The Impact of Life History Evolution on the Microbiota of Drosophila Melanogaster
Nourhan Mahmoud

TL;DR
This study shows how the microbiome of fruit flies changes as they evolve different life strategies, affecting their health and survival.
Contribution
The study reveals how host life history evolution shapes microbiome composition and function in Drosophila.
Findings
A-type flies had higher bacterial loads dominated by lactic and acetic acid bacteria.
C-type flies showed higher Wolbachia abundance, linked to increased fecundity and viral resistance.
Microbiome composition correlated with the host's life history strategy and evolutionary history.
Abstract
Manipulation of aging components through laboratory evolution of Drosophila melanogaster offers valuable insights into fast adaptive evolution and has implications for agriculture, conservation, and healthcare. Despite the extensive research on phenotypic and genetic divergence in laboratory populations of D. melanogaster, the role of the microbiome in host adaptation has been largely overlooked. This study examines how life history selection of D. melanogaster impacts its microbiome using the Drosophila Experimental Evolution Population (DEEP) resource. We hypothesize that evolutionary changes in the host phenotype and genotype would correlate with distinct, repeatable patterns in microbiome composition. Four selection regimes, based on age-of-first-reproduction (A-type, 10-day; B-type, 14-day; T-type, 21-day; C-type, 28-day), were compared using metagenomic analysis, colony-forming…
Genes, proteins, chemicals, diseases, species, mutations and cell lines named across the full text — each resolved to its canonical identifier and authoritative record.
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Taxonomy
TopicsInvertebrate Immune Response Mechanisms · Insect symbiosis and bacterial influences · Insect behavior and control techniques
