Template-dependent replication at the molecular level is the basis of reproduction in nature. A detailed understanding of the peculiarities of the chemical reaction kinetics associated with replication processes is therefore an indispensible prerequisite for any understanding of evolution at the molecular level. Networks of interacting self-replicating species can give rise to a wealth of different dynamical phenomena, from competitive exclusion to permanent coexistence, from global stability to multi-stability and chaotic dynamics. Nevertheless, there are some general principles that govern their overall behavior. We focus on the question to what extent the dynamics of replication can explain the accumulation of genetic information that ev...
The importance of spatial organization for the evolutionary stability of trans-acting replicase syst...
Molecules that replicate in trans are vulnerable to evolutionary extinction because they decrease th...
How new species emerge in nature is still incompletely understood and difficult to study directly. S...
Template-dependent replication at the molecular level is the basis of reproduction in nature. A deta...
The process by which chemistry can give rise to biology remains one of the biggest mysteries in cont...
The quest for the origin of life requires the understanding of how the cells, the simplest living or...
The population dynamics of macromolecules that reproduce by means of template-directed ligation of t...
How the complexity of primitive self-replication molecules develops through Darwinian evolution rema...
Self-replication plays a central role in the origin of life and in strategies to synthesize life de ...
Replicator equations have been studied for three decades as a generic dynamical system modelling rep...
Self-replicating molecules play a fundamental role in origins of life studies. In Chapter 2, evidenc...
AbstractWe review computational studies on prebiotic evolution, focusing on informatic processes in ...
The importance of spatial organization for the evolutionary stability of trans-acting replicase syst...
Molecules that replicate in trans are vulnerable to evolutionary extinction because they decrease th...
How new species emerge in nature is still incompletely understood and difficult to study directly. S...
Template-dependent replication at the molecular level is the basis of reproduction in nature. A deta...
The process by which chemistry can give rise to biology remains one of the biggest mysteries in cont...
The quest for the origin of life requires the understanding of how the cells, the simplest living or...
The population dynamics of macromolecules that reproduce by means of template-directed ligation of t...
How the complexity of primitive self-replication molecules develops through Darwinian evolution rema...
Self-replication plays a central role in the origin of life and in strategies to synthesize life de ...
Replicator equations have been studied for three decades as a generic dynamical system modelling rep...
Self-replicating molecules play a fundamental role in origins of life studies. In Chapter 2, evidenc...
AbstractWe review computational studies on prebiotic evolution, focusing on informatic processes in ...
The importance of spatial organization for the evolutionary stability of trans-acting replicase syst...
Molecules that replicate in trans are vulnerable to evolutionary extinction because they decrease th...
How new species emerge in nature is still incompletely understood and difficult to study directly. S...