scNanoSeq-CUT&Tag: a single-cell long-read CUT&Tag sequencing method for efficient chromatin modification profiling within individual cells.

Chromatin modifications are fundamental epigenetic marks that determine genome functions, but it remains challenging to profile those of repetitive elements and complex genomic regions. Here, we develop scNanoSeq-CUT&Tag, a streamlined method, by adapting modified cleavage under targets and tagmentation (CUT&Tag) to the nanopore sequencing platform for genome-wide chromatin modification profiling within individual cells. We show that scNanoSeq-CUT&Tag can accurately profile histone marks and transcription factor occupancy patterns at single-cell resolution as well as distinguish different cell types. scNanoSeq-CUT&Tag efficiently maps the allele-specific chromatin modifications and allows analysis of their neighboring region co-occupancy patterns within individual cells. Moreover, scNanoSeq-CUT&Tag can accurately detect chromatin modifications for individual copies of repetitive elements in both human and mouse genomes. Overall, we prove that scNanoSeq-CUT&Tag is a valuable single-cell tool for efficiently profiling histone marks and transcription factor occupancies, especially for previously poorly studied complex genomic regions and blacklist genomic regions.