Single cell genomics indicates horizontal gene transfer and viral infections in a deep subsurface Firmicutes population
Publication Year
2015
Type
Journal Article
Abstract
A major fraction of Earth s prokaryotic biomass dwells in the deep subsurface, where cellular abundances per volume of sample are lower, metabolism is slower, and generation times are longer than those in surface terrestrial and marine environments. How these conditions impact biotic interactions and evolutionary processes is largely unknown. Here we employed single cell genomics to analyze cell-to-cell genome content variability and signatures of horizontal gene transfer (HGT) and viral infections in five cells of Candidatus Desulforudis audaxviator, which were collected from a 3 km-deep fracture water in the 2.9 Ga-old Witwatersrand Basin of South Africa. Between 0 and 32% of genes recovered from single cells were not present in the original, metagenomic assembly of Desulforudis, which was obtained from a neighboring subsurface fracture. We found a transposable prophage, a retron, multiple clustered regularly interspaced short palindromic repeats (CRISPRs) and restriction-modification systems, and an unusually high frequency of transposases in the analyzed single cell genomes. This indicates that recombination, HGT and viral infections are prevalent evolutionary events in the studied population of microorganisms inhabiting a highly stable deep subsurface environment. © 2015 Labonté, Field, Lau, Chivian, Van Heerden, Wommack, Kieft, Onstott and Stepanauskas.
Keywords
restriction endonuclease,
transposase,
Article,
bacterial genome,
bacterium,
carbon dioxide fixation,
clustered regularly interspaced short palindromic repeat,
controlled study,
Desulforudis audaxviator,
DNA transposition,
Firmicutes,
gene sequence,
genetic recombination,
genetic variability,
horizontal gene transfer,
marine environment,
metagenomics,
microbial community,
nitrogen fixation,
nonhuman,
nucleotide sequence,
phylogeny,
polymerase chain reaction,
prophage,
single amplified genome,
single cell analysis,
structural genomics,
virus infection,
virus morphogenesis,
Firmicutes,
Prokaryota
Journal
Frontiers in Microbiology
Volume
6