Abstract
Placozoa is an enigmatic phylum of simple, microscopic, marine metazoans1,2. Although intracellular bacteria have been found in all members of this phylum, almost nothing is known about their identity, location and interactions with their host3–6. We used metagenomic and metatranscriptomic sequencing of single host individuals, plus metaproteomic and imaging analyses, to show that the placozoan Trichoplax sp. H2 lives in symbiosis with two intracellular bacteria. One symbiont forms an undescribed genus in the Midichloriaceae (Rickettsiales)7,8 and has a genomic repertoire similar to that of rickettsial parasites9,10, but does not seem to express key genes for energy parasitism. Correlative image analyses and three-dimensional electron tomography revealed that this symbiont resides in the rough endoplasmic reticulum of its host’s internal fibre cells. The second symbiont belongs to the Margulisbacteria, a phylum without cultured representatives and not known to form intracellular associations11–13. This symbiont lives in the ventral epithelial cells of Trichoplax, probably metabolizes algal lipids digested by its host and has the capacity to supplement the placozoan’s nutrition. Our study shows that one of the simplest animals has evolved highly specific and intimate associations with symbiotic, intracellular bacteria and highlights that symbioses can provide access to otherwise elusive microbial dark matter.
Highlights
Placozoa is an enigmatic phylum of simple, microscopic, marine metazoans[1,2]
The bacteria were present in all seven haplotypes examined, independent of sampling site or time, and were hypothesized to reside in the lumen of the rough endoplasmic reticulum[3,5,6,20]
We focused on the Trichoplax sp. haplotype H2 (Trichoplax H2), previously reported to host two bacterial morphotypes[5]
Summary
The metagenomic assembly was screened for the contig containing the host mitochondrial 16S rRNA gene (m16S) using BLAST v2.7.1 as implemented in Geneious R1142. Full-length 16S rRNA gene sequences were reconstructed for each metagenomic and metatranscriptomic library using phyloFlash v3.0 beta[1] (https://github.com/HRGV/phyloFlash) from raw reads. We screened the trace reads from the Trichoplax H1 genome project for reads containing Midichloriaceae 16S rRNA gene fragments using BLAST v2.7.164, assembled them in Geneious R9 (http://www.geneious.com)[42] and added the resulting sequence to the database. The 16S rRNA gene dataset was aligned using MAFFT v7.39465 and the phylogenetic tree was calculated using FastTree v2.1.1043 with a GTR model for nucleotide substitution. For genome-based alignments of the amino acids of 43 conserved phylogenetic marker genes, the tree workflow as implemented in CheckM v1.0.11 was used[49]. The detected 16S rRNA reads were aligned to the Rickettsiales dataset using MAFFT—addfragments and the evolutionary placements in the tree were performed using raxml v8.2.1268
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