Molecular evolution is the area of evolutionary biology that studies evolutionary change at the level of the DNA sequence. It includes the study of rates of sequence change, relative importance of ...

What is the molecular clock? Levels of molecular variation could be used, in principle, to estimate divergence times, serving as evolutionary "clocks" that "tick" at different rates. Subsequent ...

The molecular evolution of an organism can be very different ... It drove the development of methods for analyzing sequence data and focused scientists' attention on the essence of the ...

Evaluating the speed at which viruses spread and transmit across host populations is critical to mitigating disease outbreaks ...

Over the past few years, there have been remarkable advances in DNA sequencing technologies with the emergence and rapid evolution of next-generation sequencing (NGS), also known as massively ...

New molecular sequencing technologies can offer an unprecedented view of biological diversity and evolution. In principle, this should give us the opportunity to understand population dynamics, ...

DNA sequencing is the foundation of genomics research, enabling the study of complete genomes, gene function, and evolutionary relationships between organisms. It allows for the identification of ...

Next-generation sequencing is providing a new dimension to explore within-host and population diversity in depth. The integration of epidemiological and evolutionary processes through the use of ...

In this context, Robin’s primary research goal is to understand the crosstalk between molecular evolutionary processes (such as genome and epigenome changes ... and the deployment of high-throughput ...

With more sequencing data, ecology, evolution and conservation scientists ... Linck et al, A Latitudinal Gradient of ...