ABSTRACT Bacterial cells, like many other organisms, face a tradeoff between longevity and fecundity. Planktonic cells are fast growing and fragile, while biofilm cells are often slower growing but stress resistant. Here we ask why bacterial lineages invest simultaneously in both fast- and slow-growing types. We develop a population dynamic model of lineage expansion across a patchy environment and find that mixed investment is favored across a broad range of environmental conditions, even when transmission is entirely via biofilm cells. This mixed strategy is favored because of a division of labor where exponentially dividing planktonic cells can act as an engine for the production of future biofilm cells, which grow more slowly. We use ex...
Biofilm formation is an important and ubiquitous mode of growth among bacteria. Central to the evolu...
<div><p>Most bacteria live in colonies, where they often express different cell types. The ecologica...
The development of biofilms at solid-liquid interfaces has been investigated extensively, whereas th...
Bacterial populations in the environment have been shown to harbor tremendous within species diversi...
International audienceMicrobes often live in dense communities called biofilms, where competition be...
Microbes often live in dense communities called biofilms where competition between strains and speci...
Biofilms are a major form of microbial life in which cells form dense surface associated communities...
2014-12-11Escherichia coli and other bacteria can be propagated in the lab in two different ways, in...
Population bottlenecks are assumed to play a key role in the maintenance of social traits in microbe...
In nature, most bacteria live in surface-attached sedentary communities known as biofilms. Biofilms ...
In nature, bacteria alternate between two modes of growth: a unicellular life phase, in which the ce...
The majority of ecological, industrial and medical impacts of bacteria result from diverse communiti...
International audienceDuring biofilm growth, the coexistence of planktonic and sessile cells can lea...
Bacteria have fascinating and diverse social lives. They display coordinated group behaviors regulat...
Many biofilm populations are known for their exceptional biodiversity, but the relative contribution...
Biofilm formation is an important and ubiquitous mode of growth among bacteria. Central to the evolu...
<div><p>Most bacteria live in colonies, where they often express different cell types. The ecologica...
The development of biofilms at solid-liquid interfaces has been investigated extensively, whereas th...
Bacterial populations in the environment have been shown to harbor tremendous within species diversi...
International audienceMicrobes often live in dense communities called biofilms, where competition be...
Microbes often live in dense communities called biofilms where competition between strains and speci...
Biofilms are a major form of microbial life in which cells form dense surface associated communities...
2014-12-11Escherichia coli and other bacteria can be propagated in the lab in two different ways, in...
Population bottlenecks are assumed to play a key role in the maintenance of social traits in microbe...
In nature, most bacteria live in surface-attached sedentary communities known as biofilms. Biofilms ...
In nature, bacteria alternate between two modes of growth: a unicellular life phase, in which the ce...
The majority of ecological, industrial and medical impacts of bacteria result from diverse communiti...
International audienceDuring biofilm growth, the coexistence of planktonic and sessile cells can lea...
Bacteria have fascinating and diverse social lives. They display coordinated group behaviors regulat...
Many biofilm populations are known for their exceptional biodiversity, but the relative contribution...
Biofilm formation is an important and ubiquitous mode of growth among bacteria. Central to the evolu...
<div><p>Most bacteria live in colonies, where they often express different cell types. The ecologica...
The development of biofilms at solid-liquid interfaces has been investigated extensively, whereas th...