Destabilizing mutations encode nongenetic variation that drives evolutionary innovation

Destabilizing mutations encode nongenetic variation that drives evolutionary innovation

Evolutionary innovations are often achieved by repurposing existing genes to perform new functions; however, the mechanisms enabling the transition from old to new remain controversial. We identified mutations in bacteriophage λ's host-recognition gene that confer enhanced adsorption to λ'...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2018-03, Vol.359 (6383), p.1542-1545
Hauptverfasser: Petrie, Katherine L, Palmer, Nathan D, Johnson, Daniel T, Medina, Sarah J, Yan, Stephanie J, Li, Victor, Burmeister, Alita R, Meyer, Justin R
Format: Artikel
Sprache:eng
Schlagworte:
Bacterial Outer Membrane Proteins - genetics
Bacteriophage lambda - genetics
Biological evolution
Bistability
Evolution
Evolution, Molecular
Gene sequencing
Genetic Fitness
Genetic Variation
Genotypes
Heterogeneity
Innovation
Innovations
Membrane proteins
Mutation
Natural selection
Porins - genetics
Progeny
Proteins
Receptors
Receptors, Virus - genetics
Viral Tail Proteins - genetics
Viruses
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Zusammenfassung:Evolutionary innovations are often achieved by repurposing existing genes to perform new functions; however, the mechanisms enabling the transition from old to new remain controversial. We identified mutations in bacteriophage λ's host-recognition gene that confer enhanced adsorption to λ's native receptor, LamB, and the ability to access a new receptor, OmpF. The mutations destabilize λ particles and cause conformational bistability of J, which yields progeny of multiple phenotypic forms, each proficient at different receptors. This work provides an example of how nongenetic protein variation can catalyze an evolutionary innovation. We propose that cases where a single genotype can manifest as multiple phenotypes may be more common than previously expected and offer a general mechanism for evolutionary innovation.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.aar1954