Prebiotic chemistry has dominated the origins of life (OoL) field to such an extent that often these terms have been used interchangeably. While prebiotic chemistry has benefited from cross-seeding with other disciplines (e.g., biochemistry, biophysics, computational sciences, geosciences), the OoL problem is still primarily a chemical one. The range of possible non-enzymatic pathways provisioning important biomolecules is becoming clearer, and the problem can now be cast in terms of understanding how the constructive interplay between such pathways is underlying the mechanisms controlling their self-organization into systems. Those systems must be capable of producing their constituent parts and reproducing as a result, with a degree of ma...
The basic tenet of the heterotrophic theory of the origin of life is that the maintenance and reprod...
International audienceResearch in origins of life is an intrinsically multidisciplinary field, aimed...
Living organisms are the most complex chemical system known to exist, yet exploit only a small cons...
Prebiotic chemistry has dominated the origins of life (OoL) field to such an extent that often these...
Prebiotic chemistry has dominated the origins of life (OoL) field to such an extent that often these...
Studying the origin of life is one of man’s greatest achievements over the last sixty years. The fie...
In the present paper, a historical view from spontaneous generation of life to Oparin-Haldane hypoth...
The phosphorylation of nucleosides and their polymerization are crucial issues concerning the origin...
Prebiotic chemistry plays a central role in the investigation of the possible scenarios of the early...
Summary: How can matter transition from the nonliving to the living state? The answer is essential f...
The goal of prebiotic chemistry is the depiction of molecular evolution events preceding the emergen...
The goal of prebiotic chemistry is the depiction of molecular evolution events preceding the emergen...
For more than a century, chemists and biologists have been trying to understand, and recreate, how l...
What were the physico-chemical forces that drove the origins of life? We discuss four major prebioti...
The basic tenet of the heterotrophic theory of the origin of life is that the maintenance and reprod...
International audienceResearch in origins of life is an intrinsically multidisciplinary field, aimed...
Living organisms are the most complex chemical system known to exist, yet exploit only a small cons...
Prebiotic chemistry has dominated the origins of life (OoL) field to such an extent that often these...
Prebiotic chemistry has dominated the origins of life (OoL) field to such an extent that often these...
Studying the origin of life is one of man’s greatest achievements over the last sixty years. The fie...
In the present paper, a historical view from spontaneous generation of life to Oparin-Haldane hypoth...
The phosphorylation of nucleosides and their polymerization are crucial issues concerning the origin...
Prebiotic chemistry plays a central role in the investigation of the possible scenarios of the early...
Summary: How can matter transition from the nonliving to the living state? The answer is essential f...
The goal of prebiotic chemistry is the depiction of molecular evolution events preceding the emergen...
The goal of prebiotic chemistry is the depiction of molecular evolution events preceding the emergen...
For more than a century, chemists and biologists have been trying to understand, and recreate, how l...
What were the physico-chemical forces that drove the origins of life? We discuss four major prebioti...
The basic tenet of the heterotrophic theory of the origin of life is that the maintenance and reprod...
International audienceResearch in origins of life is an intrinsically multidisciplinary field, aimed...
Living organisms are the most complex chemical system known to exist, yet exploit only a small cons...