Abstract
Key messageApplication of a low-input chromatin profiling method, CUT&RUN, to FACS-purified Arabidopsis endosperm nuclei generates parental-specific genome-wide H3K27me3 landscapes with high sensitivity, specificity and reproducibility.Endosperm is an essential seed tissue with a unique epigenetic landscape. During endosperm development, differential epigenetic regulation of the maternal and paternal genomes plays important roles in regulating gene expression, especially at imprinted genes. In Arabidopsis, profiling the epigenetic landscape of endosperm on a genome-wide scale is challenging due to its small size, mode of development and close association with maternal tissue. Here, we applied a low-input chromatin profiling method, CUT&RUN (cleavage under targets and release using nuclease), to profile parental-specific chromatin modifications using limited numbers of Arabidopsis endosperm nuclei. We demonstrate that CUT&RUN generates genome-wide H3K27me3 landscapes with high sensitivity, specificity and reproducibility using around 20,000 endosperm nuclei purified by flow cytometry and fluorescence-activated cell sorting. H3K27me3 peaks identified by CUT&RUN and previous ChIP (chromatin immunoprecipitation) approaches were largely overlapping, with some distinctions in heterochromatin. The versatility and simplicity of CUT&RUN make it a viable alternative to ChIP, which requires greater amounts of starting material, and will enable further study of tissue- or cell-type-specific epigenomes in Arabidopsis and other plant species.
Highlights
Endosperm is an essential seed tissue formed during flowering plant reproduction
Triploidy is a signature of Arabidopsis endosperm, which has two identical maternal genomes and one paternal genome
Consistent with findings from INTACT-ChIP data, we found that 31 of 38 paternally expressed imprinted genes (PEGs) were marked with Col-biased H3K27me3 peaks, while another three PEGs did not overlap with H3K27me3 peaks but exhibited Col biases on
Summary
Endosperm is an essential seed tissue formed during flowering plant reproduction. The two sperms from one pollen grain fertilize the female gametes, the egg cell and the central cell, forming embryo and endosperm, respectively. The endosperm functions to support embryo growth and development. A contribution to the special issue ‘Cellular Omics Methods in Plant Reproduction Research’.
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