Breaking evolutionary constraint with a tradeoff ratchet
Epistatic interactions can frustrate and shape evolutionary change. Indeed, phenotypes may fail to evolve when essential mutations are only accessible through positive selection if they are fixed simultaneously. How environmental variability affects such constraints is poorly understood. Here, we studied genetic constraints in fixed and fluctuating environments using the Escherichia coli lac operon as a model system for genotype-environment interactions. We found that, in different fixed environments, all trajectories that were reconstructed by applying point mutations within the transcription factor-operator interface became trapped at suboptima, where no additional improvements were possible. Paradoxically, repeated switching between these same environments allows unconstrained adaptation by continuous improvements. This evolutionary mode is explained by pervasive cross-environmental tradeoffs that reposition the peaks in such a way that trapped genotypes can repeatedly climb ascending slopes and hence, escape adaptive stasis. Using a Markov approach, we developed a mathematical framework to quantify the landscape-crossing rates and show that this ratchet-like adaptive mechanism is robust in a wide spectrum of fluctuating environments. Overall, this study shows that genetic constraints can be overcome by environmental change and that crossenvironmental tradeoffs do not necessarily impede but also, can facilitate adaptive evolution. Because tradeoffs and environmental variability are ubiquitous in nature, we speculate this evolutionary mode to be of general relevance.
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| Subjects: | Constraint, Environment, Epistasis, Evolution, Fitness landscape, |
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dig-wur-nl-wurpubs-4984652024-09-23 De Vos, Marjon G.J. Dawid, Alexandre Sunderlikova, Vanda Tans, Sander J. Article/Letter to editor Proceedings of the National Academy of Sciences of the United States of America 112 (2015) 48 ISSN: 0027-8424 Breaking evolutionary constraint with a tradeoff ratchet 2015 Epistatic interactions can frustrate and shape evolutionary change. Indeed, phenotypes may fail to evolve when essential mutations are only accessible through positive selection if they are fixed simultaneously. How environmental variability affects such constraints is poorly understood. Here, we studied genetic constraints in fixed and fluctuating environments using the Escherichia coli lac operon as a model system for genotype-environment interactions. We found that, in different fixed environments, all trajectories that were reconstructed by applying point mutations within the transcription factor-operator interface became trapped at suboptima, where no additional improvements were possible. Paradoxically, repeated switching between these same environments allows unconstrained adaptation by continuous improvements. This evolutionary mode is explained by pervasive cross-environmental tradeoffs that reposition the peaks in such a way that trapped genotypes can repeatedly climb ascending slopes and hence, escape adaptive stasis. Using a Markov approach, we developed a mathematical framework to quantify the landscape-crossing rates and show that this ratchet-like adaptive mechanism is robust in a wide spectrum of fluctuating environments. Overall, this study shows that genetic constraints can be overcome by environmental change and that crossenvironmental tradeoffs do not necessarily impede but also, can facilitate adaptive evolution. Because tradeoffs and environmental variability are ubiquitous in nature, we speculate this evolutionary mode to be of general relevance. en application/pdf https://research.wur.nl/en/publications/breaking-evolutionary-constraint-with-a-tradeoff-ratchet 10.1073/pnas.1510282112 https://edepot.wur.nl/375175 Constraint Environment Epistasis Evolution Fitness landscape (c) publisher Wageningen University & Research |
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Constraint Environment Epistasis Evolution Fitness landscape Constraint Environment Epistasis Evolution Fitness landscape |
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Constraint Environment Epistasis Evolution Fitness landscape Constraint Environment Epistasis Evolution Fitness landscape De Vos, Marjon G.J. Dawid, Alexandre Sunderlikova, Vanda Tans, Sander J. Breaking evolutionary constraint with a tradeoff ratchet |
| description |
Epistatic interactions can frustrate and shape evolutionary change. Indeed, phenotypes may fail to evolve when essential mutations are only accessible through positive selection if they are fixed simultaneously. How environmental variability affects such constraints is poorly understood. Here, we studied genetic constraints in fixed and fluctuating environments using the Escherichia coli lac operon as a model system for genotype-environment interactions. We found that, in different fixed environments, all trajectories that were reconstructed by applying point mutations within the transcription factor-operator interface became trapped at suboptima, where no additional improvements were possible. Paradoxically, repeated switching between these same environments allows unconstrained adaptation by continuous improvements. This evolutionary mode is explained by pervasive cross-environmental tradeoffs that reposition the peaks in such a way that trapped genotypes can repeatedly climb ascending slopes and hence, escape adaptive stasis. Using a Markov approach, we developed a mathematical framework to quantify the landscape-crossing rates and show that this ratchet-like adaptive mechanism is robust in a wide spectrum of fluctuating environments. Overall, this study shows that genetic constraints can be overcome by environmental change and that crossenvironmental tradeoffs do not necessarily impede but also, can facilitate adaptive evolution. Because tradeoffs and environmental variability are ubiquitous in nature, we speculate this evolutionary mode to be of general relevance. |
| format |
Article/Letter to editor |
| topic_facet |
Constraint Environment Epistasis Evolution Fitness landscape |
| author |
De Vos, Marjon G.J. Dawid, Alexandre Sunderlikova, Vanda Tans, Sander J. |
| author_facet |
De Vos, Marjon G.J. Dawid, Alexandre Sunderlikova, Vanda Tans, Sander J. |
| author_sort |
De Vos, Marjon G.J. |
| title |
Breaking evolutionary constraint with a tradeoff ratchet |
| title_short |
Breaking evolutionary constraint with a tradeoff ratchet |
| title_full |
Breaking evolutionary constraint with a tradeoff ratchet |
| title_fullStr |
Breaking evolutionary constraint with a tradeoff ratchet |
| title_full_unstemmed |
Breaking evolutionary constraint with a tradeoff ratchet |
| title_sort |
breaking evolutionary constraint with a tradeoff ratchet |
| url |
https://research.wur.nl/en/publications/breaking-evolutionary-constraint-with-a-tradeoff-ratchet |
| work_keys_str_mv |
AT devosmarjongj breakingevolutionaryconstraintwithatradeoffratchet AT dawidalexandre breakingevolutionaryconstraintwithatradeoffratchet AT sunderlikovavanda breakingevolutionaryconstraintwithatradeoffratchet AT tanssanderj breakingevolutionaryconstraintwithatradeoffratchet |
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