Project description:Chromatin immunoprecipitation analysis of CENH3 in the Arabidopsis thaliana accessions Col-0, Ler-0, Cvi-0 and Tanz-1 was performed in order to align reads to PacBio HiFi genome assemblies which contain complete centromere repeat arrays.
Project description:We present a low-cost, generalizable ChIP-seq (itChIP), compatible to both low-input and single cells for profiling chromatin states. This method combines chromatin opening, simultaneous cellular indexing and chromatin tagmentation in a single tube. Single-cell itChIP data yield ~ 5000 unique reads per cell, sufficiently defining cell identifies and subpopulations of a given cell type. Our results demonstrate that itChIP is a generalizable technology for single-cell chromatin profiling of samples limited to ultra-low number of cells.
Project description:We present a low-cost, generalizable ChIP-seq (itChIP), compatible to both low-input and single cells for profiling chromatin states. This method combines chromatin opening, simultaneous cellular indexing and chromatin tagmentation in a single tube. Single-cell itChIP data yield ~ 5000 unique reads per cell, sufficiently defining cell identifies and subpopulations of a given cell type. Our results demonstrate that itChIP is a generalizable technology for single-cell chromatin profiling of samples limited to ultra-low number of cells.
Project description:We present a low-cost, generalizable ChIP-seq (itChIP), compatible to both low-input and single cells for profiling chromatin states. This method combines chromatin opening, simultaneous cellular indexing and chromatin tagmentation in a single tube. Single-cell itChIP data yield ~ 5000 unique reads per cell, sufficiently defining cell identifies and subpopulations of a given cell type. Our results demonstrate that itChIP is a generalizable technology for single-cell chromatin profiling of samples limited to ultra-low number of cells.
Project description:We present a low-cost, generalizable ChIP-seq (itChIP), compatible to both low-input and single cells for profiling chromatin states. This method combines chromatin opening, simultaneous cellular indexing and chromatin tagmentation in a single tube. Single-cell itChIP data yield ~ 5000 unique reads per cell, sufficiently defining cell identifies and subpopulations of a given cell type. Our results demonstrate that itChIP is a generalizable technology for single-cell chromatin profiling of samples limited to ultra-low number of cells.
Project description:We present a low-cost, generalizable ChIP-seq (itChIP), compatible to both low-input and single cells for profiling chromatin states. This method combines chromatin opening, simultaneous cellular indexing and chromatin tagmentation in a single tube. Single-cell itChIP data yield ~ 5000 unique reads per cell, sufficiently defining cell identifies and subpopulations of a given cell type. Our results demonstrate that itChIP is a generalizable technology for single-cell chromatin profiling of samples limited to ultra-low number of cells.
