The most complex engineering of human cell lines ever has been achieved by scientists, revealing that our genomes are more ...

Beyond the ladder-like structure described above, another key characteristic of double-stranded DNA is its unique three-dimensional shape. The first photographic evidence of this shape was ...

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

The most complex engineering of human cell lines ever has been achieved by scientists, revealing that our genomes are more resilient to significant structural changes than was previously thought.

But James Watson and Francis Crick's claim was a valid one, for they had in fact discovered the structure of DNA, the chemical that encodes instructions for building and replicating almost all ...

This non-coding DNA, sometimes referred to as "junk DNA," has various functions, such as regulating gene expression, maintaining chromosome structure, and playing a role in evolution. The size of an ...

In a new study published in the journal Cell, a team from Gladstone Institutes has unearthed new findings about what happens ...

Researchers analyze various aspects of gene regulation, among which are the three-dimensional structure of the genome and DNA methylation, which differ for different cell types and play significant ...

Earlier that morning, in the nearby Cavendish laboratory, the two scientists had discovered the structure of deoxyribonucleic acid, or DNA. This discovery changed the world of science and medicine ...

The first crystal structure of an alternative DNA shape from the insulin gene has been revealed by a UCL-led research team.

These bases intertwine in a spiral pattern to create the molecule's familiar double helix structure. The arrangement of these letters into sequences produces a code that instructs an organism on how ...