The ISME Journal


Publications
80

Simple Porifera holobiont reveals complex interactions between the host, an archaeon, a bacterium, and a phage

Citation
Garritano et al. (2024). The ISME Journal
Names
“Zeuxoniibacter” “Zeuxoniibacter abyssi” “Nitrosoabyssus spongiisocia” “Nitrosoabyssus”
Abstract
Abstract The basal metazoan phylum, Porifera (sponges), is increasingly used as a model to investigate ecological and evolutionary features of microbe-animal symbioses. However, sponges often host complex microbiomes, which has hampered our understanding of their interactions with their microbial symbionts. Here, we describe the discovery and characterisation of the simplest sponge holobiont reported to date, consisting of the deep-sea glass sponge Aphrocalistes beatrix and two ne

Tissue-associated and vertically transmitted bacterial symbiont in the coral Pocillopora acuta

Citation
Maire et al. (2024). The ISME Journal 18 (1)
Names
Sororendozoicomonas aggregata Ts Sororendozoicomonas
Abstract
Abstract Coral microhabitats are colonized by a myriad of microorganisms, including diverse bacteria which are essential for host functioning and survival. However, the location, transmission, and functions of individual bacterial species living inside the coral tissues remain poorly studied. Here, we show that a previously undescribed bacterial symbiont of the coral Pocillopora acuta forms cell-associated microbial aggregates (CAMAs) within the mesenterial filaments. CAMAs were f

Flexible genomic island conservation across freshwater and marine Methylophilaceae

Citation
Layoun et al. (2024). The ISME Journal 18 (1)
Names
“Novamethylotenera aquatica” “Methylopumilus” “Methylopumilus planktonicus”
Abstract
Abstract The evolutionary trajectory of Methylophilaceae includes habitat transitions from freshwater sediments to freshwater and marine pelagial that resulted in genome reduction (genome-streamlining) of the pelagic taxa. However, the extent of genetic similarities in the genomic structure and microdiversity of the two genome-streamlined pelagic lineages (freshwater “Ca. Methylopumilus” and the marine OM43 lineage) has so far never been compared. Here, we analyzed complete genome

Intracellular symbiont Symbiodolus is vertically transmitted and widespread across insect orders

Citation
Wierz et al. (2024). The ISME Journal 18 (1)
Names
Symbiodolus clandestinus Ts Symbiodolus
Abstract
Abstract Insects engage in manifold interactions with bacteria that can shift along the parasitism–mutualism continuum. However, only a small number of bacterial taxa managed to successfully colonize a wide diversity of insects, by evolving mechanisms for host-cell entry, immune evasion, germline tropism, reproductive manipulation, and/or by providing benefits to the host that stabilize the symbiotic association. Here, we report on the discovery of an Enterobacterales endosymbiont

Chlamydiae as symbionts of photosynthetic dinoflagellates

Citation
Maire et al. (2024). The ISME Journal 18 (1)
Names
Algichlamydia australiensis Ts Algichlamydia
Abstract
Abstract Chlamydiae are ubiquitous intracellular bacteria and infect a wide diversity of eukaryotes, including mammals. However, chlamydiae have never been reported to infect photosynthetic organisms. Here, we describe a novel chlamydial genus and species, Candidatus Algichlamydia australiensis, capable of infecting the photosynthetic dinoflagellate Cladocopium sp. (originally isolated from a scleractinian coral). Algichlamydia australiensis was confirmed to be intracellular by fl

Members of the class Candidatus Ordosarchaeia imply an alternative evolutionary scenario from methanogens to haloarchaea

Citation
Zhao et al. (2024). The ISME Journal 18 (1)
Names
Ca. Hikarchaeia Ca. Ordosarchaeia
Abstract
Abstract The origin of methanogenesis can be traced to the common ancestor of non-DPANN archaea, whereas haloarchaea (or Halobacteria) are believed to have evolved from a methanogenic ancestor through multiple evolutionary events. However, due to the accelerated evolution and compositional bias of proteins adapting to hypersaline habitats, Halobacteria exhibit substantial evolutionary divergence from methanogens, and the identification of the closest methanogen (either Methanonatr

Cultivation and genomic characterization of novel and ubiquitous marine nitrite-oxidizing bacteria from the Nitrospirales

Citation
Mueller et al. (2023). The ISME Journal 17 (11)
Names
“Nitronereus thalassa” “Nitronereus”
Abstract
Abstract Nitrospirales, including the genus Nitrospira, are environmentally widespread chemolithoautotrophic nitrite-oxidizing bacteria. These mostly uncultured microorganisms gain energy through nitrite oxidation, fix CO2, and thus play vital roles in nitrogen and carbon cycling. Over the last decade, our understanding of their physiology has advanced through several new discoveries, such as alternative energy metabolisms and complete ammonia oxidizers (comammox Nitrospira). Thes

Cuticle supplementation and nitrogen recycling by a dual bacterial symbiosis in a family of xylophagous beetles

Citation
Kiefer et al. (2023). The ISME Journal 17 (7)
Names
Bostrichidicola ureolyticus Ts Shikimatogenerans bostrichidophilus Shikimatogenerans silvanidophilus Ts Bostrichidicola
Abstract
AbstractMany insects engage in stable nutritional symbioses with bacteria that supplement limiting essential nutrients to their host. While several plant sap-feeding Hemipteran lineages are known to be simultaneously associated with two or more endosymbionts with complementary biosynthetic pathways to synthesize amino acids or vitamins, such co-obligate symbioses have not been functionally characterized in other insect orders. Here, we report on the characterization of a dual co-obligate, bacter

Water column dynamics control nitrite-dependent anaerobic methane oxidation by Candidatus “Methylomirabilis” in stratified lake basins

Citation
Su et al. (2023). The ISME Journal 17 (5)
Names
Methylomirabilis
Abstract
AbstractWe investigated microbial methane oxidation in the water column of two connected but hydrodynamically contrasting basins of Lake Lugano, Switzerland. Both basins accumulate large amounts of methane in the water column below their chemoclines, but methane oxidation efficiently prevents methane from reaching surface waters. Here we show that in the meromictic North Basin water column, a substantial fraction of methane was eliminated through anaerobic methane oxidation (AOM) coupled to nitr