It is not, they claim, as is generally believed, hydrogen bonds which bind together the two sides of the DNA structure. ... copy, or repair it, it exposes the DNA to a hydrophobic environment. ...

The role of the hydrogen bonds, which have sometimes been seen as crucial to holding DNA helixes together, appears to be more to do with sorting the base pairs, so that they link together in the ...

University of Leicester. (2010, June 28). 'Copy and paste DNA' more common than previously thought. ScienceDaily. Retrieved May 19, 2025 from www.sciencedaily.com / releases / 2010 / 06 ...

In a paper published in the leading journal Cell, Dr Richard Badge and his collaborators examined L1 (or LINE-1) retrotransposons: DNA sequences which can 'copy and paste' their genetic code ...

The two strands of the DNA helix are unzipped by breaking of the weak Hydrogen bonds between base pairs. This unwinding of the helix is caused by an enzyme (helicase enzyme).

By affecting the way molecules bind to each other, hydrogen bonds are responsible for water’s high boiling point, ice’s propensity to float and DNA’s signature double helix. Now these life ...

Stephen Harding, Dr Creeth’s last Post-doctoral Research Assistant at the University of Bristol, leads the commemoration with a brief history of the discovery in 1947 before several esteemed speakers ...

DNA gives colloidal crystals shape-shifting and memory abilities Adding water enables DNA-interconnected crystals to bounce back to original shape after damage and deformation ...

At the time, his research group reported how DNA could be used as a sequence-encoded bonding material, a glue that can be used to build colloidal crystals — some of which have structures and ...