Project description:We used a new technology, named Paired-Damage, to perform simultaneous profiling of DNA oxidative damage and transcriptome on Hela cells and mouse cortex at single-cell level. We also performed matched damagenome, ATAC-seq and RNA-seq of Hela cells at bulk level.

Project description:We used a new technology, named Paired-Damage, to perform simultaneous profiling of DNA oxidative damage and transcriptome on Hela cells and mouse cortex at single-cell level. We also performed matched damagenome, ATAC-seq and RNA-seq of Hela cells at bulk level.

Project description:We used a new technology, named Paired-Damage, to perform simultaneous profiling of DNA oxidative damage and transcriptome on Hela cells and mouse cortex at single-cell level. We also performed matched damagenome, ATAC-seq and RNA-seq of Hela cells at bulk level.

Project description:We used a new technology, named Paired-Damage, to perform simultaneous profiling of DNA oxidative damage and transcriptome on Hela cells and mouse cortex at single-cell level. We also performed matched damagenome, ATAC-seq and RNA-seq of Hela cells at bulk level.

Project description:Single-cell joint analysis of DNA oxidative damage and transcriptome [Hela paired damage]

Project description:Single-cell joint analysis of DNA oxidative damage and transcriptome [Hela RNA]

Project description:Single-cell joint analysis of DNA oxidative damage and transcriptome [Cortex paired-damage]

Project description:Single-cell joint analysis of DNA oxidative damage and transcriptome [bulk damage]

Project description:To identify ubiquitylation targets following lysosomal damage in HeLa cells treated with LLOMe we performed quantitative ubiquitin-remmnant (diGly) profilig coupled to mass spectrometry (MS). In addition, we performed APEX2-based proximity biotinylation followed by MS analysis to identify proximity partners of one of the ubiquitylation targets (CNN2).

Project description:Single-cell joint analysis of DNA oxidative damage and transcriptome [ATAC-seq]