Abstract
The composition of the intestinal microbiota of Drosophila has been studied in some detail in recent years. Environmental, developmental and host-specific genetic factors influence microbiome composition in the fly. Our previous work has indicated that intestinal bacterial load can be affected by chromatin-targeted regulatory mechanisms. Here we studied a potential role of the conserved chromatin assembly and remodeling factor CHD1 in the shaping of the gut microbiome in Drosophila melanogaster. Using high-throughput sequencing of 16S rRNA gene amplicons, we found that Chd1 deletion mutant flies exhibit significantly reduced microbial diversity compared to rescued control strains. Specifically, although Acetobacteraceae dominated the microbiota of both Chd1 wild-type and mutant guts, Chd1 mutants were virtually monoassociated with this bacterial family, whereas in control flies other bacterial taxa constituted ~20% of the microbiome. We further show age-linked differences in microbial load and microbiota composition between Chd1 mutant and control flies. Finally, diet supplementation experiments with Lactobacillus plantarum revealed that, in contrast to wild-type flies, Chd1 mutant flies were unable to maintain higher L. plantarum titres over time. Collectively, these data provide evidence that loss of the chromatin remodeler CHD1 has a major impact on the gut microbiome of Drosophila melanogaster.
Highlights
The model organism Drosophila melanogaster has been used extensively to study the various facets of host-microbe interaction and defence mechanisms
To examine the composition of the intestinal microbiome of Chd1 null flies, we performed deep sequencing of 16S rRNA gene amplicons of guts isolated from Chd1-/- and control flies (Chd1WT/WT), which carried a wild-type Chd1 rescue transgene in a Chd1-deficient genetic background [27]
The difference in bacterial community composition of Chd1 mutant and wild-type samples correlates with the genetic background of the host flies, whereas variability among replicates of the same genotype only accounts for a minimal portion of the total disparity
Summary
The model organism Drosophila melanogaster has been used extensively to study the various facets of host-microbe interaction and defence mechanisms. Gut Microbiome in Chd1-Mutant Flies bacterial community associated with the fly gut is of low diversity, usually ranging from only four to eight species [6,7,8,9,10,11,12,13]. In light of the relative simplicity of its microbiome compared to the complexity and species richness found in mammals [14], the fly is a highly useful model organism for the study of host-microbe interactions
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