October 24, 2020

The Niche

Knoepfler lab stem cell blog

human embryo crispr

8 min read

The debate over whether the main conclusions of the Nature paper on human embryo CRISPR led by Shoukhrat Mitalipov’s lab at Oregon Health Sciences University (OHSU) are correct remains unresolved. Note that Nature just added an editorial alert just above the references section to their paper: “Updated online 02 October 2017. Editorial Note: Readers are alerted that some of the conclusions of this paper are subject to critiques that are being considered by editors. Some of these critiques have been publicly deposited in preprint form. A further …Read More

5 min read

Scientist make knockout human embryos with CRISPR? Today we see a new Nature paper (Fogarty, et al.) on CRISPR “gene editing” of human embryos, this time from the UK from Kathy Niakan’s group. Niakan got UK permission about 18 months ago to CRISPR healthy human embryos so they’ve been hard at work since. Because Fredrik Lanner of Sweden (see my interview here) also has governmental permission to CRISPR healthy human embryos, I’m guessing we’ll see a paper from his lab soon too. If I …Read More

7 min read

What really happened at the DNA level in the experiments in that high-profile CRISPR of human embryos paper from a team led by Shoukhrat Mitalipov at OHSU? Is the team right that they successfully conducted CRISPR of human embryos to correct a mutant gene, as they reported in their Ma, et al. Nature paper? Or is the Egli, et al. preprint that came out later in response to the Ma paper more likely to be correct in their implied argument that something else very probably happened instead? We …Read More

2 min read

There has been a wave of intense discussions both in the public domain such as on Twitter and behind the scenes over the new Egli, et al. preprint that challenges the main conclusions of the Ma, et al. Nature paper from Shoukhrat Mitalipov’s lab. Ma, et al. reported CRISPR gene editing of human embryos, arguing for a mechanism of HDR-based gene editing relying on interaction of the maternal and paternal genomes in the early embryos. Egli, et al. presented several alternative explanations — mostly involving …Read More