Lauren A Perry scite author profile

Although most Vibrio fischeri isolates are capable of symbiosis, the coevolution of certain strains with the Hawaiian bobtail squid, Euprymna scolopes, has led to specific adaptation to this partnership. For instance, strains from different hosts or from a planktonic environment are ineffective squid colonists. Even though bioluminescence is a symbiotic requirement, curiously, symbionts of E. scolopes are dim in culture relative to fish symbionts and free-living isolates. It is unclear whether this dim phenotype is related to the symbiosis or simply coincidental. To further explore the basis of symbiont specificity, we developed an experimental evolution model that utilizes the daily light organ venting behavior of the squid and horizontal acquisition of symbionts for serial passage of cultures. We passaged six populations each derived from the squid-naïve strains of V. fischeri MJ11 (a fish symbiont) and WH1 (a free-living isolate) through a series of juvenile squid light organs. After 15 serially colonized squid for each population, or an estimated 290-360 bacterial generations, we isolated representatives of the light organ populations and characterized their bioluminescence. Multiple evolved lines of both strains produced significantly less bioluminescence both in vitro and in vivo. This reduction in bioluminescence did not correlate with reduced quorum sensing for most isolates tested. The remarkable phenotypic convergence with squid symbionts further emphasizes the importance of bioluminescence in this symbiosis, and suggests that reduced light production is a specific adaptation to the squid.

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Host-selected mutations converging on a global regulator drive an adaptive leap towards symbiosis in bacteria

Pankey

Foxall

Ster

et al. 2017

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Host immune and physical barriers protect against pathogens but also impede the establishment of essential symbiotic partnerships. To reveal mechanisms by which beneficial organisms adapt to circumvent host defenses, we experimentally evolved ecologically distinct bioluminescent Vibrio fischeri by colonization and growth within the light organs of the squid Euprymna scolopes. Serial squid passaging of bacteria produced eight distinct mutations in the binK sensor kinase gene, which conferred an exceptional selective advantage that could be demonstrated through both empirical and theoretical analysis. Squid-adaptive binK alleles promoted colonization and immune evasion that were mediated by cell-associated matrices including symbiotic polysaccharide (Syp) and cellulose. binK variation also altered quorum sensing, raising the threshold for luminescence induction. Preexisting coordinated regulation of symbiosis traits by BinK presented an efficient solution where altered BinK function was the key to unlock multiple colonization barriers. These results identify a genetic basis for microbial adaptability and underscore the importance of hosts as selective agents that shape emergent symbiont populations.DOI: http://dx.doi.org/10.7554/eLife.24414.001

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Host-selected mutations converging on a global regulator drive an adaptive leap by bacteria to symbiosis

Pankey

Foxall

Ster

et al. 2016

Preprint

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Author response: Host-selected mutations converging on a global regulator drive an adaptive leap towards symbiosis in bacteria

Pankey

Foxall

Ster

et al. 2017

View full text Add to dashboard Cite

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Lauren A Perry

Breaking the language barrier: experimental evolution of non-native Vibrio fischeri in squid tailors luminescence to the host

Host-selected mutations converging on a global regulator drive an adaptive leap towards symbiosis in bacteria

Host-selected mutations converging on a global regulator drive an adaptive leap by bacteria to symbiosis

Author response: Host-selected mutations converging on a global regulator drive an adaptive leap towards symbiosis in bacteria

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