Add to ORKGThe clearest phenotypic characteristic of microbial cells is their shape, but we do not understand how cell shape affects the dense communities, known as biofilms, where many microbes live. Here, we use individual-based modeling to systematically vary cell shape and study its impact in simulated communities. We compete cells with different cell morphologies under a range of conditions and ask how shape affects the patterning and evolutionary fitness of cells within a community. Our models predict that cell shape will strongly influence the fate of a cell lineage: we describe a mechanism through which coccal (round) cells rise to the upper surface of a community, leading to a strong spatial structuring that can be critical for fitness. We te...
Background The spatial structure of a habitat can have a strong impact on community dynamics. Differ...
Biofilms are microbial collectives that occupy a diverse array of surfaces. It is well known that th...
In nature, most bacteria live in surface-attached sedentary communities known as biofilms. Biofilms ...
The clearest phenotypic characteristic of microbial cells is their shape, but we do not understand h...
The clearest phenotypic characteristic of microbial cells is their shape, but we do not understand h...
By growing together in dense communities, microorganisms (microbes) have a huge impact on human life...
By growing together in dense communities, microorganisms (microbes) have a huge impact on human life...
Bacterial cells come in a huge variety of shapes, but we have yet to understand the importance of th...
Prokaryotes come in a wide variety of shapes, determined largely by natural selection, physical cons...
Evidence suggests that bacterial community spatial organization affects their ecological function, y...
One of the most basic features that pervade biology is the existence of boundaries that separate liv...
Biological development is a complex and elegant process that generates the vast array of form and sh...
One of the most basic features that pervade biology is the existence of boundaries that separate liv...
AbstractSpatial effects such as cell shape have very often been considered negligible in models of c...
In nature, most bacteria live in surface-attached sedentary communities known as biofilms. Biofilms ...
Background The spatial structure of a habitat can have a strong impact on community dynamics. Differ...
Biofilms are microbial collectives that occupy a diverse array of surfaces. It is well known that th...
In nature, most bacteria live in surface-attached sedentary communities known as biofilms. Biofilms ...
The clearest phenotypic characteristic of microbial cells is their shape, but we do not understand h...
The clearest phenotypic characteristic of microbial cells is their shape, but we do not understand h...
By growing together in dense communities, microorganisms (microbes) have a huge impact on human life...
By growing together in dense communities, microorganisms (microbes) have a huge impact on human life...
Bacterial cells come in a huge variety of shapes, but we have yet to understand the importance of th...
Prokaryotes come in a wide variety of shapes, determined largely by natural selection, physical cons...
Evidence suggests that bacterial community spatial organization affects their ecological function, y...
One of the most basic features that pervade biology is the existence of boundaries that separate liv...
Biological development is a complex and elegant process that generates the vast array of form and sh...
One of the most basic features that pervade biology is the existence of boundaries that separate liv...
AbstractSpatial effects such as cell shape have very often been considered negligible in models of c...
In nature, most bacteria live in surface-attached sedentary communities known as biofilms. Biofilms ...
Background The spatial structure of a habitat can have a strong impact on community dynamics. Differ...
Biofilms are microbial collectives that occupy a diverse array of surfaces. It is well known that th...
In nature, most bacteria live in surface-attached sedentary communities known as biofilms. Biofilms ...