Lake has made a number of highly significant contributions toward understanding diverse aspects of genome evolution across all kingdoms of life.

Those features make O. tauri a good model for researching genome evolution, the researchers suggest.

The relationship between life-styles of bacteria and genome size raises questions as to the mechanisms of bacterial genome evolution.

The evolution of TEs and their effect on genome evolution is currently a dynamic field of study.

One of the important goals of the field is the identification of the mechanisms of eukaryotic genome evolution.

A multitude of evolutionary events acting at various organizational levels shape genome evolution.

Large-scale sequencing of human influenza reveals the dynamic nature of viral genome evolution.

Different parts of genomes have different histories, and representing the history of genome evolution as a single tree appears inconsistent with the data.

It is believed that TEs are an important driving force on genome evolution of higher eukaryotes.

The genome evolution of amphioxus and vertebrates is also relatively slow.