Pharmaceutical Technology

FEBRUARY 15, 2023

Innovation S-curve for the pharmaceutical industry Gene splicing using nucleases is a key innovation area in the pharmaceutical industry Nucleases play a fundamental role in the field of recombinant DNA technology, or genetic engineering. Nucleases are enzymes that hydrolytically cleave the phosphodiester backbone of DNA.

Gene Splicing 130

Gene Splicing Gene DNA Recombinant DNA Technology 130

WCG Clinical

NOVEMBER 17, 2023

This change expanded the definition of HGT research to include research using nucleic acids that are able to replicate, be transcribed, translated into protein, and/or integrate into the host genome. Since then, however, certain genetic engineering technologies (e.g.,

Genome 52

Genome Genomics Gene Editing Genetic Engineering 52

WCG Clinical

AUGUST 27, 2024

1 This is an important requirement, as the NIH Guidelines were originally created partly in response to public concerns surrounding recombinant DNA and genetic engineering. Many of those original concerns of the 1970s and 1980s surrounding genetic engineering have lessened over time.

Genetic Engineering 52

Genetic Engineering Engineer Compliance Genetics 52

Pharmaceutical Technology

MAY 8, 2023

Innovation S-curve for the pharmaceutical industry Zinc-finger nucleases is a key innovation area in pharmaceutical Zinc finger nucleases (ZFNs) are tools used in genetic engineering to cleave a chosen genomic sequence.

Genetics 130

Genetics DNA Genetic Engineering Antibody 130

pharmaphorum

SEPTEMBER 13, 2022

It wasn’t until 2002, when Memorial Sloane Kettering Cancer Center scientists Michel Sadelain, Renier Brentjens, and Isabelle Rivière opted to push the boundaries of research, by genetically engineering T-cells with a CAR, that the technique achieved successful results. 2012 – The 100,000 Genomics Project begins.

Genome Project 98

Genome Project Genome Genomics DNA 98

The Pharma Data

JANUARY 19, 2021

But altering the tracr-L with genetic engineering to make it function more like a guide RNA increased CRISPR-Cas9 cuts. At least five companies are using CRISPR-Cas9 systems to develop therapeutics: Caribou Biosciences, Intellia Therapeutics, CRISPR Therapeutics, ERS Genomics and Editas Medicine.

Bacteria 52

Bacteria Gene Editing Research RNA 52

pharmaphorum

SEPTEMBER 4, 2020

The treatments are developed using cutting- edge technologies such as genomic sequencing and genetic engineering, helping to account for the individual variability in both patient and disease characteristics. Tools for visualizing the service. Novel therapies require designers to be adaptive.

Medicine 57

Medicine Production Genetic Engineering Genetics 57

XTalks

MARCH 18, 2024

The precision fermentation study highlights how genetically engineered microorganisms can inhibit the growth of foodborne pathogens. Words like “bioengineered” and “genetically modified” often provoke negative reactions. This not only extends the shelf life of foods but also ensures they are safer for consumption.

Genetic Engineering 52

Genetic Engineering Genetics Production Protein 52

Roots Analysis

MARCH 16, 2023

The IVT mRNAs are structurally similar to natural mRNAs, these synthetic mRNAs can be used to express proteins through genetic engineering. In the last few years, researchers have become interested in using in vitro transcribed (IVT) mRNA as a drug delivery agent.

Vaccine 52

Vaccine Vaccination DNA Protein 52

Bioengineer

JULY 19, 2021

The researchers at the CNIO created two genetically engineered mouse models that lacked KRAS4B and expressed the KRAS4A variant only, both with and without the G12V mutation (KRAS4AG12V). Our results suggest that for therapies to be effective, the two KRAS isoforms should be targeted.” ” KRAS genes in embryonic development.

Research 52

Research Gene Genetic Engineering Genetics 52

The Pharma Data

SEPTEMBER 1, 2021

Louis have genetically engineered cells that, when implanted in mice, will deliver a biologic drug in response to inflammation. The engineered cells reduced inflammation and prevented a type of damage to bone, known as bone erosion, in a mouse model of rheumatoid arthritis. ” The new findings are published online Sept.

Drugs 52

Drugs Engineer Drug Delivery Gene 52

Roots Analysis

SEPTEMBER 9, 2024

Algal Expression System: This expression system is used in genetic engineering, biofuel production, botany. Further, protein expression is also used in structural biology and functional genomics to investigate functions, interactions and roles of proteins in different biological pathways.

Protein 40

Protein Gene Production DNA 40

XTalks

MARCH 28, 2024

Gene Editing and CAR T-Cell Therapy Genetic engineering technologies, such as CRISPR-Cas9, are providing newer potential avenues for cancer treatment. The integration of genomic profiling into clinical practice has allowed the possibility of more precise treatment selection.

Gene Editing 59

Gene Editing Life Science Clinical Trials Clinical Trials 59

Advarra

OCTOBER 10, 2024

Phages deliver their genetic material into the bacteria so, when the bacteria flourishes and reproduces, the bacteria also copies the viral genome and hands it down to bacterial progeny. Bacteriophages (phages for short) are viruses that infect bacteria. As such, the virus reproduces with virtually no effort (see Figure 5).

Bacteria 52

Bacteria Genetics Genetic Engineering Gene 52

The Pharma Data

MARCH 29, 2022

In a preprint, the researchers at Cornell University led by Associate Professor Hector Aguilar-Carreno showed that genetically engineered mice infected with the virus causing COVID-19 and given a daily dose of the compound in a nasal spray for four days. Shapira, T., Monreal, I.A.,

Genetic Engineering 52

Genetic Engineering Research Genetics Drugs 52