We envision the molecular evolution process as an information transfer process and provide a quantitative measure for information preservation in terms of the channel capacity according to the channel coding theorem of Shannon. We calculate Information capacities of DNA on the nucleotide (for non-coding DNA) and the amino acid (for coding DNA) level using various substitution models. We extend our results on coding DNA to a discussion about the optimality of the natural codon-amino acid code. We provide the results of an adaptive search algorithm in the code domain and demonstrate the existence of a large number of genetic codes with higher information capacity. Our results support the hypothesis of an ancient extension from a 2-nucleotide ...
Bionetics 2011, 6th International ICST Conference on Bio-Inspired Models of Network, Information, an...
The Shannon entropy measures the expected information value of messages. As with thermodynamic entro...
Abstract According to the molecular recognition theory, the complementarity of the sense and nonsens...
We envision the molecular evolution process as an information transfer process and provide a quantit...
The genetic code maps the sixty-four nucleotide triplets (codons) to twenty amino-acids. While the b...
Information encoding and processing in DNA has proved to be an important problem for biomolecular co...
The standard genetic code (SGC) is central to molecular biology and its origin and evolution is a fu...
The genetic code, which directs the protein biosynthesis, is an information system [1]. Although not...
Many biological systems are typically examined from the point of view of adaptation to certain condi...
The canonical genetic code is the nearly universal language for translating the information stored i...
The genetic code maps the 64 nucleotide triplets (codons) to 20 amino acids. Some argue that the spe...
Encoding and processing information in DNA-, RNA- and other biomolecule-based devices is an importan...
The conservation of genetic information through the ages can not be explained unless one assumes the...
BACKGROUND: The genetic code is known to be efficient in limiting the effect of mistranslation error...
Encoding of information in DNA-, RNA- and other biomolecules is an important area of research in fie...
Bionetics 2011, 6th International ICST Conference on Bio-Inspired Models of Network, Information, an...
The Shannon entropy measures the expected information value of messages. As with thermodynamic entro...
Abstract According to the molecular recognition theory, the complementarity of the sense and nonsens...
We envision the molecular evolution process as an information transfer process and provide a quantit...
The genetic code maps the sixty-four nucleotide triplets (codons) to twenty amino-acids. While the b...
Information encoding and processing in DNA has proved to be an important problem for biomolecular co...
The standard genetic code (SGC) is central to molecular biology and its origin and evolution is a fu...
The genetic code, which directs the protein biosynthesis, is an information system [1]. Although not...
Many biological systems are typically examined from the point of view of adaptation to certain condi...
The canonical genetic code is the nearly universal language for translating the information stored i...
The genetic code maps the 64 nucleotide triplets (codons) to 20 amino acids. Some argue that the spe...
Encoding and processing information in DNA-, RNA- and other biomolecule-based devices is an importan...
The conservation of genetic information through the ages can not be explained unless one assumes the...
BACKGROUND: The genetic code is known to be efficient in limiting the effect of mistranslation error...
Encoding of information in DNA-, RNA- and other biomolecules is an important area of research in fie...
Bionetics 2011, 6th International ICST Conference on Bio-Inspired Models of Network, Information, an...
The Shannon entropy measures the expected information value of messages. As with thermodynamic entro...
Abstract According to the molecular recognition theory, the complementarity of the sense and nonsens...