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Authors Collingro

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Collingro, Astrid


Publications
5

CitationNamesAbstract
Chlamydiae as symbionts of photosynthetic dinoflagellates Maire et al. (2024). The ISME Journal 18 (1) Algichlamydia australiensis Ts Algichlamydia
The Fish Pathogen “Candidatus Clavichlamydia salmonicola”—A Missing Link in the Evolution of Chlamydial Pathogens of Humans Collingro et al. (2023). Genome Biology and Evolution 15 (8) “Clavichlamydia salmonicola”
Draft Genome Sequence of “ Candidatus Hepatoplasma crinochetorum” Ps, a Bacterial Symbiont in the Hepatopancreas of the Terrestrial Isopod Porcellio scaber Collingro et al. (2015). Genome Announcements 3 (4) Hepatoplasma crinochetorum Ts
Bacteriocyte-associated gammaproteobacterial symbionts of the Adelges nordmannianae/piceae complex (Hemiptera: Adelgidae) Toenshoff et al. (2012). The ISME Journal 6 (2) “Ecksteinia adelgidicola”
‘Candidatus Protochlamydia amoebophila’, an endosymbiont of Acanthamoeba spp Collingro et al. (2005). International Journal of Systematic and Evolutionary Microbiology 55 (5) Ca. Protochlamydia amoebophila

Chlamydiae as symbionts of photosynthetic dinoflagellates
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 fluorescence in situ hybridization and confocal laser scanning microscopy and temporally stable at the population level by monitoring its relative abundance across four weeks of host growth. Using a combination of short- and long-read sequencing, we recovered a high-quality (completeness 91.73% and contamination 0.27%) metagenome-assembled genome of A. australiensis. Phylogenetic analyses show that this chlamydial taxon represents a new genus and species within the Simkaniaceae family. Algichlamydia australiensis possesses all the hallmark genes for chlamydiae–host interactions, including a complete type III secretion system. In addition, a type IV secretion system is encoded on a plasmid and has previously been observed for only three other chlamydial species. Twenty orthologous groups of genes are unique to A. australiensis, one of which is structurally similar to a protein known from Cyanobacteria and Archaeplastida involved in thylakoid biogenesis and maintenance, hinting at potential chlamydiae interactions with the chloroplasts of Cladocopium cells. Our study shows that chlamydiae infect dinoflagellate symbionts of cnidarians, the first photosynthetic organism reported to harbor chlamydiae, thereby expanding the breadth of chlamydial hosts and providing a new contribution to the discussion around the role of chlamydiae in the establishment of the primary plastid.
The Fish Pathogen “Candidatus Clavichlamydia salmonicola”—A Missing Link in the Evolution of Chlamydial Pathogens of Humans
Abstract Chlamydiae like Chlamydia trachomatis and Chlamydia psittaci are well-known human and animal pathogens. Yet, the chlamydiae are a much larger group of evolutionary ancient obligate intracellular bacteria that includes predominantly symbionts of protists and diverse animals. This makes them ideal model organisms to study evolutionary transitions from symbionts in microbial eukaryotes to pathogens of humans. To this end, comparative genome analysis has served as an important tool. Genome sequence data for many chlamydial lineages are, however, still lacking, hampering our understanding of their evolutionary history. Here, we determined the first high-quality draft genome sequence of the fish pathogen “Candidatus Clavichlamydia salmonicola”, representing a separate genus within the human and animal pathogenic Chlamydiaceae. The “Ca. Clavichlamydia salmonicola” genome harbors genes that so far have been exclusively found in Chlamydia species suggesting that basic mechanisms important for the interaction with chordate hosts have evolved stepwise in the history of chlamydiae. Thus, the genome sequence of “Ca. Clavichlamydia salmonicola” allows to constrain candidate genes to further understand the evolution of chlamydial virulence mechanisms required to infect mammals.
Draft Genome Sequence of “ Candidatus Hepatoplasma crinochetorum” Ps, a Bacterial Symbiont in the Hepatopancreas of the Terrestrial Isopod Porcellio scaber
ABSTRACT “ Candidatus Hepatoplasma crinochetorum” Ps is an extracellular symbiont residing in the hepatopancreas of the terrestrial isopod Porcellio scaber . Its genome is highly similar to that of the close relative “ Ca. Hepatoplasma crinochetorum” Av from Armadillidium vulgare . However, instead of a clustered regularly interspaced short palindromic repeat (CRISPR)-Cas system, it encodes a type I restriction modification system.
‘Candidatus Protochlamydia amoebophila’, an endosymbiont of Acanthamoeba spp
The obligately intracellular coccoid bacterium UWE25, a symbiont of Acanthamoeba spp., was previously identified as being related to chlamydiae based upon the presence of a chlamydia-like developmental cycle and its 16S rRNA gene sequence. Analysis of its complete genome sequence demonstrated that UWE25 shows many characteristic features of chlamydiae, including dependency on host-derived metabolites, composition of the cell envelope and the ability to thrive as an energy parasite within the cells of its eukaryotic host. Phylogenetic analysis of 44 ribosomal proteins further confirmed the affiliation of UWE25 to the ‘Chlamydiae’. Within this phylum, UWE25 could be assigned to the family Parachlamydiaceae based on comparative analyses of the 16S rRNA, 23S rRNA and endoribonuclease P RNA genes. The distinct dissimilarities from its closest relative, Parachlamydia acanthamoebae Bn9 T (7·1, 9·7 and 28·8 %, respectively), observed in this analysis justify its classification in a new genus. Therefore, the name ‘Candidatus Protochlamydia amoebophila’ is proposed for the designation of the Acanthamoeba sp. symbiont UWE25 (=ATCC PRA-7).
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