More Like this

1. Environmental microbes promote phenotypic plasticity in reproduction and sleep behaviour

   https://doi.org/10.1111/mec.17095  

   Téfit, Mélisandre A.; Budiman, Tifanny; Dupriest, Adrianna; Yew, Joanne Y. (August 2023, Molecular Ecology)

   Abstract The microbiome has been hypothesized as a driving force of phenotypic variation in host organisms that is capable of extending metabolic processes, altering development and in some cases, conferring novel functions that are critical for survival. Only a few studies have directly shown a causal role for the environmental microbiome in altering host phenotypic features. To assess the extent to which environmental microbes induce variation in host life‐history traits and behaviour, we inoculated axenicDrosophila melanogasterwith microbes isolated from drosophilid populations collected from two different field sites and generated two populations with distinct bacterial and fungal profiles. We show that microbes isolated from environmental sites with modest abiotic differences induce large variation in host reproduction, fatty acid levels, stress tolerance and sleep behaviour. Importantly, clearing microbes from each experimental population removed the phenotypic differences. The results support the causal role of environmental microbes as drivers of host phenotypic plasticity and potentially, rapid adaptation and evolution. 

   more » « less
2. Leapfrog dynamics in phage‐bacteria coevolution revealed by joint analysis of cross‐infection phenotypes and whole genome sequencing

   https://doi.org/10.1111/ele.13965  

   Gupta, Animesh; Peng, Shengyun; Leung, Chung Yin; Borin, Joshua M.; Medina, Sarah J.; Weitz, Joshua S.; Meyer, Justin R.; Ben‐Ami, ed., Frida (January 2022, Ecology Letters)

   Abstract Viruses and their hosts can undergo coevolutionary arms races where hosts evolve increased resistance and viruses evolve counter‐resistance. Given these arms race dynamics (ARD), both players are predicted to evolve along a single trajectory as more recently evolved genotypes replace their predecessors. By coupling phenotypic and genomic analyses of coevolving populations of bacteriophageλandEscherichia coli, we find conflicting evidence for ARD. Virus‐host infection phenotypes fit the ARD model, yet genomic analyses revealed fluctuating selection dynamics. Rather than coevolution unfolding along a single trajectory, cryptic genetic variation emerges and is maintained at low frequency for generations until it eventually supplants dominant lineages. These observations suggest a hybrid ‘leapfrog’ dynamic, revealing weaknesses in the predictive power of standard coevolutionary models. The findings shed light on the mechanisms that structure coevolving ecological networks and reveal the limits of using phenotypic or genomic data alone to differentiate coevolutionary dynamics. 

   more » « less
3. A shared genetic basis of mimicry across swallowtail butterflies points to ancestral co-option of doublesex

   https://doi.org/10.1038/s41467-019-13859-y  

   Palmer, Daniela H.; Kronforst, Marcus R. (January 2020, Nature Communications)

   Abstract Uncovering whether convergent adaptations share a genetic basis is consequential for understanding the evolution of phenotypic diversity. This information can help us understand the extent to which shared ancestry or independent evolution shape adaptive phenotypes. In this study, we first ask whether the same genes underlie polymorphic mimicry inPapilioswallowtail butterflies. By comparing signatures of genetic variation between polymorphic and monomorphic species, we then investigate how ancestral variation, hybridization, and independent evolution contributed to wing pattern diversity in this group. We report that a single gene,doublesex (dsx), controls mimicry across multiple taxa, but with species-specific patterns of genetic differentiation and linkage disequilibrium. In contrast to widespread examples of phenotypic evolution driven by introgression, our analyses reveal distinct mimicry alleles. We conclude that mimicry evolution in this group was likely facilitated by ancestral polymorphism resulting from early co-option ofdsxas a mimicry locus, and that evolutionary turnover ofdsxalleles may underlie the wing pattern diversity of extant polymorphic and monomorphic lineages. 

   more » « less
4. Giant transposons promote strain heterogeneity in a major fungal pathogen

   https://doi.org/10.1128/mbio.01092-25  

   Gluck-Thaler, Emile; Forsythe, Adrian; Puerner, Charles; Gutierrez-Perez, Cecilia; Stajich, Jason E; Croll, Daniel; Cramer, Robert A; Vogan, Aaron A (June 2025, mBio)

   Goldman, Gustavo H (Ed.)

   ABSTRACT Fungal infections are difficult to prevent and treat in large part due to strain heterogeneity, which confounds diagnostic predictability. Yet, the genetic mechanisms driving strain-to-strain variation remain poorly understood. Here, we determined the extent to whichStarships—giant transposons capable of mobilizing numerous fungal genes—generate genetic and phenotypic variability in the opportunistic human pathogenAspergillus fumigatus. We analyzed 519 diverse strains, including 11 newly sequenced with long-read technology and multiple isolates of the same reference strain, to reveal 20 distinctStarshipsthat are generating genomic heterogeneity over timescales relevant for experimental reproducibility.Starship-mobilized genes encode diverse functions, including known biofilm-related virulence factors and biosynthetic gene clusters, and many are differentially expressed during infection and antifungal exposure in a strain-specific manner. These findings support a new model of fungal evolution whereinStarshipshelp generate variation in genome structure, gene content, and expression among fungal strains. Together, our results demonstrate thatStarshipsare a previously hidden mechanism generating genotypic and, in turn, phenotypic heterogeneity in a major human fungal pathogen.IMPORTANCENo “one size fits all” option exists for treating fungal infections in large part due to genetic and phenotypic variability among strains. Accounting for strain heterogeneity is thus fundamental for developing efficacious treatments and strategies for safeguarding human health. Here, we report significant progress toward achieving this goal by uncovering a previously hidden mechanism generating heterogeneity in the human fungal pathogenAspergillus fumigatus: giant transposons, calledStarships, that span dozens of kilobases and mobilize fungal genes as cargo. By conducting a systematic investigation of these unusual transposons in a single fungal species, we demonstrate their contributions to population-level variation at the genome, pangenome, and transcriptome levels. TheStarshipcompendium we develop will not only help predict variation introduced by these elements in laboratory experiments but will serve as a foundational resource for determining howStarshipsimpact clinically relevant phenotypes, such as antifungal resistance and pathogenicity. 

   more » « less
5. High prevalence of lipopolysaccharide mutants and R2-pyocin susceptible variants in Pseudomonas aeruginosa populations sourced from cystic fibrosis lung infections

   https://doi.org/10.1128/spectrum.01773-23  

   Mei, Madeline; Pheng, Preston; Kurzeja-Edwards, Detriana; Diggle, Stephen P (December 2023, Microbiology Spectrum)

   Van_Tyne, Daria (Ed.)

   ABSTRACT Chronic, highly antibiotic-resistant infections in cystic fibrosis (CF) lungs contribute to increasing morbidity and mortality.Pseudomonas aeruginosa, a common CF pathogen, exhibits resistance to multiple antibiotics, contributing to antimicrobial resistance (AMR). These bacterial populations display genetic and phenotypic diversity, but it is unclear how this diversity affects susceptibility to bacteriocins. R-pyocins, i.e., bacteriocins produced byP. aeruginosa, are phage-tail-like antimicrobials. R-pyocins have potential as antimicrobials, however, recent research suggests the diversity ofP. aeruginosavariants within CF lung infections leads to varying susceptibility to R-pyocins. This variation may be linked to changes in lipopolysaccharide (LPS), acting as the R-pyocin receptor. Currently, it is unknown how frequently R-pyocin-susceptible strains are in chronic CF lung infection, particularly when considering the heterogeneity within these strains. In this study, we tested the R2-pyocin susceptibility of 139P.aeruginosavariants from 17 sputum samples of 7 CF patients and analyzed LPS phenotypes. We found that 83% of sputum samples did not have R2-pyocin-resistant variants, while nearly all samples contained susceptible variants. There was no correlation between LPS phenotype and R2-pyocin susceptibility, though we estimate that about 76% of sputum-derived variants lack an O-specific antigen, 40% lack a common antigen, and 24% have altered LPS cores. The absence of a correlation between LPS phenotype and R-pyocin susceptibility suggests that LPS packing density may play a significant role in R-pyocin susceptibility among CF variants. Our research supports the potential of R-pyocins as therapeutic agents, as many infectious CF variants are susceptible to R2-pyocins, even within diverse bacterial populations. IMPORTANCECystic fibrosis (CF) patients often experience chronic, debilitating lung infections caused by antibiotic-resistantPseudomonas aeruginosa, contributing to antimicrobial resistance (AMR). The genetic and phenotypic diversity ofP. aeruginosapopulations in CF lungs raises questions about their susceptibility to non-traditional antimicrobials, like bacteriocins. In this study, we focused on R-pyocins, a type of bacteriocin with high potency and a narrow killing spectrum. Our findings indicate that a large number of infectious CF variants are susceptible to R2-pyocins, even within diverse bacterial populations, supporting their potential use as therapeutic agents. The absence of a clear correlation between lipopolysaccharide (LPS) phenotypes and R-pyocin susceptibility suggests that LPS packing density may play a significant role in R-pyocin susceptibility among CF variants. Understanding the relationship between LPS phenotypes and R-pyocin susceptibility is crucial for developing effective treatments for these chronic infections. 

   more » « less