DIGGER 2.0: digging into the functional impact of differential splicing on human and mouse disorders is published in Nucleic Acids Research (https://doi.org/10.1093/nar/gkaf384).
DIGGER 2.0 now features both experimental and newly added predicted domain–domain interactions. In addition to the human interactome, DIGGER 2.0 adds support for mouse as an important model organism. Additionally, the splicing analysis tool NEASE was integrated, which allows users to perform online splicing- and interactome-informed enrichment analysis on RNA-seq data. DIGGER 2.0 is available at https://daisybio.ls.tum.de/digger/.
This work is part of WP3: isoform-specific interactions.
DIGGER 2.0: digging into the functional impact of differential splicing on human and mouse disorders is published in Nucleic Acids Research (https://doi.org/10.1093/nar/gkaf384).
DIGGER 2.0 now features both experimental and newly added predicted domain–domain interactions. In addition to the human interactome, DIGGER 2.0 adds support for mouse as an important model organism. Additionally, the splicing analysis tool NEASE was integrated, which allows users to perform online splicing- and interactome-informed enrichment analysis on RNA-seq data. DIGGER 2.0 is available at https://daisybio.ls.tum.de/digger/.
This work is part of WP3: isoform-specific interactions.