The standard genetic code (SGC) is central to molecular biology and its origin and evolution is a fundamental problem in evolutionary biology, the elucidation of which promises to reveal much about the origins of life. In addition, we propose that study of its origin can also reveal some fundamental and generalizable insights into mechanisms of molecular evolution, utilizing concepts from complexity theory. The first is that beneficial traits may arise by non-adaptive processes, via a process of “neutral emergence”. The structure of the SGC is optimized for the property of error minimization, which reduces the deleterious impact of point mutations. Via simulation, it can be shown that genetic codes with error minimization superior to the SG...
The genetic code maps the 64 nucleotide triplets (codons) to 20 amino acids. Some argue that the spe...
Abstract. Since discovering the pattern by which amino acids are assigned to codons within the stand...
BACKGROUND: The genetic code is known to be efficient in limiting the effect of mistranslation error...
The standard genetic code is non-randomly organized. The Error minimization hypothesis interprets th...
The genetic code maps the sixty-four nucleotide triplets (codons) to twenty amino-acids. While the b...
An important goal of evolutionary biology is to understand the constraints that shape the dynamics a...
The composition of the structure of the genetic code is undoubtedly one of the most challenging ques...
Abstract Background The standard genetic code table has a distinctly non-random structure, with simi...
The possible scenario of the origin and evolution of genetic code is proposed, being primarily impl...
Although the genetic code is almost universal, natural variations exist that have caused evolutionar...
M.S. University of Hawaii at Manoa 2013.Includes bibliographical references.Current science has adva...
The genetic code is extremely old, predating the time of the most recent common ancestor of the thre...
The conservation of genetic information through the ages can not be explained unless one assumes the...
In this work, computational tools are used to investigate three issues in evolutionary biochemistry....
Many biological systems are typically examined from the point of view of adaptation to certain condi...
The genetic code maps the 64 nucleotide triplets (codons) to 20 amino acids. Some argue that the spe...
Abstract. Since discovering the pattern by which amino acids are assigned to codons within the stand...
BACKGROUND: The genetic code is known to be efficient in limiting the effect of mistranslation error...
The standard genetic code is non-randomly organized. The Error minimization hypothesis interprets th...
The genetic code maps the sixty-four nucleotide triplets (codons) to twenty amino-acids. While the b...
An important goal of evolutionary biology is to understand the constraints that shape the dynamics a...
The composition of the structure of the genetic code is undoubtedly one of the most challenging ques...
Abstract Background The standard genetic code table has a distinctly non-random structure, with simi...
The possible scenario of the origin and evolution of genetic code is proposed, being primarily impl...
Although the genetic code is almost universal, natural variations exist that have caused evolutionar...
M.S. University of Hawaii at Manoa 2013.Includes bibliographical references.Current science has adva...
The genetic code is extremely old, predating the time of the most recent common ancestor of the thre...
The conservation of genetic information through the ages can not be explained unless one assumes the...
In this work, computational tools are used to investigate three issues in evolutionary biochemistry....
Many biological systems are typically examined from the point of view of adaptation to certain condi...
The genetic code maps the 64 nucleotide triplets (codons) to 20 amino acids. Some argue that the spe...
Abstract. Since discovering the pattern by which amino acids are assigned to codons within the stand...
BACKGROUND: The genetic code is known to be efficient in limiting the effect of mistranslation error...