Macromolecules can be used to derive evolutionary relationships. This discovery has led to the development of a new discipline in biology, molecular evolution. A brief survey of several aspects of this new field of investigation is presented, together with references to historical and more recent literature.</p
Accretion occurs pervasively in nature at widely different timeframes. The process also manifests in...
The evolution of structure in biology is driven by accretion and diversification. Accretion brings t...
International audienceBiochemical information has been crucial for the development of evolutionary b...
Macromolecules can be used to derive evolutionary relationships. This discovery has led to the devel...
Structural requirements constrain the evolution of biological entities at all levels, from macromole...
The survey of components in living systems at different levels of organization enables an evolutiona...
1. Populations and genes change over evolutionary time. Molecular evolution examines DNA and protein...
This unit is concerned with macroevolution – the patterns and processes of evolution above the speci...
For 40 years, molecular biology has used evolutionary approaches as a way to connect macromolecular ...
AbstractRecent papers on the emerging new theory of protein evolution are reviewed. Reconstruction o...
The variation among sequences and structures in nature is both determined by physical laws and by ev...
Evolutionary processes can be considered at multiple levels of biological organization. The work de...
Much molecular-evolution research is concerned with sequence analysis. Yet these sequences represent...
Evolution of ribonucleic acid (RNA) molecules in the test-tube provides a possibility to study evolu...
The degree of gradualism with which tertiary structure and function of protein changes with stepwise...
Accretion occurs pervasively in nature at widely different timeframes. The process also manifests in...
The evolution of structure in biology is driven by accretion and diversification. Accretion brings t...
International audienceBiochemical information has been crucial for the development of evolutionary b...
Macromolecules can be used to derive evolutionary relationships. This discovery has led to the devel...
Structural requirements constrain the evolution of biological entities at all levels, from macromole...
The survey of components in living systems at different levels of organization enables an evolutiona...
1. Populations and genes change over evolutionary time. Molecular evolution examines DNA and protein...
This unit is concerned with macroevolution – the patterns and processes of evolution above the speci...
For 40 years, molecular biology has used evolutionary approaches as a way to connect macromolecular ...
AbstractRecent papers on the emerging new theory of protein evolution are reviewed. Reconstruction o...
The variation among sequences and structures in nature is both determined by physical laws and by ev...
Evolutionary processes can be considered at multiple levels of biological organization. The work de...
Much molecular-evolution research is concerned with sequence analysis. Yet these sequences represent...
Evolution of ribonucleic acid (RNA) molecules in the test-tube provides a possibility to study evolu...
The degree of gradualism with which tertiary structure and function of protein changes with stepwise...
Accretion occurs pervasively in nature at widely different timeframes. The process also manifests in...
The evolution of structure in biology is driven by accretion and diversification. Accretion brings t...
International audienceBiochemical information has been crucial for the development of evolutionary b...