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Ancient Genes of Zombie Viruses Revealed as Hidden Drivers of Cancer

AuroBlog - Aurous Healthcare Clinical Trials blog

Silently tucked away in our genomes, some of these bits of foreign DNA can get passed down through the generations. When viruses pay us a visit, they sometimes leave parts of themselves behind.

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Hopewell Therapeutics raises funds for genomic medicines development

Pharmaceutical Technology

Biotechnology company Hopewell Therapeutics has raised $25m in seed financing to accelerate the development of next-generation lipid nanoparticles for targeted delivery of genomic medicines. Hopewell Therapeutics is engaged in discovering, synthesising and developing advanced ttLNPs to provide next-generation genomic medicines.

Genome 130
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New CRISPR-Based Tool Called PASTE Gene Editing Inserts Large DNA Sequences at Desired Sites

XTalks

Expanding upon the CRISPR-Cas9 gene editing system, researchers at MIT have designed a new technique called PASTE gene editing that can cut out defective genes and replace them with new genes in a safer and more efficient way. The PASTE gene editing technique was recently published in Nature Biotechnology.

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Novel artificial genomic DNA can replicate and evolve outside the cell

Scienmag

Professor Norikazu Ichihashi and his colleagues at the University of Tokyo have successfully induced gene expression from a DNA, characteristic of all life, and evolution through continuous replication extracellularly using cell-free materials alone, such as nucleic acids and proteins for the first time.

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Leading innovators in gene splicing using nucleases for the pharmaceutical industry

Pharmaceutical Technology

In the last three years alone, there have been over 633,000 patents filed and granted in the pharmaceutical industry, according to GlobalData’s report on Innovation in Pharmaceuticals: Gene splicing using nucleases. Nucleases are enzymes that hydrolytically cleave the phosphodiester backbone of DNA.

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Modernizing cell culture processes for the next wave of genomic medicine

Pharmaceutical Technology

The field of genomic medicine has reached a true turning point. With scientists fervently developing mRNA vaccines, nucleic acid therapeutics, and viral vector-based gene therapies, clinicians are set to have a growing number of tools available to treat a wide range of conditions, from infectious diseases to genetic disorders and more.

Genome 244
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UK scientists say they have found cancer driver in junk DNA

pharmaphorum

It has suspected for many years that some diseases may be linked to non-coding or ‘junk’ DNA, but the mechanism behind the pathology hasn’t been worked out. Junk DNA is a term used to describe the 97% of the genetic sequence in human cells found between the 3% coding for our 20,000 genes, once thought to be inert.

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