Pharma Marketing Network
DECEMBER 21, 2020
Almost two decades after the human genome was sequenced, a trickle of new genetic medicines (i.e., those that modify the expression of an individual’s genes or repair abnormal genes) has entered clinical practice, including 11 RNA therapeutics, 2 in vivo gene therapies, and 2 gene-modified cell therapies.
XTalks
MAY 4, 2021
Researchers at the University of California San Francisco (UCSF) and the Whitehead Institute have developed a novel CRISPR-based tool called “CRISPRoff” that can switch off genes in human cells through epigenetic editing without altering the genetic sequence itself. It’s a great tool for controlling gene expression.”.
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XTalks
MAY 4, 2021
Researchers at the University of California San Francisco (UCSF) and the Whitehead Institute have developed a novel CRISPR-based tool called “CRISPRoff” that can switch off genes in human cells without editing the genetic sequence itself. These modifications regulate gene expression without altering the sequence or structure of DNA.
Roots Analysis
OCTOBER 22, 2023
RNA therapeutics are a novel class of biopharmaceuticals that harness the power of RNA molecules for the treatment and prevention of a wide range of disorders, including oncological, and genetic disorders as well as infectious diseases. These therapeutics are broadly classified into two categories, namely coding RNAs and non-coding RNAs.
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. Single-cell RNA-sequencing of differentiating iPS cells reveals dynamic genetic effects on gene expression.
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