Sipkema, Detmer


Publications
4

Genomic diversity and biosynthetic capabilities of sponge-associated chlamydiae

Citation
Dharamshi et al. (2022). The ISME Journal 16 (12)
Names
“Parasimkaniaceae”
Abstract
AbstractSponge microbiomes contribute to host health, nutrition, and defense through the production of secondary metabolites.Chlamydiae, a phylum of obligate intracellular bacteria ranging from animal pathogens to endosymbionts of microbial eukaryotes, are frequently found associated with sponges. However, sponge-associated chlamydial diversity has not yet been investigated at the genomic level and host interactions thus far remain unexplored. Here, we sequenced the microbiomes of three sponge s

Phylogeny resolved, metabolism revealed: functional radiation within a widespread and divergent clade of sponge symbionts

Citation
Taylor et al. (2021). The ISME Journal 15 (2)
Names
Perseibacter sydneyensis Ts Perseibacter Perseibacteraceae Tethybacter castelli Ts Tethybacter Tethybacteraceae Tethybacterales
Abstract
Abstract The symbiosis between bacteria and sponges has arguably the longest evolutionary history for any extant metazoan lineage, yet little is known about bacterial evolution or adaptation in this process. An example of often dominant and widespread bacterial symbionts of sponges is a clade of uncultured and uncharacterised Proteobacteria. Here we set out to characterise this group using metagenomics, in-depth phylogenetic analyses, metatranscriptomics, and fluorescence in situ