DNA, Genetics, Genome and In-Vivo - Clinical Research Informer

Moderna partners with Life Edit for mRNA gene editing therapies

Pharmaceutical Technology

FEBRUARY 23, 2023

Moderna has entered a strategic research and development partnership with ElevateBio’s Life Edit Therapeutics to discover and develop new in-vivo mRNA gene editing therapies. The company’s nuclease collection includes several Protospacer Adjacent Motifs (PAMs), short sequences that help determine the genome’s DNA segments.

Gene Editing

Gene Editing Gene In-Vivo Gene Therapy

Gene editing: beyond the hype

pharmaphorum

JANUARY 29, 2021

Genome editing is an exciting but still nascent field, and companies in the area face as many obstacles as they do opportunities. Sangamo CEO Sandy Macrae told us how his company is being cautious about the hype and finding ways to be financially viable in an emerging space. Zinc fingers. billion in funding.

Gene Editing

Gene Editing Gene Gene Therapy In-Vivo

Shining a light on the role of the genome’s ‘dark matter’ in cancer development

Scienmag

NOVEMBER 16, 2020

Wnt-regulated lncRNA discovery enhanced by in vivo identification and CRISPRi functional validation. Genome Med 12, 89 (2020). doi:10.1186/s13073-020-00788-5… SINGAPORE, 3 Nov 2020 – Long RNA molecules carrying DNA codes that […]. Harmston, N., Glaser, T.L.

In-Vivo

In-Vivo RNA DNA Genome

Leading innovators in transgenic murine models for the pharmaceutical industry

Pharmaceutical Technology

MARCH 9, 2023

Within the emerging innovation stage, cell therapy for ocular disorders, coronavirus vaccine components, and DNA polymerase compositions are disruptive technologies that are in the early stages of application and should be tracked closely. However, not all innovations are equal and nor do they follow a constant upward trend.

In-Vivo

In-Vivo Antibody Genetics Gene

Beam makes USD 120M bet; GRAIL and Quest announce the collaboration; Brain organoids mimic infant’s brains; Improvement in T cells to kill cancer

Delveinsight

FEBRUARY 25, 2021

Beam Therapeutics has taken over a startup whose technology could proffer the biotech’s genetic medicines to more tissues in the body, widening the potential to approach more diseases. The gene-editing technologies, which have reached the clinic, CRISPR, zinc finger nucleases, and TALENs, make their edits by nicking DNA at the target site.

DNA

DNA In-Vivo Genetics Medicine

Leading innovators in gene splicing using nucleases for the pharmaceutical industry

Pharmaceutical Technology

FEBRUARY 15, 2023

Within the emerging innovation stage, cell therapy for ocular disorders, coronavirus vaccine components, and DNA polymerase compositions are disruptive technologies that are in the early stages of application and should be tracked closely. Nucleases are enzymes that hydrolytically cleave the phosphodiester backbone of DNA.

Gene Splicing

Gene Splicing Gene Recombinant DNA Technology DNA

Delivering on the promise of gene editing

Drug Discovery World

DECEMBER 15, 2022

Gene editing tools such as zinc finger nucleases, transcription activator-like effector nucleases (TALEN) and clustered regularly interspaced short palindromic repeat (CRISPR) nucleases have been heralded for their enormous potential to treat diseases and genetic disorders. Early phase clinical trials for gene editing therapies.

Gene Editing

Gene Editing Gene In-Vivo Genome

Life Science Trends to Look Out for in 2024

XTalks

DECEMBER 20, 2023

As we step into 2024, the life sciences continue to evolve at an unprecedented pace, driven by technological innovation, a deeper understanding of human biology and the application of new technologies in areas like drug development and health wearables. Regulatory bodies are also taking note of the applications of AI in drug development.

Life Science

Life Science Gene Editing Development Clinical Trials

CRISPR breakthroughs: New solutions for common diseases

Drug Discovery World

JULY 18, 2023

Rolf Turk , Senior Manager, Genomics Medicine at Integrated DNA Technologies, examines how CRISPR is being used to enhance cancer therapies. Years of development and fast-paced research have continued to unlock its potential, expanding how CRISPR can be used to treat, detect, and prevent common diseases such as cancer and Covid-19.

DNA

DNA Genome Genomics RNA

Synthetic biology tools advancing and accelerating drug discovery efforts

Drug Discovery World

NOVEMBER 15, 2022

Rapid and accurate DNA synthesis . Conventional DNA synthesis, typically used for making sequences such as primers, employs phosphoramidite chemistry, a method that was developed in the 1980s and is still considered the gold standard for DNA synthesis. .

DNA

DNA Drugs Antibody Engineer

The challenges and trends of cell & gene therapies

Drug Discovery World

SEPTEMBER 6, 2022

This area of medicine, which turns our own bodies into agents of combat to fight disease, has quickly become one of the most promising fields in treating deadly diseases such as cancer, central nervous system disorders and even musculoskeletal conditions. . Last year saw the sector surge, with levels of investment hitting an all-time high at $22.7

Gene Therapy

Gene Therapy Gene Manufacturing Medicine

Gene editing in organoids: accounting for complexity in drug discovery

Drug Discovery World

JANUARY 12, 2023

The genome is the blueprint for life, consisting of genes made up of thousands of pairs of DNA bases. Altering one base pair can drastically change how the gene’s protein product functions, while mutations can lead to the development of a range of genetic disorders. . What are organoids? .

Gene Editing

Gene Editing Gene Drugs In-Vivo

CRISPR Cas-9 System Doubles Life Expectancy in Mice with Aggressive Cancers

The Pharma Data

NOVEMBER 22, 2020

Peer went onto say that he believes that, in the near future, there will be many personalized treatments based on genetic messengers. Cas-9 represents the Cas9 protein, an enzyme that cuts foreign DNA. “Then the RNA plus the protein [Cas9] will cut — like a pair of scissors — the DNA at that site, and ideally nowhere else.”.

Gene Editing

Gene Editing DNA Genome Genomics

The use of base editing in stem-cell based therapies

Drug Discovery World

JANUARY 23, 2023

Increasing interest in CRISPR-Cas gene editing systems over recent years has delivered innovative developments in precision genome engineering technologies, holding enormous potential for applications across the healthcare sector.

Gene Editing

Gene Editing Gene Engineer DNA

Clinical Research Informer

Moderna partners with Life Edit for mRNA gene editing therapies

Gene editing: beyond the hype

Trending Sources

Shining a light on the role of the genome’s ‘dark matter’ in cancer development

Leading innovators in transgenic murine models for the pharmaceutical industry

Beam makes USD 120M bet; GRAIL and Quest announce the collaboration; Brain organoids mimic infant’s brains; Improvement in T cells to kill cancer

Leading innovators in gene splicing using nucleases for the pharmaceutical industry

Delivering on the promise of gene editing

Life Science Trends to Look Out for in 2024

CRISPR breakthroughs: New solutions for common diseases

Synthetic biology tools advancing and accelerating drug discovery efforts

The challenges and trends of cell & gene therapies

Gene editing in organoids: accounting for complexity in drug discovery

CRISPR Cas-9 System Doubles Life Expectancy in Mice with Aggressive Cancers

The use of base editing in stem-cell based therapies

Stay Connected