Protocells are supposed to have played a key role in the self-organizing processes leading to the emergence of life. Existing models either (i) describe protocell architecture and dynamics, given the existence of sets of collectively self-replicating molecules for granted, or (ii) describe the emergence of the aforementioned sets from an ensemble of random molecules in a simple experimental setting (e.g. a closed system or a steady-state flow reactor) that does not properly describe a protocell. In this paper we present a model that goes beyond these limitations by describing the dynamics of sets of replicating molecules within a lipid vesicle. We adopt the simplest possible protocell architecture, by considering a semi-permeable membrane t...
This paper is a theoretical attempt to gain insight into the problemof howself-assembling vesicles (...
In previous works we have explored the dynamics of chemically reacting proto-cellular systems, under...
Protocell multilevel selection models have been proposed to study the evolutionary dynamics of vesic...
Protocells are supposed to have played a key role in the self-organizing processes leading to the em...
The theoretical characterization of the self-organizing molecular structures emerging from ensembles...
In this paper a new model of growing and dividing protocells is described, whose main features are (...
‘ENVIRONMENT’ is a computational platform that has been developed in the last few years with the aim...
In this paper we describe the main features of a new computational platform, 'ENVIRONMENT', which ha...
The construction of artificial cells based on the encapsulation of chemical reacting systems inside ...
In this paper a new model of growing and dividing protocells is described, whose main features are (...
In this paper a new model of growing and dividing protocells is described, whose main features are (...
Stochastic chemical kinetics attempts to describe the time evolution of a well stirred chemically r...
A class of generic models of protocells is introduced,which are inspired by the Los Alamos bug hypot...
A recently developed and presented stochastic simulation platform ('ENVIRONMENT' [12, 25]), which ex...
This paper is a theoretical attempt to gain insight into the problemof howself-assembling vesicles (...
In previous works we have explored the dynamics of chemically reacting proto-cellular systems, under...
Protocell multilevel selection models have been proposed to study the evolutionary dynamics of vesic...
Protocells are supposed to have played a key role in the self-organizing processes leading to the em...
The theoretical characterization of the self-organizing molecular structures emerging from ensembles...
In this paper a new model of growing and dividing protocells is described, whose main features are (...
‘ENVIRONMENT’ is a computational platform that has been developed in the last few years with the aim...
In this paper we describe the main features of a new computational platform, 'ENVIRONMENT', which ha...
The construction of artificial cells based on the encapsulation of chemical reacting systems inside ...
In this paper a new model of growing and dividing protocells is described, whose main features are (...
In this paper a new model of growing and dividing protocells is described, whose main features are (...
Stochastic chemical kinetics attempts to describe the time evolution of a well stirred chemically r...
A class of generic models of protocells is introduced,which are inspired by the Los Alamos bug hypot...
A recently developed and presented stochastic simulation platform ('ENVIRONMENT' [12, 25]), which ex...
This paper is a theoretical attempt to gain insight into the problemof howself-assembling vesicles (...
In previous works we have explored the dynamics of chemically reacting proto-cellular systems, under...
Protocell multilevel selection models have been proposed to study the evolutionary dynamics of vesic...