For the first time, researchers have filmed in real time the disassembly of DNA at the atomic scale. This strand separation ...

One can also argue that large DNA viruses arose through a regressive process whereby once-independent entities lost key genes over time and adopted a parasitic replication strategy. Finally ...

This study reveals how SV40 helicase unwinds DNA, highlighting ATP hydrolysis's role in translocation and offering insights ...

Scientists have provided the most detailed account yet of the earliest stages of DNA replication, an essential process for ...

Scientists found that dormant viral genes can be reactivated in kidney cancer, prompting an immune response, offering new potential for immunotherapy. Dana-Farber researchers have discovered that in ...

Using cryo-electron microscopy and deep learning to observe the helicase Simian Virus 40 Large Tumor Antigen ... yet of the very first steps of DNA replication: 15 atomic states that describe ...

Scientists at the University of Leicester have captured the first detailed “molecular movie” showing DNA being unzipped at the atomic level – revealing how cells begin the crucial process of copying ...

Using cutting-edge cryo-electron microscopy, scientists at the University of Leicester have captured the first detailed “molecular movie” showing DNA being unzipped at the atomic level. The movie ...

This new study provides definitive evidence about how these secondary DNA structures can pose physical barriers to DNA replication machinery ... Studies on bacteria and viruses have long provided ...

A new study in the journal Human Gene Therapy indicates that DNA impurities derived from plasmid and host cell DNA are ...

This new study provides definitive evidence about how these secondary DNA structures can pose physical barriers to DNA replication machinery ... Studies in bacteria and viruses have long provided ...