![The C. difficile toxin B membrane translocation machinery is an evolutionarily conserved protein delivery apparatus | Nature Communications The C. difficile toxin B membrane translocation machinery is an evolutionarily conserved protein delivery apparatus | Nature Communications](https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41467-020-14306-z/MediaObjects/41467_2020_14306_Fig1_HTML.png)
The C. difficile toxin B membrane translocation machinery is an evolutionarily conserved protein delivery apparatus | Nature Communications
![Concordance of bacterial communities of two tick species and blood of their shared rodent host - Rynkiewicz - 2015 - Molecular Ecology - Wiley Online Library Concordance of bacterial communities of two tick species and blood of their shared rodent host - Rynkiewicz - 2015 - Molecular Ecology - Wiley Online Library](https://onlinelibrary.wiley.com/cms/asset/edc0d3ac-94ff-4dbc-94be-db442c7d41c5/mec13187-fig-0004-m.jpg)
Concordance of bacterial communities of two tick species and blood of their shared rodent host - Rynkiewicz - 2015 - Molecular Ecology - Wiley Online Library
![Phosphorylation systems in symbiotic nitrogen-fixing bacteria and their role in bacterial adaptation to various environmental stresses [PeerJ] Phosphorylation systems in symbiotic nitrogen-fixing bacteria and their role in bacterial adaptation to various environmental stresses [PeerJ]](https://dfzljdn9uc3pi.cloudfront.net/2020/8466/1/fig-3-2x.jpg)
Phosphorylation systems in symbiotic nitrogen-fixing bacteria and their role in bacterial adaptation to various environmental stresses [PeerJ]
![Seaweed–microbial interactions: key functions of seaweed‐associated bacteria - Singh - 2014 - FEMS Microbiology Ecology - Wiley Online Library Seaweed–microbial interactions: key functions of seaweed‐associated bacteria - Singh - 2014 - FEMS Microbiology Ecology - Wiley Online Library](https://onlinelibrary.wiley.com/cms/asset/aa55738e-fc65-460a-a8ff-9b1cb656fee8/fem12297-toc-0001-m.jpg)
Seaweed–microbial interactions: key functions of seaweed‐associated bacteria - Singh - 2014 - FEMS Microbiology Ecology - Wiley Online Library
![Bacterial symbionts in human blood-feeding arthropods: Patterns, general mechanisms and effects of global ecological changes - ScienceDirect Bacterial symbionts in human blood-feeding arthropods: Patterns, general mechanisms and effects of global ecological changes - ScienceDirect](https://ars.els-cdn.com/content/image/1-s2.0-S0001706X18306235-ga1.jpg)
Bacterial symbionts in human blood-feeding arthropods: Patterns, general mechanisms and effects of global ecological changes - ScienceDirect
![Phylogeny resolved, metabolism revealed: functional radiation within a widespread and divergent clade of sponge symbionts | The ISME Journal Phylogeny resolved, metabolism revealed: functional radiation within a widespread and divergent clade of sponge symbionts | The ISME Journal](https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41396-020-00791-z/MediaObjects/41396_2020_791_Fig1_HTML.png)
Phylogeny resolved, metabolism revealed: functional radiation within a widespread and divergent clade of sponge symbionts | The ISME Journal
![PDF) How did cyanobacteria first embark on the path to becoming plastids?: Lessons from protist symbioses PDF) How did cyanobacteria first embark on the path to becoming plastids?: Lessons from protist symbioses](https://i1.rgstatic.net/publication/327346086_How_did_cyanobacteria_first_embark_on_the_path_to_becoming_plastids_Lessons_from_protist_symbioses/links/5ce07856a6fdccc9ddbc10cc/largepreview.png)
PDF) How did cyanobacteria first embark on the path to becoming plastids?: Lessons from protist symbioses
![A Chlamydia effector combining deubiquitination and acetylation activities induces Golgi fragmentation | Nature Microbiology A Chlamydia effector combining deubiquitination and acetylation activities induces Golgi fragmentation | Nature Microbiology](https://media.springernature.com/lw685/springer-static/image/art%3A10.1038%2Fs41564-018-0271-y/MediaObjects/41564_2018_271_Fig1_HTML.png)
A Chlamydia effector combining deubiquitination and acetylation activities induces Golgi fragmentation | Nature Microbiology
![PDF) ATP released by intestinal bacteria limits the generation of protective IgA against enteropathogens PDF) ATP released by intestinal bacteria limits the generation of protective IgA against enteropathogens](https://i1.rgstatic.net/publication/330423577_ATP_released_by_intestinal_bacteria_limits_the_generation_of_protective_IgA_against_enteropathogens/links/5c45c7c9458515a4c7363bc4/largepreview.png)
PDF) ATP released by intestinal bacteria limits the generation of protective IgA against enteropathogens
![Two intracellular and cell type-specific bacterial symbionts in the placozoan Trichoplax H2 | Nature Microbiology Two intracellular and cell type-specific bacterial symbionts in the placozoan Trichoplax H2 | Nature Microbiology](https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41564-019-0475-9/MediaObjects/41564_2019_475_Fig1_HTML.png)