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The Friedman Brain Institute
The Friedman Brain Institute
@sinaibrain.bsky.social
2 months ago
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Biological insights into schizophrenia from ancestrally diverse populations - Nature Genome-wide association studies incorporating data for populations of African ancestry provide an expanded view of the genetic basis of schizophrenia, which has previously been studied mainly in Europ...

SEE FULL STUDY ➡️ Biological insights into #Schizophrenia from ancestrally diverse populations - Tim Bigdeli, @panosroussos.bsky.social, et al. @mountsinainyc.bsky.social @sinaigenetics.bsky.social #CDNeurogenomics #MountSinaiPsych #MillionVeteranProgram @nature.com👉 www.nature.com/articles/s41...

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Panos Roussos
Panos Roussos
@panosroussos.bsky.social
2 months ago
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Biological insights into schizophrenia from ancestrally diverse populations Nature - Genome-wide association studies incorporating data for populations of African ancestry provide an expanded view of the genetic basis of schizophrenia, which has previously been studied...

Now out in @nature.com: Biological insights into schizophrenia from ancestrally diverse populations.

@sinaibrain.bsky.social @sinaigenetics.bsky.social cs.bsky.social @timbigdeli.bsky.social #CDNeurogenomics #MountSinaiPsych #MillionVeteranProgram and many collaborators
Read: rdcu.be/eZ7he

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Panos Roussos
Panos Roussos
@panosroussos.bsky.social
1 year ago
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Long-read RNA sequencing atlas of human microglia isoforms elucidates disease-associated genetic regulation of splicing - Nature Genetics This isoform-centric microglia genomic atlas includes 35,879 novel human microglia isoforms identified by long-read RNA sequencing. A multi-ancestry quantitative trait locus meta-analysis of known and...

Congrats @jack-humphrey.bsky.social for isoMiGA now published in @naturegenet.bsky.social @sinaibrain.bsky.social ain.bsky.social @sinaigenetics.bsky.social s.bsky.social @trajnp.bsky.social np.bsky.social #CDNeurogenomics #MountSinaiPsych
www.nature.com/articles/s41...

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Panos Roussos
Panos Roussos
@panosroussos.bsky.social
1 year ago
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Multiomic single-cell profiling identifies critical regulators of postnatal brain - Nature Genetics Simultaneous profiling of RNA and chromatin accessibility in single nuclei isolated from human postnatal brain regions from infancy to late adulthood identifies key cellular regulators and nominates t...

Big congrats to Tereza Clarence for “Multiomic single-cell profiling identifies critical regulators of postnatal brain” now published in @naturegenet.bsky.social @sinaibrain.bsky.social @sinaigenetics.bsky.social #CDNeurogenomics #MountSinaiPsych
www.nature.com/articles/s41588-025-02083-8

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