For decades, biology textbooks taught that DNA’s story could be told with a single image: two elegant strands twisting in a ...

Researchers have identified the specific structural loops in G-quadruplex DNA that allow it to act as a chaperone, preventing ...

When people think of DNA, they visualize a string-like double helix structure. In reality, the DNA double helix in cells is supercoiled and constrained into loops. This supercoiling and looping are ...

When people think of DNA, they visualize a string-like double helix structure. In reality, the DNA double helix in cells is supercoiled and constrained into loops. This supercoiling and looping are ...

The research group led by Professor Hitoshi Kurumizaka, Laboratory of Chromatin Structure and Function, Institute for Quantitative Biosciences, The University of Tokyo, has revealed how the DNA repair ...

Scientists at the University of Copenhagen have discovered how some types of proteins stabilize damaged DNA and thereby preserve DNA function and integrity. This new finding also explains why people ...

At the University of Copenhagen, researchers have discovered how some types of proteins stabilize damaged DNA and thereby preserve DNA function and integrity. This new finding also explains why people ...

It has been claimed that because most of our DNA is active, it must be important, but now human-plant hybrid cells have been ...

Researchers have discovered how some types of proteins stabilize damaged DNA and thereby preserve DNA function and integrity. This new finding also explains why people with inborn or acquired defects ...