Cooperative mutualisms are widespread and play fundamental roles in many ecosystems. Given that these interactions are often obligate, the Darwinian fitness of the participating individuals is not only determined by the information encoded in their own genomes, but also the traits and capabilities of their corresponding interaction partners. Thus, a major outstanding question is how obligate cooperative mutualisms affect the ability of organisms to adapt evolutionarily to changing environmental conditions. Here we address this issue using a mutualistic cooperation between two auxotrophic genotypes of Escherichia coli that reciprocally exchanged costly amino acids. Amino acid-supplemented monocultures and unsupplemented cocultures were expos...
Bacteria frequently lose biosynthetic genes, thus making them dependent on an environmental uptake o...
SummaryExplaining cooperation is a challenge for evolutionary biology [1, 2]. Surprisingly, the role...
Explaining cooperation is a challenge for evolutionary biology [1, 2]. Surprisingly, the role of ext...
Mutualism is ubiquitous in nature and plays an integral role in most communities. To predict the eco...
Conflict and cooperation between bacterial species drive the composition and function of microbial c...
To understand how two organisms that have not previously been in contact can establish mutualism, it...
Microbial interactions abound in natural ecosystems and shape community structure and function. Subs...
Mutualisms between species play an important role in ecosystem function and stability. However, in s...
Microbial communities are increasingly utilised in biotechnology. Efficiency and productivity in man...
Mutualisms between species play an important role in ecosystem function and stability. However, in s...
Mutualistic interactions are taxonomically and functionally diverse. Despite their ubiquity, the bas...
Explaining cooperation is a challenge for evolutionary biology. Surprisingly, the role of extrinsic ...
Mutualisms, cooperative partnerships between species, are among the most prevalent and economically ...
<div><p>Bacteria frequently lose biosynthetic genes, thus making them dependent on an environmental ...
Symbiotic interactions between organisms are important for human health and biotechnological applica...
Bacteria frequently lose biosynthetic genes, thus making them dependent on an environmental uptake o...
SummaryExplaining cooperation is a challenge for evolutionary biology [1, 2]. Surprisingly, the role...
Explaining cooperation is a challenge for evolutionary biology [1, 2]. Surprisingly, the role of ext...
Mutualism is ubiquitous in nature and plays an integral role in most communities. To predict the eco...
Conflict and cooperation between bacterial species drive the composition and function of microbial c...
To understand how two organisms that have not previously been in contact can establish mutualism, it...
Microbial interactions abound in natural ecosystems and shape community structure and function. Subs...
Mutualisms between species play an important role in ecosystem function and stability. However, in s...
Microbial communities are increasingly utilised in biotechnology. Efficiency and productivity in man...
Mutualisms between species play an important role in ecosystem function and stability. However, in s...
Mutualistic interactions are taxonomically and functionally diverse. Despite their ubiquity, the bas...
Explaining cooperation is a challenge for evolutionary biology. Surprisingly, the role of extrinsic ...
Mutualisms, cooperative partnerships between species, are among the most prevalent and economically ...
<div><p>Bacteria frequently lose biosynthetic genes, thus making them dependent on an environmental ...
Symbiotic interactions between organisms are important for human health and biotechnological applica...
Bacteria frequently lose biosynthetic genes, thus making them dependent on an environmental uptake o...
SummaryExplaining cooperation is a challenge for evolutionary biology [1, 2]. Surprisingly, the role...
Explaining cooperation is a challenge for evolutionary biology [1, 2]. Surprisingly, the role of ext...