DNA, Engineer and In-Vivo - Clinical Research Informer

Artificial Intelligence innovation: Leading companies in in-silico drug discovery

Pharmaceutical Technology

FEBRUARY 23, 2023

Within the emerging innovation stage, DNA chips, tissue culturing automation, and mass spectrometry analysis are disruptive technologies that are in the early stages of application and should be tracked closely. However, not all innovations are equal nor do they follow a constant upward trend.

Drugs

Drugs DNA In-Vivo In-Vitro

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

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 DNA Recombinant DNA Technology

Webinars

Bridging Innovation & Patient Care: The Growing Role of AI

MORE WEBINARS

Gene editing: beyond the hype

pharmaphorum

JANUARY 29, 2021

Cutting edge’ is, for once, a truly apt description when it comes to gene editing – both because the field is pushing medicine into areas we might never have dreamed possible, and because these technologies involve literally cutting DNA at a specific point in the genome. Zinc fingers. billion in funding.

Gene Editing

Gene Editing Gene Gene Therapy In-Vivo

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

Gene Editing Innovations with Programmable Gene Insertion (PGI) Technology ft. John Finn, PhD, CSO, Tome Biosciences – Xtalks Life Science Podcast Ep. 160

XTalks

MAY 22, 2024

PGI is a cutting-edge gene editing technology that allows for the insertion of large sequences of DNA with site-specific precision. He was most recently Vice President of Discovery Research at Codiak Biosciences, where he led the development of a new class of therapeutics based on engineered exosomes.

Gene Editing

Gene Editing Life Science Gene Gene Therapy

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

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

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. Electroporation is used for ex vivo delivery of therapies to blood and immune cells. Beam employs three approaches to deliver its genetic medicines to cells.

DNA

DNA In-Vivo Genetics Medicine

Gene Switch: A Novel Platform for Switching Genes On and Off

Roots Analysis

AUGUST 31, 2023

Gene switches can be regulatory proteins or specific DNA sequences that act to either switch on or off the expression of a gene. Basic Components of Gene Switch Gene switches are composed of noncoding DNA sequences and transcription factors. These genetic switches assist transcription factors in binding to the promoter region.

Gene

Gene Gene Therapy Gene Expression Regulation

Spotlighting Lupus Awareness Month: CAR-T Technology Creates New Avenues for Treatment of a Devastating Disease

WCG Clinical

MAY 28, 2024

CAR-T Cells Target Harmful B Cells in Lupus CAR-T cell technology, which uses genetic engineering to direct white blood cells to attack specific molecular targets, was originally proposed for treatment of HIV infection and hematological malignancies. The currently approved CD-19 CAR products are autologous, ex vivo cellular therapies.

In-Vivo

In-Vivo Clinical Trials Clinical Trials FDA Approval

Cryomacs Freezing Bags – A Critical Component in the Successful Delivery of Biological Samples and Therapies

Roots Analysis

SEPTEMBER 18, 2023

Owing to the ability to preserve a wide variety of elements for such a long period of time, including cells, tissues, blood and DNA, cryopreservation has emerged as a key focus area for stakeholders in the biopharmaceutical industry.

Engineer

Engineer Containment In-Vivo Production

The Booming Potential of mRNA Technology

Roots Analysis

AUGUST 23, 2024

Unveiling The Potential of mRNA Technology mRNA is a single-stranded molecule that relays the genetic instructions needed to make proteins from DNA in the cell nucleus to ribosomes. In recent years, mRNA technology has rocked the world of medicine, making it possible to prevent and treat a vast array of diseases and disorders.

Protein

Protein Vaccination Vaccine Immune Response

Transitioning Between Academia and Industry: Advice from Leading Scientists That Made the Switch

XTalks

OCTOBER 1, 2020

Leaving academia for industry is a route that academic scientists and professors did not traditionally pursue in the past due to perceived differences in skillsets, experiences and even associated stigmas. However, this has since changed, and now, transitioning between academia and industry has become more commonplace. Key Moments.

Scientist

Scientist In-Vitro Research Life Science

Clinical Research Informer

Artificial Intelligence innovation: Leading companies in in-silico drug discovery

Moderna partners with Life Edit for mRNA gene editing therapies

Webinars

Trending Sources

Leading innovators in gene splicing using nucleases for the pharmaceutical industry

Webinars

Gene editing: beyond the hype

Leading innovators in transgenic murine models for the pharmaceutical industry

Gene Editing Innovations with Programmable Gene Insertion (PGI) Technology ft. John Finn, PhD, CSO, Tome Biosciences – Xtalks Life Science Podcast Ep. 160

Life Science Trends to Look Out for in 2024

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

Gene Switch: A Novel Platform for Switching Genes On and Off

Spotlighting Lupus Awareness Month: CAR-T Technology Creates New Avenues for Treatment of a Devastating Disease

Cryomacs Freezing Bags – A Critical Component in the Successful Delivery of Biological Samples and Therapies

The Booming Potential of mRNA Technology

Transitioning Between Academia and Industry: Advice from Leading Scientists That Made the Switch

Stay Connected