Our latest study showing how transcription factors interact with chromatin, revealing that histone modifications influence their cooperative binding.
https://t.co/UGva236kIZ
Congratulations to Dr. Wade Harper, Dr. Spyros Artavanis-Tsakonas and Dr. Danesh Moazed for their election to the National Academy of Sciences. This is a well deserved recognition for their research excellence and contributions to science. @HarvardCellBio
Excited to see this in @NatureAging. We profiled mouse brains following parabiosis to identify changes involved in the rejuvenation & aging acceleration driven by blood factors. Congrats to @LeeRubinlab@jzlevin AvivRegev AmyWagers @HSCRB@BroadInstitute | https://t.co/lXFE3WCW05
Excited to share our recent work on the establishment and epigenetic inheritance of mammalian heterochromatin and the role of DHX9 R-loop resolvase in safeguarding heterochromatin stability. #EpigeneticInheritance, #Heterochromatin, #Rloops#GeneSilencing.
https://t.co/yRmFlBhogy
Very excited that our work on transmission of modified histone H2A-H2B to daughter DNA strands in epigenetic cell memory is out in @CellCellPress 🍾🎊. Fantastic achievement by @valeflury @Grothlab tracking H2A-H2B during DNA replication. Great collaboration @RobKlose. 👇👇
Opening for a new lab manager and senior scientist in the Moazed lab! Great opportunity to join our heterochromatin/epigenetics group.
Apply here for lab manager: https://t.co/DaoVFXQBkn
Apply here for senior scientist: https://t.co/3rGX7bdRkJ
Excited to share my PhD work in @Nature!
The HUSH complex epigenetically silences diverse invading DNAs. HUSH uses introns to discriminate self from non-self DNA and protects the genome against the reverse flow of genetic information (RNA to DNA)
https://t.co/0uFBimbIXj
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Would you like to maintain your knowledge of what's new in epigenetics? Then check out our most recent paper on 'A Composite DNA Element that Functions as a Maintainer Required for Epigenetic Inheritance of Heterochromatin'
https://t.co/IHkL5Y1a9y
After nearly four years, we can now share some mechanistic insights into genetic compensation. Our results expand the role of the RNA surveillance machinery, and suggest ways to avoid compensation when creating animal models. https://t.co/uUKGTJ3206