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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 ...
Breaking bonds: Double-helix unzipping reveals DNA physics Using previously developed theoretical and mathematical models, researchers used information on the speed of the process of DNA unzipping ...
DNA’s chemical cousin, RNA, was the messenger that carries DNA instructions from the double helix in the cell’s nucleus to ...
The control of artificial double-helical structures, which are essential for the development of high-order molecular systems, remains difficult. In a new study, researchers have developed novel ...
At school, it's often presented as a tidy double helix but scientists are revealing the varied and intricate shapes of DNA molecules.
A new paper based on long-lost documents confirms that DNA discoverer Rosalind Franklin should be credited for discovering the double helix.
Instead, she collaborated and shared data with Watson, Crick and Maurice Wilkins. Seventy years ago, a trio of scientific papers announcing the discovery of DNA’s double helix was published.
New research predicts the location of DNA sequences that can form structures besides the canonical double helix — non-B DNA — in the recently released telomere-to-telomere genomes of the great ...
Using previously developed theoretical and mathematical models, researchers used information on the speed of the process of DNA unzipping through a nanopore to accurately retrieve the thermodynamics ...
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