Data for paper: Viral coinfection is shaped by host ecology and virus-virus interactions across diverse microbial taxa and environments (in press at Virus Evolution)
Infection
of more than one virus in a host, coinfection, is common across taxa and
environments. Viral coinfection can enable genetic exchange, alter the dynamics
of infections, and change the course of viral evolution. Yet, a systematic test
of the factors explaining variation in viral coinfection across different taxa
and environments awaits completion. Here I employ three microbial data sets of
virus-host interactions covering cross-infectivity, culture coinfection, and
single-cell coinfection (total: 6,564 microbial hosts, 13,103 viruses) to
provide a broad, comprehensive picture of the ecological and biological factors
shaping viral coinfection. I found evidence that ecology and virus-virus
interactions are recurrent factors shaping coinfection patterns. Host ecology
was a consistent and strong predictor of coinfection across all three datasets:
cross-infectivity, culture coinfection, and single-cell coinfection. Host
phylogeny or taxonomy was a less consistent predictor, being weak or absent in the
cross-infectivity and single-cell coinfection models, yet it was the strongest
predictor in the culture coinfection model. Virus-virus interactions strongly
affected coinfection. In the largest test of superinfection exclusion to date, prophage
sequences reduced culture coinfection by other prophages, with a weaker effect
on extrachromosomal virus coinfection. At the single-cell level, prophage sequences
eliminated coinfection. Virus-virus interactions also increased culture coinfection with ssDNA-dsDNA coinfections >2x more
likely than ssDNA-only coinfections. The presence of CRISPR spacers was
associated with a ~50% reduction in single-cell coinfection in a marine
bacteria, despite the absence of exact spacer matches in any active infection. Collectively,
these results suggest the environment bacteria inhabit and the interactions
among surrounding viruses are two factors consistently shaping viral
coinfection patterns. These findings highlight the role of virus-virus
interactions in coinfection with implications for phage therapy, microbiome
dynamics, and viral infection treatments.
Funding
A Faculty Fellowship to SLDM from New York University supported this work