Nucleic acids are essential for the functioning and development of living organisms. DNA carries genetic information that determines traits such as eye color and susceptibility to diseases in humans, ...

Since the discovery of the double-helical structure of DNA and postulation of the central dogma of molecular biology, stating that the flow of genetic information goes from DNA to RNA to protein, the ...

Adenosine deaminase 2 (ADA2) has been identified as a regulator of toll-like receptor 9 (TLR9) activation in response to nucleic acids, according to a recent study. ADA2, previously known for its role ...

The flow of genetic information underpins all of biology and relies heavily on nucleic acids. Our research delves into how genetic information is maintained in the cell, and the complex pathways that ...

To obtain high-quality, purified nucleic acids, scientists can use several different methods, including phenol-chloroform extraction, cesium chloride/ethidium bromide (CsCl/EtBr) gradient ...

A research team has found that compounds in the nucleic acids derived from food can inhibit the growth of certain cancer cells. When people eat, they ingest the nucleic acids that reside in all living ...

Our research teams focus on all aspects of nucleic acids in health and disease, with the goal of better understanding basic processes and developing therapeutic interventions to improve human health.

DNA is the poster child for high-specificity binding. As long as their base sequences match, two complementary strands of DNA can navigate through a sea of biomolecules, find each other, and hold fast ...

The RSC Nucleic Acids Group invites you to their Forum meeting, which will take place in-person at the RSC's iconic Burlington House in London. This is the NAG’s annual meeting, bringing together the ...

The RSC Nucleic Acids Group invites you to their Forum meeting, which will take place in-person at the RSC's iconic Burlington House in London. This is the NAG’s annual meeting, bringing together the ...