Happy to share our recent publication about conventional IVF, where we reviewed strengths and weaknesses of one of the most practiced assisted reproductive technology (ART) approaches used worldwide.
https://t.co/WASlQZxs1B
#ivf#science#reproduction#fertilitytreatment
On May 8th, I was at work and it happened to be Mother’s Day. I started the day thinking: “Today we have the chance of making new Moms”. I don’t know if it was the positive energy but all our patients of that day became pregnant🤰🏻
This work will never stop to amaze me ✨
Excited to share our latest work in @ScienceMagazine
(https://t.co/kJFsJEIf0S). Building on the foundational work of the PCAWG and HMF consortia, we established a compendium of mutation events in somatic whole-genome sequencing data of 3,949 patients from 19 tumor types.
Our paper describing gene regulation in the fly brain is out now in @Nature! So proud of this one and of the amazing team work with @SaraAibar@ibrahimihsan and @joynismail in the @steinaerts lab! Check it out here https://t.co/gkFcgDtLKX with below our main findings:
Excited to share our latest publication out @CellCellPress where we explore how Xist nucleates local protein gradients to propagate gene silencing during X chromosome inactivation. 1/15
https://t.co/Vb76VV443N
🧫🧬🔬🧵
Make sure to check it out and see how we leveraged single-cell allele-resolution RNA-seq and bulk ATAC-seq to better understand X chromosome dosage compensation!
Excited to share that our latest study: “Enhanced chromatin accessibility contributes to X chromosome dosage compensation in mammals” is out in @GenomeBiology!
Study of chromatin accessibility on the X chromosome in embryonic fibroblasts and during reprogramming, from @irenetalon, @janiszewski_a, @vincentpasque & co. ATAC-seq shows the active X has more accessible chromatin than autosomes, reversed during reprog https://t.co/935xF6oY7u
Thrilled to share our paper on the mutational landscape of human somatic and germline cells @Nature. We integrated histology and genomics to explore the genetic diversity that develops within our bodies as we age.
https://t.co/Ep2do4JNXP
An illustrated tweetorial… [1/15]
Delighted to share the latest @PayerLab preprint about the implications of #Xchromosome activity on meiotic entry in #mouse primordial germ cells #PGCs in vitro https://t.co/MUTz5IVoa8 1/
Excited to share our work published in @ScienceMagazine led by our DPhil @LisaRodermund, jointly supervised by @LSchermelleh and us. (1/3) https://t.co/LixbI55guN
In our recent News & Views article in The EMBO Journal @embojournal we introduced and discussed very interesting new findings from the Joerg Betschinger group @FMIscience who identified chromatin regulators that restrict the developmental potential of mouse embryonic stem cells.
Check out our EMBO News&Views “Keep the fate: how chromatin regulators safeguard embryonic stem cell identity“ here: https://t.co/USgPm3nN8Q
and the discussed article published in the EMBO journal: https://t.co/lwVNNIIbov
How can genes decode information with a defined logic? In our new @biorxivpreprint led by @RutgerGjaltema and @TSchwammle we dissect the regulatory landscape of Xist and find a distal-proximal hierarchy that generates a logical AND-gate. https://t.co/zfjKIIsRkq A thread