DNA exhibits new self-assembled structures due to clustered DNA methylation. This project aims to develop a technology to investigate detailed epigenetic patterns in DNA by directly interrogating the physical properties of DNA polymers in their native state. Epigenetics controls whether genes and genetic programs are turned on or off in living systems. The project will build on a recent discovery that key physical properties of native DNA polymers are strongly influenced by epigenetic patterns c ....DNA exhibits new self-assembled structures due to clustered DNA methylation. This project aims to develop a technology to investigate detailed epigenetic patterns in DNA by directly interrogating the physical properties of DNA polymers in their native state. Epigenetics controls whether genes and genetic programs are turned on or off in living systems. The project will build on a recent discovery that key physical properties of native DNA polymers are strongly influenced by epigenetic patterns created by living organisms. By fully understanding this phenomenon, this project aims to provide new tools for the study of epigenetics with broad potential applications in the life sciences, biotechnology and nanotechnology.Read moreRead less