@cherrylab.bsky.social
Join us for the Seattle Walk to End Hydrocephalus, 9am Sept. 20 at Magnuson Park. Organized by the Hydrocephalus Association, that has supported our research into genetic causes of hydrocephalus and potential therapeutic targets. You can also donate at support.hydroassoc.org/goto/Team_Re...
2025 Seattle WALK To End Hydrocephalus: Tim Cherry's Personal Fundraising Page
support.hydroassoc.org
September 7, 2025 at 11:37 PM
Join us for the Seattle Walk to End Hydrocephalus, 9am Sept. 20 at Magnuson Park. Organized by the Hydrocephalus Association, that has supported our research into genetic causes of hydrocephalus and potential therapeutic targets. You can also donate at support.hydroassoc.org/goto/Team_Re...
1/5: How does a presumably redundant microRNA contribute to mammalian brain development and neurodevelopmental disease? Check out our new work led by Dr. Santiago Fregoso now on bioRxiv! www.biorxiv.org/content/10.1... #Neurodev #miRNA #hydrocephalus #Genetics #bioRxiv.
Loss of miR-9-2 Causes Cerebral Hemorrhage and Hydrocephalus by Widespread Disruption of Cell-Type-Specific Neurodevelopmental Gene Networks.
MIR-9-2 is a broadly and highly expressed microRNA in the developing brain and is frequently deleted in 5q14.3 Microdeletion Syndrome, a rare but severe neurodevelopmental disorder. Despite this, litt...
www.biorxiv.org
August 2, 2025 at 12:02 AM
1/5: How does a presumably redundant microRNA contribute to mammalian brain development and neurodevelopmental disease? Check out our new work led by Dr. Santiago Fregoso now on bioRxiv! www.biorxiv.org/content/10.1... #Neurodev #miRNA #hydrocephalus #Genetics #bioRxiv.
Saying goodbye is hard! So is interpreting non-coding variants in visual disorders! Luckily, that is the gift that Dr. Leah VandenBosch left us with after a very successful postdoc in the Cherry Lab. Check your own favorite retinal regulatory variants here: genome.ucsc.edu/s/CherryLab/...
February 26, 2025 at 2:49 AM
Saying goodbye is hard! So is interpreting non-coding variants in visual disorders! Luckily, that is the gift that Dr. Leah VandenBosch left us with after a very successful postdoc in the Cherry Lab. Check your own favorite retinal regulatory variants here: genome.ucsc.edu/s/CherryLab/...