Instead of binding to DNA through the insertion of an α-helix into the DNA major groove ... several of which are of prime importance for human pathogen–host interactions.

What do a human, a rose, and a bacterium have ... the double-stranded nature of DNA, to argue that DNA actually takes the form of a double helix, a ladder-like structure that is twisted along ...

MSK researchers shed new light on G-quadruplexes, a type of secondary DNA structure that has attracted attention as a ...

DNA is well-known for its double helix shape. But the human genome also contains more than 50,000 unusual knot-like DNA structures called i-motifs, researchers at the Garvan Institute of Medical ...

This showed that DNA had a helix shape. Without her knowledge ... There are four types of base - adenine, thymine, cytosine and guanine. All human cells contain DNA. The 3 billion pairs of ...

Chances are you've seen an illustration of DNA's double-helix structure and even pictures of the chromosomes that comprise the human genome. But where and how does the famous double helix fit into ...

The double helix unwinds, and each strand serves as a template for the synthesis ... has helped solve countless criminal cases. DNA evidence can also be used to establish paternity, identify human ...

Original DNA template - DNA is a double helix made of two complementary strands. Each strand can be used as a template to create a new DNA molecule. Free DNA nucleotides – needed to form the new ...

A new method for mapping torsion provides insights into the ways that the genome responds to the torsion generated by RNA polymerase II.

The Double Helix” paints Watson and Crick as lone pioneers while downplaying the contributions of others, most notably of Rosalind Franklin.

Researchers at the Chambers University of Technology have discovered that water is why DNA strands are wrapped around each other and have a helix shape. Understanding how DNA repairs itself could ...

Agnes Noy, senior author of the paper, told Phys.org. "We are used to thinking of DNA as a relaxed 'perfect' double helix, but the reality is far from that. Inside cells, DNA is under/overtwisted ...