Both digital codes in computers and nucleotide codes in cells are protected against mutations. Here we explore how mutation protection affects the random change and selection of digital and nucleotide codes. We illustrate our findings with a computer simulation of the evolution of a population of self replicating digital amoebae. We show that evolutionary programming of digital codes is a valid model for the evolution of nucleotide codes by random change within the boundaries of mutation protection, not for evolution by unbounded random change. Our mutation protection perspective enhances the understanding of the evolutionary dynamics of digital and nucleotide codes and its limitations, and reveals a paradox between the necessity of d...
Protein evolution is not a random process. Views which attribute randomness to molecular change, del...
ABSTRACT The standard genetic code is robust to mutations during transcription and translation. Poin...
Abstract Background The standard genetic code table has a distinctly non-random structure, with simi...
We study the evolution of robustness in digital organisms adapting to a high mutation rate. As genom...
The standard genetic code (SGC) is central to molecular biology and its origin and evolution is a fu...
We review a project of software-development companies to reduce the cost of software engineering by ...
Abstract Background Recent work has revealed that many biological systems keep functioning in the fa...
The standard genetic code is non-randomly organized. The Error minimization hypothesis interprets th...
The conservation of genetic information through the ages can not be explained unless one assumes the...
Digital organisms are computer programs that self-replicate, mutate and adapt by natural selection. ...
Digital genetics, or the genetics of digital organisms, is a new field of research that has become p...
Recently, all the human genes were identified. But understanding the functions coded in the genes is...
An important goal of evolutionary biology is to understand the constraints that shape the dynamics a...
Neo-Darwinism can be usefully studied with the help of a Computerised Genetic Algorithm. Only a math...
16 pages, 7 figuresThe development of a large non-coding fraction in eukaryotic DNA and the phenomen...
Protein evolution is not a random process. Views which attribute randomness to molecular change, del...
ABSTRACT The standard genetic code is robust to mutations during transcription and translation. Poin...
Abstract Background The standard genetic code table has a distinctly non-random structure, with simi...
We study the evolution of robustness in digital organisms adapting to a high mutation rate. As genom...
The standard genetic code (SGC) is central to molecular biology and its origin and evolution is a fu...
We review a project of software-development companies to reduce the cost of software engineering by ...
Abstract Background Recent work has revealed that many biological systems keep functioning in the fa...
The standard genetic code is non-randomly organized. The Error minimization hypothesis interprets th...
The conservation of genetic information through the ages can not be explained unless one assumes the...
Digital organisms are computer programs that self-replicate, mutate and adapt by natural selection. ...
Digital genetics, or the genetics of digital organisms, is a new field of research that has become p...
Recently, all the human genes were identified. But understanding the functions coded in the genes is...
An important goal of evolutionary biology is to understand the constraints that shape the dynamics a...
Neo-Darwinism can be usefully studied with the help of a Computerised Genetic Algorithm. Only a math...
16 pages, 7 figuresThe development of a large non-coding fraction in eukaryotic DNA and the phenomen...
Protein evolution is not a random process. Views which attribute randomness to molecular change, del...
ABSTRACT The standard genetic code is robust to mutations during transcription and translation. Poin...
Abstract Background The standard genetic code table has a distinctly non-random structure, with simi...