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Last week, CAMP4 Therapeutics announced the close of a $100 million Series B round , which will be used to advance their regulatory RNA (regRNA)-focused programs. According to Bumcrot, regRNAs are “RNAs that arise out of the non-coding genome”. Their platform identifies which regRNAs control the specific gene of interest.
In the world of rare geneticdiseases, exome and genome sequencing are two powerful tools used to make a diagnosis. A recent addition to the toolkit, RNA sequencing, has been demonstrated to help researchers narrow down disease candidate variants identified first on exome and genome sequencing.
Armed with a $100 million second-round financing, CAMP4 Therapeutics is preparing to start the first clinical trial of a drug targeting regulatory RNA (regRNA) molecules that can be used to fine-tune the expression of genes. ” The post CAMP4 raises $100m to take lead RNA drugs into clinic appeared first on.
The collaboration will combine the mRNA platform of Moderna with the gene editing technologies suite, including the base editing capabilities of Life Edit for the development of curative therapies to treat challenging geneticdiseases. Life Edit will get an upfront payment and is eligible for potential milestone payments.
Sanofi has added to its rare disease pipeline by licensing an antibody-RNA conjugate (ARC) for facioscapulohumeral muscular dystrophy (FSHD), a genetic muscle disorder, from US biotech miRecule. billion deal in 2018.
CRISPR is notable for engineering living cells, allowing scientists to edit, turn off, delete, or replace genes in a cell’s genome. This technology has powerful implications for therapeutic uses, such as replacing mutated or disease-causing genes or increasing the activity of cancer-fighting cells.
The tool could also prove to be safer than conventional CRISPR-based gene therapies as it does not involve DNA editing, and thus would not cause potentially harmful off-target genomic changes. Epigenetic Editing with CRISPR. DNA methylation occurs endogenously in all mammalian cells in response to various stimuli.
Since the introduction of a gene sequencing method by Frederick Sanger in 1977, the field of genomic data collection and analysis has evolved significantly. Moreover, the manual protocols require extensive manipulation, costly reagents and long duration of skilled genomic library production. Advantages of Next Generation Sequencing.
Molecular diagnostic tests are advanced techniques and tools used to analyze biological markers in the genome and proteome. These diagnostic solutions are essential for detecting and monitoring diseases, identifying genetic abnormalities, and guiding personalized treatment plans. What are Molecular Diagnostic Tests?
which develops genome editing technologies to accelerate drug discovery and develop novel therapeutics for a broad range of diseases, today announced the appointment of Bo Zhang, Ph.D., 14, 2020 10:00 UTC. BEIJING & CAMBRIDGE, Mass.–( –( BUSINESS WIRE )– EdiGene, Inc. as Head of Business Development.
The tool could also prove to be safer than conventional CRISPR-based gene therapies as it does not involve DNA editing, and thus would not cause potentially harmful off-target genomic changes. Epigenome Editing with CRISPR. DNA methylation occurs endogenously in all mammalian cells in response to various stimuli.
That’s not the case with RNA-targeted drugs. They’re basically the same,” but each one uses a particular nucleotide to bind to specific genetic sequence. The Undiagnosed Disease Network (a consortium of tertiary care institutions for that purpose) directs a large number of patients to n-Lorem, but most come from physicians.
Related: Top 30 Pharma Companies in 2023: Statistics and Trends 1) Moderna Compound annual growth rate: 415 percent Moderna, headquartered in Massachusetts, is a prominent biotechnology company specializing in RNA therapeutics, particularly mRNA vaccines.
From leveraging artificial intelligence (AI) to streamline diagnostics and treatments to exploring the untapped potential of RNA-based therapeutics, biotechnology is shaping the future of healthcare and beyond. As of January 31, 2024, approximately 131 unique RNA-based therapies are in clinical development across various therapeutic areas.
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