Species interactions can shift along the parasitism‐mutualism continuum. However, the consequences of these transitions for coevolutionary interactions remain unclear. We experimentally coevolved a novel species interaction between Caenorhabditis elegans hosts and a mildly parasitic bacterium, Enterococcus faecalis, with host‐protective properties against virulent Staphylococcus aureus. Coinfections drove the evolutionary transition of the C. elegans–E. faecalis relationship toward a reciprocally beneficial interaction. As E. faecalis evolved to protect nematodes against S. aureus infection, hosts adapted by accommodating greater numbers of protective bacteria. The mutualism was strongest in pairings of contemporary coevolved populations. T...
The coevolution of interacting species can lead to codependent mutualists. Little is known about the...
Background: Bacteria adapted to live within animals can protect their hosts against harmful infectio...
Understanding the coevolution of hosts and parasites is a long‐standing goal of evolutionary biology...
Species interactions can shift along the parasitism-mutualism continuum. However, the consequences o...
Coevolution between hosts and parasites is a major driver of rapid evolutionary change1 and diversif...
Microbes can defend their host against virulent infections, but direct evidence for the adaptive ori...
Microbes can protect their plant and animal hosts against infection by pathogens, parasites and para...
Microbes can defend their host against virulent infections, but direct evidence for the adaptive ori...
Microbes that protect their hosts from pathogenic infection are widespread components of the microbi...
Every host is colonized by a variety of microbes, some of which can protect their hosts from pathoge...
Microbiota can protect their hosts from infection. The short timescales in which microbes can evolve...
Microbes that protect their hosts from pathogenic infection are widespread components of the microbi...
Microbes can defend their host against virulent infections, but direct evidence for the adaptive ori...
Microbes can defend their host against virulent infections, but direct evidence for the adaptive ori...
Background: Animal and plant species can harbour microbes that provide them with protection against ...
The coevolution of interacting species can lead to codependent mutualists. Little is known about the...
Background: Bacteria adapted to live within animals can protect their hosts against harmful infectio...
Understanding the coevolution of hosts and parasites is a long‐standing goal of evolutionary biology...
Species interactions can shift along the parasitism-mutualism continuum. However, the consequences o...
Coevolution between hosts and parasites is a major driver of rapid evolutionary change1 and diversif...
Microbes can defend their host against virulent infections, but direct evidence for the adaptive ori...
Microbes can protect their plant and animal hosts against infection by pathogens, parasites and para...
Microbes can defend their host against virulent infections, but direct evidence for the adaptive ori...
Microbes that protect their hosts from pathogenic infection are widespread components of the microbi...
Every host is colonized by a variety of microbes, some of which can protect their hosts from pathoge...
Microbiota can protect their hosts from infection. The short timescales in which microbes can evolve...
Microbes that protect their hosts from pathogenic infection are widespread components of the microbi...
Microbes can defend their host against virulent infections, but direct evidence for the adaptive ori...
Microbes can defend their host against virulent infections, but direct evidence for the adaptive ori...
Background: Animal and plant species can harbour microbes that provide them with protection against ...
The coevolution of interacting species can lead to codependent mutualists. Little is known about the...
Background: Bacteria adapted to live within animals can protect their hosts against harmful infectio...
Understanding the coevolution of hosts and parasites is a long‐standing goal of evolutionary biology...