Similar Datasets
Project description:We performed Hi-C, Micro-C, and capture Micro-C in human prostate cancer cells and compared chromatin interactions called using different methods. By integrating Micro-C with NOMe-seq, ChIP-seq, and RNA-seq, we investigated the relationships among nucleosome positioning of regulatory elements, chromatin interactions, and transcription. This work provides a framework for understanding the chromatin interactions among regulatory elements, nucleosome-depleted regions, and transcription.
2023-01-11 | GSE204997 | GEO
Project description:We performed Hi-C, Micro-C, and capture Micro-C in human prostate cancer cells and compared chromatin interactions called using different methods. By integrating Micro-C with NOMe-seq, ChIP-seq, and RNA-seq, we investigated the relationships among nucleosome positioning of regulatory elements, chromatin interactions, and transcription. This work provides a framework for understanding the chromatin interactions among regulatory elements, nucleosome-depleted regions, and transcription.
2023-01-11 | GSE204995 | GEO
Project description:We performed Hi-C, Micro-C, and capture Micro-C in human prostate cancer cells and compared chromatin interactions called using different methods. By integrating Micro-C with NOMe-seq, ChIP-seq, and RNA-seq, we investigated the relationships among nucleosome positioning of regulatory elements, chromatin interactions, and transcription. This work provides a framework for understanding the chromatin interactions among regulatory elements, nucleosome-depleted regions, and transcription.
2023-01-11 | GSE204996 | GEO
Project description:We performed Hi-C, Micro-C, and capture Micro-C in human prostate cancer cells and compared chromatin interactions called using different methods. By integrating Micro-C with NOMe-seq, ChIP-seq, and RNA-seq, we investigated the relationships among nucleosome positioning of regulatory elements, chromatin interactions, and transcription. This work provides a framework for understanding the chromatin interactions among regulatory elements, nucleosome-depleted regions, and transcription.
2023-01-11 | GSE204999 | GEO
Project description:We performed Hi-C, Micro-C, and capture Micro-C in human prostate cancer cells and compared chromatin interactions called using different methods. By integrating Micro-C with NOMe-seq, ChIP-seq, and RNA-seq, we investigated the relationships among nucleosome positioning of regulatory elements, chromatin interactions, and transcription. This work provides a framework for understanding the chromatin interactions among regulatory elements, nucleosome-depleted regions, and transcription.
2023-01-11 | GSE204998 | GEO