Despite spectacular progress in biophysics, molecular biology and biochemistry our ability to predict the dynamic behavior of multicellular systems under different conditions is very limited. An important reason for this is that still not enough is known about how cells change their physical and biological properties by genetic or metabolic regulation, and which of these changes affect the cell behavior. For this reason, it is difficult to predict the system behavior of multicellular systems in case the cell behavior changes, for example, as a consequence of regulation or differentiation. The rules that underlie the regulation processes have been determined on the time scale of evolution, by selection on the phenotypic level of cells or cel...
Background: Cellular differentiation during development is controlled by gene regulatory networks (G...
In this chapter, we describe the use of evolutionary methods for the in silico generation of artific...
Gene expression regulation is a fundamental cellular process that enables robust functioning of cell...
Despite spectacular progress in biophysics, molecular biology and biochemistry our ability to predic...
We investigate the ability of artificial Genetic Regulatory Networks (GRNs) to evolve differentiatio...
The emergence of novelties, as a generator of diversity, in the form and function of the organisms h...
Genetic Regulatory Networks (GRNs) in biological organisms are primary engines for cells to enact th...
2018-10-30Advances in molecular and developmental biology have lead to the understanding that many p...
Genetic regulatory networks control ontogeny. For fifty years Boolean networks have served as models...
Over the last twenty years advances in systems biology have changed our views on microbial communiti...
This paper presents a new model for the development of artificial creatures from a single cell. The ...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Physics, 2004.Includes bibliographi...
Cell phenotypes are controlled by complex interactions between genes, proteins, and other molecules ...
It is a well-known paradox that evolution in experiments or in the wild often proceeds orders of mag...
Background: Elucidating the architecture and dynamics of large scale genetic regulatory networks of ...
Background: Cellular differentiation during development is controlled by gene regulatory networks (G...
In this chapter, we describe the use of evolutionary methods for the in silico generation of artific...
Gene expression regulation is a fundamental cellular process that enables robust functioning of cell...
Despite spectacular progress in biophysics, molecular biology and biochemistry our ability to predic...
We investigate the ability of artificial Genetic Regulatory Networks (GRNs) to evolve differentiatio...
The emergence of novelties, as a generator of diversity, in the form and function of the organisms h...
Genetic Regulatory Networks (GRNs) in biological organisms are primary engines for cells to enact th...
2018-10-30Advances in molecular and developmental biology have lead to the understanding that many p...
Genetic regulatory networks control ontogeny. For fifty years Boolean networks have served as models...
Over the last twenty years advances in systems biology have changed our views on microbial communiti...
This paper presents a new model for the development of artificial creatures from a single cell. The ...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Physics, 2004.Includes bibliographi...
Cell phenotypes are controlled by complex interactions between genes, proteins, and other molecules ...
It is a well-known paradox that evolution in experiments or in the wild often proceeds orders of mag...
Background: Elucidating the architecture and dynamics of large scale genetic regulatory networks of ...
Background: Cellular differentiation during development is controlled by gene regulatory networks (G...
In this chapter, we describe the use of evolutionary methods for the in silico generation of artific...
Gene expression regulation is a fundamental cellular process that enables robust functioning of cell...