A protocell could be schematically described as a self-organized, spatially confined collection of chemical species and chemical reactions, able to support the three main properties of living systems: metabolism, reproduction and inheritance. In living systems, while some chemicals are exclusively dedicated to a single activity, like DNA that is devoted to template-based replication, it often happens that the same chemical substance can participate (as substrate, product or catalyst) to many different reactions, which in turn can contribute to the different properties mentioned above; moreover the same reaction may be involved in more than one property. The components are not freely fluctuating within the environment, but are spatially conf...
Template-dependent replication at the molecular level is the basis of reproduction in nature. A deta...
The reproduction of a living cell requires a repeatable set of chemical events to be properly coordi...
This thesis describes a series of projects which have autocatalysis as the overarching theme. Chap...
Explaining the origin of life requires us to elucidate how self-replication arises. To be specific, ...
The process by which chemistry can give rise to biology remains one of the biggest mysteries in cont...
Examples of chemical systems capable of templating and catalysing their own synthesis-self-replicati...
International audienceWe show that self-replication of a chemical system encapsulated within a membr...
International audienceOne proposed scenario for the emergence of biochemical oscillations is that th...
The studies of self-replication in chemical viz. non-enzymatic model systems have gained significanc...
The quest for the origin of life requires the understanding of how the cells, the simplest living or...
A synthetic proto-organism could be self-assembled by integrating a lipid proto-container with a pro...
Explanation of the emergence of primitive cellular structures from a set of chemical reactions is ne...
The advent of life from prebiotic origins remains a deep and possibly inexplicable scientific myster...
Template-dependent replication at the molecular level is the basis of reproduction in nature. A deta...
The reproduction of a living cell requires a repeatable set of chemical events to be properly coordi...
This thesis describes a series of projects which have autocatalysis as the overarching theme. Chap...
Explaining the origin of life requires us to elucidate how self-replication arises. To be specific, ...
The process by which chemistry can give rise to biology remains one of the biggest mysteries in cont...
Examples of chemical systems capable of templating and catalysing their own synthesis-self-replicati...
International audienceWe show that self-replication of a chemical system encapsulated within a membr...
International audienceOne proposed scenario for the emergence of biochemical oscillations is that th...
The studies of self-replication in chemical viz. non-enzymatic model systems have gained significanc...
The quest for the origin of life requires the understanding of how the cells, the simplest living or...
A synthetic proto-organism could be self-assembled by integrating a lipid proto-container with a pro...
Explanation of the emergence of primitive cellular structures from a set of chemical reactions is ne...
The advent of life from prebiotic origins remains a deep and possibly inexplicable scientific myster...
Template-dependent replication at the molecular level is the basis of reproduction in nature. A deta...
The reproduction of a living cell requires a repeatable set of chemical events to be properly coordi...
This thesis describes a series of projects which have autocatalysis as the overarching theme. Chap...