RT Journal Article
SR Electronic
T1 Long-term genomic coevolution of host-parasite interaction in natural environment
JF bioRxiv
FD Cold Spring Harbor Laboratory
SP 101576
DO 10.1101/101576
A1 Elina Laanto
A1 Ville Hoikkala
A1 Janne Ravantti
A1 Lotta-Riina Sundberg
YR 2017
UL http://biorxiv.org/content/early/2017/01/19/101576.abstract
AB The antagonistic coevolution of parasite infectivity and host resistance alters the biological functionality of species, with effects spanning to communities and ecosystems. Still, studies describing long-term host-parasite coevolutionary dynamics in nature are largely missing. Furthermore, the role of host resistance mechanisms for parasite evolution is poorly understood, necessitating for molecular and phenotypic characterization of both coevolving parasites and their hosts. We combined long-term field sampling (2007-2014), in vitro cross-infections and time-shift experiments with bacteriophage whole genome sequencing and bacterial (Flavobacterium columnare) CRISPR (Clustered Regularly Interspaced Short Palindromic Repeats) profiling to show the molecular details of the phage-bacterium arms race in the environment. Bacteria were generally resistant to phages from the past and susceptible to phages from the future. The bacterial resistance selected for increased phage infectivity and host range, correlating directly with expansion of phage genome size by 2656 bp. In the bacterial host, two CRISPR loci were identified; a type II-C locus, and an RNA-targeting type VI-B locus. While maintaining a core set of conserved spacers, phage-matching spacers appeared in the variable end of both CRISPR loci over time. Appearance of these CRISPR spacers in the bacterial host often corresponded with arms race -manner molecular changes in the protospacers of the coevolving phage population. However, the phenotypic data indicated, that the relative role of constitutive defense, may be more important in high phage pressure, highlighting the importance of our findings for understanding microbial community ecology, and in development of phage therapy applications.