Project description:Fixed-Tissue ChIP-seq for H3K27Ac profiling (FiTAc-seq) is an epigenetic method for profiling active enhancers and promoters in FFPE tissues. We previously developed a modified ChIP-seq protocol (FiT-seq) for chromatin profiling in FFPE. FiT-seq produces high-quality chromatin profiles particularly for methylated histone marks but is not optimized for H3K27Ac profiling. FiTAc-seq is a modified protocol that replaces the proteinase K digestion applied in FiT-seq with extended heating at 65°C in more stringent detergent conditions and a minimized sonication step, to produce robust genome wide H3K27Ac maps from clinical samples. We demonstrate FiTAc-seq suitability to generate high quality enhancer landscapes and SE annotation in a number of archived FFPE samples from distinct tumor types. This approach will be of great interest both for basic and clinical researchers. The entire protocol from FFPE blocks to sequence ready library can be accomplished within 4 days.

Project description:Fixed-Tissue ChIP-seq for H3K27Ac profiling (FiTAc-seq) is an epigenetic method for profiling active enhancers and promoters in FFPE tissues. We previously developed a modified ChIP-seq protocol (FiT-seq) for chromatin profiling in FFPE. FiT-seq produces high-quality chromatin profiles particularly for methylated histone marks but is not optimized for H3K27Ac profiling. FiTAc-seq is a modified protocol that replaces the proteinase K digestion applied in FiT-seq with extended heating at 65°C in more stringent detergent conditions and a minimized sonication step, to produce robust genome-wide H3K27Ac maps from clinical samples. We demonstrate FiTAc-seq suitability to generate high quality enhancer landscapes and SE annotation in a number of archived FFPE samples from distinct tumor types. This approach will be of great interest both for basic and clinical researchers. The entire protocol from FFPE blocks to sequence ready library can be accomplished within 4 days.

Project description:Fixed-Tissue ChIP-seq for H3K27Ac profiling (FiTAc-seq) is an epigenetic method for profiling active enhancers and promoters in FFPE tissues. We previously developed a modified ChIP-seq protocol (FiT-seq) for chromatin profiling in FFPE. FiT-seq produces high-quality chromatin profiles particularly for methylated histone marks but is not optimized for H3K27Ac profiling. FiTAc-seq is a modified protocol that replaces the proteinase K digestion applied in FiT-seq with extended heating at 65°C in more stringent detergent conditions and a minimized sonication step, to produce robust genome-wide H3K27Ac maps from clinical samples. We demonstrate FiTAc-seq suitability to generate high quality enhancer landscapes and SE annotation in a number of archived FFPE samples from distinct tumor types. This approach will be of great interest both for basic and clinical researchers. The entire protocol from FFPE blocks to sequence ready library can be accomplished within 4 days.

Project description:FiTAc-seq: Fixed-Tissue ChIP-seq for H3K27Ac profiling and super-enhancer analysis on FFPE tissues

Project description:FiTAc-seq: Fixed-Tissue ChIP-seq for H3K27Ac profiling and super-enhancer analysis on FFPE tissues [human]

Project description:FiTAc-seq: Fixed-Tissue ChIP-seq for H3K27Ac profiling and super-enhancer analysis on FFPE tissues [mouse]

Project description:Formalin-fixed paraffin-embedded (FFPE) ring trial

Project description:Genome wide DNA methylation profiling of formalin-fixed paraffin-embedded (FFPE) meningioma samples. The Illumina Infinium MethylationEPIC BeadChip was used to obtain DNA methylation profiles across approximately 850,000 methylation sites across the genome at single-nucleotide resolution.

Project description:Transcription profiling by array of formalin-fixed and paraffin-embedded (FFPE) tumor samples.

Project description:Transcriptomic data was generated on uninvolved SB tissue from formalin-fixed paraffin-embedded (FFPE) small bowel resection margins of subjects requiring surgery at Cedars-Sinai Medical Center for Crohn’s disease.