Genomic variation and biogeography of Antarctic haloarchaea

The genomes of halophilic archaea (haloarchaea) often comprise multiple replicons. Genomic variation in haloarchaea has been linked to viral infection pressure and, in the case of Antarctic communities, can be caused by intergenera gene exchange. To expand understanding of genome variation and bioge...

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Bibliographic Details
Published in:Microbiome 2018-06, Vol.6 (1), p.113-113, Article 113
Main Authors: Tschitschko, Bernhard, Erdmann, Susanne, DeMaere, Matthew Z, Roux, Simon, Panwar, Pratibha, Allen, Michelle A, Williams, Timothy J, Brazendale, Sarah, Hancock, Alyce M, Eloe-Fadrosh, Emiley A, Cavicchioli, Ricardo
Format: Article
Language:English
Subjects:
Analysis
Antarctic Regions
Antarctica
Archaea
Archaeal Viruses - genetics
Archaeal Viruses - isolation & purification
Arctic research
Bacteriorhodopsin
Base Sequence
BASIC BIOLOGICAL SCIENCES
Biogeography
Bioinformatics
Biosynthesis
CRISPR
Deoxyribonucleic acid
DNA
Gene mapping
Genes
Genetic engineering
Genetic research
Genetic Variation - genetics
Genome variation
Genome, Archaeal - genetics
Genomes
Genomic islands
Genomic Islands - genetics
Genomics
Geography
Haloarchaea
Halobacteria
Halophilic archaea
Halorubrum - classification
Halorubrum - genetics
Halorubrum - isolation & purification
Health aspects
Infection
Infections
Infectivity
Lakes
Lakes - microbiology
Metagenome - genetics
Metagenomics
Microbiota - genetics
Pan-genome
Replicons
Salinity
Scaling
Sequence Analysis, DNA
Variation
Viral infections
Virus diseases
Virus infection
Viruses
Water temperature
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Summary:The genomes of halophilic archaea (haloarchaea) often comprise multiple replicons. Genomic variation in haloarchaea has been linked to viral infection pressure and, in the case of Antarctic communities, can be caused by intergenera gene exchange. To expand understanding of genome variation and biogeography of Antarctic haloarchaea, here we assessed genomic variation between two strains of Halorubrum lacusprofundi that were isolated from Antarctic hypersaline lakes from different regions (Vestfold Hills and Rauer Islands). To assess variation in haloarchaeal populations, including the presence of genomic islands, metagenomes from six hypersaline Antarctic lakes were characterised. The sequence of the largest replicon of each Hrr. lacusprofundi strain (primary replicon) was highly conserved, while each of the strains' two smaller replicons (secondary replicons) were highly variable. Intergenera gene exchange was identified, including the sharing of a type I-B CRISPR system. Evaluation of infectivity of an Antarctic halovirus provided experimental evidence for the differential susceptibility of the strains, bolstering inferences that strain variation is important for modulating interactions with viruses. A relationship was found between genomic structuring and the location of variation within replicons and genomic islands, demonstrating that the way in which haloarchaea accommodate genomic variability relates to replicon structuring. Metagenome read and contig mapping and clustering and scaling analyses demonstrated biogeographical patterning of variation consistent with environment and distance effects. The metagenome data also demonstrated that specific haloarchaeal species dominated the hypersaline systems indicating they are endemic to Antarctica. The study describes how genomic variation manifests in Antarctic-lake haloarchaeal communities and provides the basis for future assessments of Antarctic regional and global biogeography of haloarchaea.
ISSN:2049-2618
2049-2618
DOI:10.1186/s40168-018-0495-3