double-helical model for the structure of DNA. Watson and Crick's discovery was also made possible by recent advances in model building, or the assembly of possible three-dimensional structures ...

Researchers utilized recently published telomere-to-telomere genomes of humans, chimpanzees, bonobos, gorillas, and two ...

The two decide to team up to create a three-dimensional model of DNA, which they believe must have ... The pair have a “Eureka” moment upon seeing this image, realizing that DNA must have a double ...

Here is a view of the double helix -- the subject of Rosalind ... Crick were able to piece together the first accurate model of DNA. Shown here is the structure of naked DNA -- DNA without all ...

According to the conservative replication model, the entire original DNA double helix serves as a template for a new double helix, such that each round of cell division produces one daughter cell ...

Shortly after, Watson and Crick made a crucial advance when they proposed that the DNA molecule was made up of two chains of nucleotides paired in such a way to form a double helix, like a spiral ...

Our findings also demonstrate that the rules of complementarity that Watson and Crick defined in their iconic double-helical model of DNA structure need to be expanded. In the model proposed by ...

Researchers, led by Penn State biologists, have comprehensively predicted the location of potential non-B DNA structures in the newly available telomere-to-telomere genomes of the great apes.

By creating a more true-to-life representation of DNA's environment, researchers at Northwestern University have discovered ...

“That’s the long-term vision anyway.’’ Balasubramanian and his team made an antibody that bound tightly to G-quadruplex structures, but not to traditional double-helix DNA, and found that it bound to ...

A fiber sensor inspired by the shape of DNA, developed by researchers at Shinshu University, introduces a new design for more durable, flexible fiber sensors in wearables. Traditional fiber sensors ...

Certain DNA sequences can form structures other than the canonical double helix. These alternative DNA conformations—referred to as non-B DNA—have been implicated as regulators of cellular ...