the molecular mechanisms that promote the initial formation of animal-bacterial symbioses. Research with this system frequently depends on freshly hatched E. scolopes, but the husbandry factors that promote hatchling production in a mariculture facility remain underreported. Here we report on the reproductive performance of E. scolopes in response to decreased mating frequency. Results One animal cohort was maintained in a mariculture facility for 107 days, with females assigned to either a control group (mating once every 14 days) or an experimental group (mating once every 21 days). No differences between the groups were observed in survival, the number of egg clutches laid, or hatchling counts. Each group featured multiple females that were hyper-reproductive, i.e., they generated more than 8 egg clutches while in captivity. Examination of the distributions for daily hatchling counts of individual egg clutches revealed significant variation in the hatching patterns among clutches that was independent of mating frequency. Finally, an assessment of hatchling production showed that 93.5% of total hatchlings produced by the cohort were derived from egg clutches laid within the first 70 days. Conclusions These results suggest a lower mating frequency does not impede hatchling production. Furthermore, the variation in hatchling production among egg clutches provides new insight into the reproductive performance of E. scolopes as a lab animal for microbiology research.

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Quantification of the capacity of vibrio fischeri to establish symbiosis with Euprymna scolopes

Cited by 2 publications

References 28 publications

Inhibition of biofilm formation by a lipopolysaccharide-associated glycosyltransferase in the bacterial symbiont Vibrio fischeri

Inhibition of biofilm formation by a lipopolysaccharide-associated glycosyltransferase in the bacterial symbiont Vibrio fischeri

A case study assessing the impact of mating frequency on the reproductive performance of the Hawaiian bobtail squid Euprymna scolopes

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