Imagine a cancer treatment that precisely targets malignant cells, leaving healthy ones untouched. Consider, also, a cancer treatment that corrects abnormal protein synthesis to produce healthy ...

Within a cell, DNA carries the genetic code for building proteins. To build proteins, the cell makes a copy of DNA, called mRNA. Then, another molecule called a ribosome reads the mRNA, translating it ...

In the fast-evolving field of medical science, a new artificial intelligence model may be about to change the way mRNA-based drugs and vaccines are designed. Developed through a collaboration between ...

Unlocking the potential of mRNA technology is helping revolutionize medicine and biotechnology. Solid-phase in vitro transcription enables scalability and automation, helping make it a valuable tool ...

In today’s rapidly evolving scientific landscape, eliminating barriers to progress is more critical than ever. Precision medicine and targeted therapies hold great promise but are dependent on the ...

Nucleic acid-based therapeutics, including antisense oligonucleotides (ASO), small interfering RNA (siRNA), messenger RNA (mRNA), immunomodulatory DNA/RNA, and gene-editing guide RNA (gRNA), hold ...

Messenger RNAs (mRNAs) possess unique properties making them great therapeutic candidates. However, delivering mRNA drugs to target cells is challenging. Protein nanocages (PNCs) are nanostructures ...

RNA-based therapeutics are transforming medicine, but scaling production efficiently remains a challenge, particularly the cost-intensive in vitro transcription (IVT) step. Join this webinar to ...

CD Bioparticles, a leading manufacturer and supplier of numerous drug delivery products and services, has announced the launch of an advanced animal mRNA vaccine platform to accelerate the development ...