Leveraging its integrated "design-synthesis-quality control" system, Creative Biolabs is overcoming bottlenecks in mRNA ...

Cancer cells have softer membranes than healthy cells. New nanoparticles exploit this physical difference to fuse selectively ...

Professor Zhou's research group focuses on developing and applying new technologies to visualize spatial and temporal distributions of chemical modifications in the mammalian transcriptome at ...

Researchers from the Wilmer Eye Institute, Johns Hopkins Medicine Center for Nanomedicine—which designs nanotechnology-based ...

A more effective vaccine technology may be on the horizon. In a new study in mice, researchers from the University of Copenhagen demonstrate that a simple addition to mRNA vaccines can significantly ...

The team applied this method to mRNA/saRNA constructs from 1 to 10 kb and assessed pH ranges from 3 to 6. For all the RNA constructs, the J2 immunoblot signal—a marker for dsRNA strands—decreased with ...

In the quest to design vaccines that better help the body's immune system fight disease, scientists are always looking for more tools for their arsenal. The strong antibody responses generated by ...

Discover how a newly developed platform technology from The University of North Carolina at Chapel Hill can enhance RNAi ...

How do immune cells strike a balance, unleashing rapid attacks against pathogens or cancer, while avoiding damage to healthy ...

In a small clinical trial, customized mRNA vaccines against high-risk skin cancers appeared to reduce the risk of cancer recurrence and death by nearly 50 percent over five years when compared with ...