Huge congrats Sangho and the team!
18.02.2026 17:07
π 2
π 0
π¬ 1
π 0
Huge congrats Sangho and the team!
FIRST post here on Bluesky - weβre excited to share that our large spatial transcriptomics study of the human dlPFC in schizophrenia is now available on bioRxivπ: www.biorxiv.org/content/10.6... (1/9)
Huge congrats Keri! Well deserved, and LIBD is lucky to have you as a CSO!
New preprint alert: we use sign errors as a test of how well TWAS works.
Very worryingly we find that TWAS gets the sign wrong around 1/3 of the time (compared to 50% for pure guessing). You can read more about our analysis here, and what we think is going on π
So, who are the the Functional Genomics Working Group?
π―Our goal is to understand how genesπ§¬, cellsπ¦ and moleculesπ contribute to psychiatric disordersπ§
We work with other PGC groups and different 'omics data (methylation, cytometry, single cell etc.) to do thisπ§ͺ
π§΅1/3
Thanks Leo! It was lovely to meet you again!
Thanks so much Keri for inviting me β€οΈ It was a great pleasure to visit Lieber and meet so many amazing scientists!
Phenomenal talk from @hyejungwon.bsky.social who is visiting us @lieberinstitute.bsky.social for the day. Groundbreaking work w/ important implications and roadmap for using rapidly emerging information on psychiatric genetics to prioritize variants and understand their impact on π§ function
Our "Atlas of Variant Effects 2030 Roadmap" is live: zenodo.org/records/1542...
1/n
How does APOE change your risk of developing Alzheimer's disease? At least partially by changing the function of immune cells in your brain π§ π§¬
New paper out in @natcomms.nature.com today: www.nature.com/articles/s41...
@ukdri.ac.uk @kingsioppn.bsky.social @imperialbrains.bsky.social
Huge congrats Debby! This was a lovely story when you presented at GRC β€οΈ
Huge congrats Alexi and Sarah π
Silencing of transgenes during iPSC differentiation is a frequent problem. π§¬π«’
Check out the piggyBac system below, which has resisted silencing in many protocols across many labs. πͺ
Excited that our lab could contribute to this team effort led by @tuenaka.bsky.social & Marius Wernig!
Watch the videoπ½οΈattached to see what each of these awesome #FemsinSTEM are up to!
π§΅3/3
Marija, I am so much happy for you! Huge congrats! π
Hello, it is because borderline disorder GWAS is not well powered: i.e. it does not have any hits (dots) above the red line in figure 2: www.nature.com/articles/tp2.... This means that there are not robust and reliable genomic regions that we can chase after for functional analysis.
This is soooo cool Pedro! Huge congrats!
Very good new preprint by @nanamatoba.bsky.social @hyejungwon.bsky.social @steinlab.bsky.social, using a Massively Parallel Reporter Assay to gain insight into regulatory elements associated with inter-individual differences in cortical structure (Wnt response sensitivity plays a prominent role)π§ͺπ§ π§¬
15/ Last but not least, I'd like to thank fabulous first authors, Sool Lee, Jessica McAfee, and Jiseok Lee; great collaborators, Pat Sullivan, Adriana Beltran, @markgerstein.bsky.social, Alan Boyle; and a fantastic editor, Scott Behie!
Thanks so much!
Yay thanks! You deserve a credit here π
14/ Thereβs much more in the full manuscript, including findings on Alu elements with gene regulatory activity and CRISPR validation. Check it out here for full access: authors.elsevier.com/a/1kU9ZL7PXq...
13/ Together, our findings suggest pleiotropy arises from the functional properties of target genes and proteins, including prolonged gene activity during neuronal differentiation and higher protein connectivity in PPI networks.
12/ PPI networks were a recurring theme: mDis3-bound transcription factors, mDis3 proteins, and even downstream effectors all showed higher connectivity in PPI networks. Connectivity in these networks seems critical to how pleiotropic variants exert their effects.
11/ We also investigated protein-protein interaction (PPI) networks. mDis3 proteins were significantly more interconnected than mDis1 proteins. This implies pleiotropic proteins may amplify their effects through network connectivity, rippling through molecular pathways.
10/ This suggests that mDis3 variants target genes with broader or longer activity across excitatory neuronal differentiation, potentially driving multiple downstream effects. These temporal differences may explain part of the functional diversity seen in pleiotropy.
9/ We next examined the functional properties of variants and their target genes. Both mDis1 and mDis3 variants were enriched in the excitatory neuronal lineage. In this lineage, mDis1 genes were often expressed in a single cell type, while mDis3 genes showed prolonged, multi-cell-type expression.
8/ Next, we wondered if mDis3 variants have more complex regulatory connectivity (e.g., linking to multiple genes). Again, no significant differences were found between mDis3 and mDis1 loci in the number of genes connected to emVars.
7/ First, we asked if mDis3 loci simply have more emVars than mDis1 loci. The number of emVars didnβt differ between mDis3 and mDis1 loci. So, the extent of pleiotropy wasnβt explained by the number of variants with regulatory activity.
6/ Why exclude 2-disorder variants? Many were linked to bipolar and schizophrenia, which have high genetic correlation (>0.7). This made it hard to determine if they were truly pleiotropic or just driven by shared biology between these two highly related disorders.
