Project description:To reconstruct the 3D genomes of single diploid human and mouse cells, we performed single-cell chromatin conformation capture by a novel method, Dip-C, on human cells, and re-analyzed published data on mouse cells by the Dip-C algorithm.

Project description:To reconstruct the 3D genomes of single diploid human and mouse cells, we performed single-cell chromatin conformation capture by a novel method, Dip-C, on human cells. This submission is similar to our submission GSE117109, but analyzed the data with the hickit package instead of the dip-c package. The raw data for the samples in this series are identical to the related samples in GSE117109. There are links between the original and re-analyzed data on the sample pages.

Project description:We performed single-cell chromatin conformation capture with our recently developed method, Dip-C, on mouse sensory neurons in visual and olfactory systems, and reconstructed their 3D genomes.

Project description:To study the dynamics of 3D genome structure during postnatal development of the mouse forebrain, we performed Dip-C on 1,954 single cells from the mouse cortex and hippocampus at different ages throughout the first postnatal year.

Project description:Multiplexed Chromatin Conformation Capture in Mouse Erythroid cells , from hundreds of targeted loci, using agilent oligo capture technology and high throughput sequencing. Two erythroid Ter119+ cell replicates and a mouse ES cell control

Project description:Multiplexed Chromatin Conformation Capture in Mouse Erythroid cells , from hundreds of targeted loci, using agilent oligo capture technology and high throughput sequencing.

Project description:To study the effect of sensory experience on 3D genome structure of the mouse brain, we performed Dip-C on 1,692 single cells from the visual cortex of dark-reared and control mice at different ages throughout the first postnatal month.

Project description:Single-cell chromatin conformation capture of mouse sensory neurons in visual and olfactory systems by Dip-C

Project description:Chromatin conformation capture (4C-seq) from mouse liver

Project description:Chromatin Conformation Capture in gg8tTAtetOP2 Olfactory Sensory Neurons