The transfer of this principle to artificial cells is a challenge in synthetic biology. Advances in ... "This means that we can use DNA nanorobots to design the shape and configuration of GUVs ...

For the first time, scientists have witnessed the very moment DNA begins to unravel, revealing a necessary molecular event ...

Ultraviolet (UV) radiation is known to cause DNA damage, and while that damage may accumulate and eventually lead to diseases ...

Scientists at the University of Leicester have captured the first detailed “molecular movie” showing DNA being unzipped at ...

Single-cell transcriptomics has revolutionized the study of cellular diversity and function by enabling gene expression ...

Imagine a world where we could predict the behavior of life just by analyzing a sequence of letters. This is not science ...

For the Liu Lab, necessity is truly the mother of invention. The researchers were examining how the 3D organization of the ...

In 2006, Rothemund published the first paper on DNA origami, a technique that provides simple yet exquisite control over the design of molecular structures at the nanoscale using nothing more than ...

In synthetic biology, guanine is used as a building block for creating artificial genetic systems and organisms. Researchers can design and synthesize DNA sequences containing specific arrangements of ...

The central dogma of molecular biology suggests that the primary role of RNA is to convert the information stored in DNA into proteins. In reality, there is much more to the RNA story. However ...

synthetic biology and nucleic acids and their associated biological processes (transcription, DNA repair, splicing, and RNA-based regulation). Gene received his PhD in Chemistry from Johns Hopkins ...