Add to ORKGThe reproduction of a living cell requires a repeatable set of chemical events to be properly coordinated. Such events define a replication cycle, coupling the growth and shape change of the cell membrane with internal metabolic reactions. Although the logic of such process is determined by potentially simple physico-chemical laws, the modeling of a full, self-maintained cell cycle is not trivial. Here we present a novel approach to the problem which makes use of so called symmetry breaking instabilities as the engine of cell growth and division. It is shown that the process occurs as a consequence of the breaking of spatial symmetry and provides a reliable mechanism of vesicle growth and reproduction. Our model opens the possibility of a s...
A class of generic models of protocells is introduced,which are inspired by the Los Alamos bug hypot...
A “synthetic minimal cell” is considered here as a cell-like artificial vesicle reproduction system ...
We have re-implemented and extended the 2D artificial chemistry model of Ono and Ikegami (2001) (see...
The generation of synthetic forms of cellular life requires solutions to the problem of how biologic...
International audienceOne proposed scenario for the emergence of biochemical oscillations is that th...
Bottom-up synthetic biology has set itself the exciting and ambitious task to create cellular life f...
In this review, we discuss various methods of reproducing life dynamics using a constructive approac...
We show how it is possible to make a self-reproducing cell in an artificial chemistry by surrounding...
A protocell could be schematically described as a self-organized, spatially confined collection of c...
Protocells should be similar to present-day biological cells, but much simpler. They are believed to...
In this paper a new model of growing and dividing protocells is described, whose main features are (...
In previous works we have explored the dynamics of chemically reacting proto-cellular systems, under...
The heredity of a cell is provided by a small number of non-catalytic templates-The genome. How did ...
In this paper a new model of growing and dividing protocells is described, whose main features are (...
We present some improved versions of a previous model10 to describe a class of genericprotocells hyp...
A class of generic models of protocells is introduced,which are inspired by the Los Alamos bug hypot...
A “synthetic minimal cell” is considered here as a cell-like artificial vesicle reproduction system ...
We have re-implemented and extended the 2D artificial chemistry model of Ono and Ikegami (2001) (see...
The generation of synthetic forms of cellular life requires solutions to the problem of how biologic...
International audienceOne proposed scenario for the emergence of biochemical oscillations is that th...
Bottom-up synthetic biology has set itself the exciting and ambitious task to create cellular life f...
In this review, we discuss various methods of reproducing life dynamics using a constructive approac...
We show how it is possible to make a self-reproducing cell in an artificial chemistry by surrounding...
A protocell could be schematically described as a self-organized, spatially confined collection of c...
Protocells should be similar to present-day biological cells, but much simpler. They are believed to...
In this paper a new model of growing and dividing protocells is described, whose main features are (...
In previous works we have explored the dynamics of chemically reacting proto-cellular systems, under...
The heredity of a cell is provided by a small number of non-catalytic templates-The genome. How did ...
In this paper a new model of growing and dividing protocells is described, whose main features are (...
We present some improved versions of a previous model10 to describe a class of genericprotocells hyp...
A class of generic models of protocells is introduced,which are inspired by the Los Alamos bug hypot...
A “synthetic minimal cell” is considered here as a cell-like artificial vesicle reproduction system ...
We have re-implemented and extended the 2D artificial chemistry model of Ono and Ikegami (2001) (see...