Add to ORKGThe possibility of a complicated internal structure of an elementary particle was analyzed. In this case a particle may represent a quantum computer with many degrees of freedom. It was shown that the probability of new species formation by means of random mutations is negligibly small. Deterministic model of evolution is considered. According to this model DNA nucleotides can change their state under the control of elementary particle internal degrees of freedom
This thesis deals with mathematical models of Darwinian evolution in populations of simple living or...
A four-state mutation–selection model for the evolution of populations of DNA sequences is investiga...
Protein evolution is not a random process. Views which attribute randomness to molecular change, del...
Living organisms are not just random collections of organic molecules. There is continuous informati...
A review of the mechanisms of speciation is performed. The mechanisms of the evolution of species, t...
This work is a revised edition of the former article "Evolution and Mutation Physics” by the same au...
The principle that mutations occur randomly with respect to the direction of evolutionary change has...
We construct a descriptive toy model that considers quantum effects on biological evolution starting...
Recent evidence suggests that quantum mechanics is relevant in photosynthesis, magnetoreception, enz...
In previous publications [1,7] the author described the base rivalry in monotonous DNA sequences and...
Base rivalry arises at replication of monotonous DNA – sequences. Irreparable mutations can arise by...
The topics of the article has been restricted to those, which seem to represent the most well-establ...
The topics of the article has been restricted to those, which seem to represent the most well-establ...
I propose to treat the biological evolution of genoms by means of quantum mechanical tools. We start...
This thesis deals with mathematical models of Darwinian evolution in populations of simple living or...
This thesis deals with mathematical models of Darwinian evolution in populations of simple living or...
A four-state mutation–selection model for the evolution of populations of DNA sequences is investiga...
Protein evolution is not a random process. Views which attribute randomness to molecular change, del...
Living organisms are not just random collections of organic molecules. There is continuous informati...
A review of the mechanisms of speciation is performed. The mechanisms of the evolution of species, t...
This work is a revised edition of the former article "Evolution and Mutation Physics” by the same au...
The principle that mutations occur randomly with respect to the direction of evolutionary change has...
We construct a descriptive toy model that considers quantum effects on biological evolution starting...
Recent evidence suggests that quantum mechanics is relevant in photosynthesis, magnetoreception, enz...
In previous publications [1,7] the author described the base rivalry in monotonous DNA sequences and...
Base rivalry arises at replication of monotonous DNA – sequences. Irreparable mutations can arise by...
The topics of the article has been restricted to those, which seem to represent the most well-establ...
The topics of the article has been restricted to those, which seem to represent the most well-establ...
I propose to treat the biological evolution of genoms by means of quantum mechanical tools. We start...
This thesis deals with mathematical models of Darwinian evolution in populations of simple living or...
This thesis deals with mathematical models of Darwinian evolution in populations of simple living or...
A four-state mutation–selection model for the evolution of populations of DNA sequences is investiga...
Protein evolution is not a random process. Views which attribute randomness to molecular change, del...