Characterization of Alternative Splicing During Mammalian Brain Development Reveals the Magnitude of Isoform Diversity and its Effects on Protein Conformational Changes
This code and associated data accompanies the preprint of Alieh, Toledo, Hadarovich et al. bioRxiv 2023 and contains information for processing the data and key analysis of the paper.
The data itself is available at SRA repository under accession number PRJNA1131182 (for the long-reads sequencing) and GEO repository under accession number GSE51606 (for short-reads sequencing) If you have quesitons or need help, please submit a github issue. To cite our work, please use:
Leila Haj Abdullah Alieh*, Beatriz Cardoso de Toledo*, Anna Hadarovich*, Agnes Toth-Petroczy, Federico Calegari #. "Characterization of Alternative Splicing During Mammalian Brain Development Reveals the Magnitude of Isoform Diversity and its Effects on Protein Conformational Changes", bioRxiv 2023.10.11.561865; doi: https://doi.org/10.1101/2023.10.11.561865
* these authors contributed equally
# corresponding author
