The study of nucleotide substitution is very important both to our understanding of gene evolution and to reliable estimation of phylogenetic relationships. In this paper nucleotide substitution is assumed to be random and the Markov model is applied to the study of the evolution of genes. Then a non-linear optimization approach is proposed for estimating substitution in real sequences. This substitution is called the "Nucleotide State Transfer Matrix". One of the most important conclusions from this work is that gene sequence evolution conforms to the Markov process. Also, some theoretical evidences for random evolution are given from energy analysis of DNA replication
The statistical structure of dna sequences is of great interest to molecular biology, genetics and t...
With the aim of understanding the mechanism of molecular evolution, mathematical problems on the evo...
Methods of inference of the evolutionary history leading to currently extant species, or taxa, have ...
The study of nucleotide substitution is very important both to our understanding of gene evolution a...
The non-homogeneous model of nucleotide substitution proposed by Barry and Hartigan (Stat Sci, 2: 19...
International audienceThe covarion (or site specific rate variation, SSRV) process of biological seq...
Markov models describing the evolution of the nucleotide substitution process, widely used in phylog...
1 Modelling sequence change over time How have gene and protein sequences evolved overtime? Of the m...
We develop a new class of computationally feasible stochastic models for statistical analysis of gen...
AbstractOver the years, there have been claims that evolution proceeds according to systematically d...
Models of DNA sequence evolution and methods for estimating evolutionary distances are needed for st...
Markov models describing the evolution of the nucleotide substitution process, widely used in phylog...
The paper contains a discussion on mathematical modifying and redesigning DNA with the use of Markov...
Background. The currently used kth Markov models estimate the probability of generating a single nuc...
Abstract.—The general Markov model (GMM) of nucleotide substitution does not assume the evolutionary...
The statistical structure of dna sequences is of great interest to molecular biology, genetics and t...
With the aim of understanding the mechanism of molecular evolution, mathematical problems on the evo...
Methods of inference of the evolutionary history leading to currently extant species, or taxa, have ...
The study of nucleotide substitution is very important both to our understanding of gene evolution a...
The non-homogeneous model of nucleotide substitution proposed by Barry and Hartigan (Stat Sci, 2: 19...
International audienceThe covarion (or site specific rate variation, SSRV) process of biological seq...
Markov models describing the evolution of the nucleotide substitution process, widely used in phylog...
1 Modelling sequence change over time How have gene and protein sequences evolved overtime? Of the m...
We develop a new class of computationally feasible stochastic models for statistical analysis of gen...
AbstractOver the years, there have been claims that evolution proceeds according to systematically d...
Models of DNA sequence evolution and methods for estimating evolutionary distances are needed for st...
Markov models describing the evolution of the nucleotide substitution process, widely used in phylog...
The paper contains a discussion on mathematical modifying and redesigning DNA with the use of Markov...
Background. The currently used kth Markov models estimate the probability of generating a single nuc...
Abstract.—The general Markov model (GMM) of nucleotide substitution does not assume the evolutionary...
The statistical structure of dna sequences is of great interest to molecular biology, genetics and t...
With the aim of understanding the mechanism of molecular evolution, mathematical problems on the evo...
Methods of inference of the evolutionary history leading to currently extant species, or taxa, have ...