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Paper Details

Developmental isoform diversity in the human neocortex informs neuropsychiatric risk mechanisms.
bioRxiv
1
2023
-length transcriptome, ASD, CP), GZ, ID, NDDs, RNA regulatory domains, autism spectrum disorders, cell states, developmental brain disorders, early-stage excitatory neurons, exons, full, full-length transcriptome, gene, human, intellectual disability, isoform, isoforms, neurodevelopmental disorders, neuropsychiatric disease, neuropsychiatric disorders, novel, transcriptome

Datasets

GENCODEGENCODE: reference annotation for the human and mouse genomes in 2023Link
GENCODEGENCODE: reference annotation for the human and mouse genomes in 2023Link
GENCODEGENCODE: reference annotation for the human and mouse genomes in 2023Link
GENCODEGENCODE: reference annotation for the human and mouse genomes in 2023Link
GENCODEGENCODE: reference annotation for the human and mouse genomes in 2023Link
GENCODEGENCODE: reference annotation for the human and mouse genomes in 2023Link
GENCODEGENCODE: reference annotation for the human and mouse genomes in 2023Link
GENCODEGENCODE: reference annotation for the human and mouse genomes in 2023Link
GENCODEGENCODE: reference annotation for the human and mouse genomes in 2023Link
GENCODEGENCODE: reference annotation for the human and mouse genomes in 2023Link
GENCODEGENCODE: reference annotation for the human and mouse genomes in 2023Link
GENCODEGENCODE: reference annotation for the human and mouse genomes in 2023Link
GENCODEGENCODE: reference annotation for the human and mouse genomes in 2023Link
GENCODEGENCODE: reference annotation for the human and mouse genomes in 2023Link
GENCODEGENCODE: reference annotation for the human and mouse genomes in 2023Link