Our work on the functional role of DNMT3A/3B during early development is finally out!
Grateful for the opportunity to work with Amos Tanay, gratitude for the collaboration with @aviezer_l, and thanks to the Tanay group members @WeizmannScience@NatureSMB
https://t.co/JvM3uO6kJJ
Check out this fascinating work by our very own Hadar, @BatelBuaron , Roni and Shalev, and the beautiful cover Batel designed! So proud!
https://t.co/rQ0qRuVahj
📣 Our fun journey continues - latest lab preprint is now out in @Nature
Check out in great detail how we derive Complete and Structured human day 14 post-implantation embryo models (SEMs) solely from unmodified HENSM naïve ESCs
@Beroldak@EmilieWildschu1@vlad_bndk@noashefi
https://t.co/NTGdYvsCKb
📢📜🐣New Ulitsky lab paper alert! "Complex regulation of Eomes levels mediated through distinct functional features of the Meteor long non-coding RNA locus" by Noa Gil et al. https://t.co/gPdxtiovg6 a 🧵
We are looking for a senior research technician to help us consolidate and further develop single-cell, chromatin, and functional genomics technologies in the lab.
🔗Details and application: https://t.co/zmHF5teV7X
Please, RT or share with potential candidates.
A new center for soft matter and physics of life at @WeizmannScience. Our community is truly interdisciplinary, with many exciting research and education programs. Come join us! https://t.co/HYuDVbWL80
Our work on the functional role of DNMT3A/3B during early development is finally out!
Grateful for the opportunity to work with Amos Tanay, gratitude for the collaboration with @aviezer_l, and thanks to the Tanay group members @WeizmannScience@NatureSMB
https://t.co/JvM3uO6kJJ
We will have to generalize such models of redundancy, competition, and multi-layered control to understand how TFs and other epigenetic factors drive the incredibly robust and precise gene regulation programs in gastrulation. (15/15)
We are studying different aspects of gastrulation, and the diversity of the regulation/function of seemingly redundant DNMTs is insightful. It shows how small but quantitative variation in epigenetic preferences can be combined into broader phenotypes. (14/15)