Transcription is a highly dynamic process that generates single-stranded DNA (ssDNA) in the genome as 'transcription bubbles'. Here we describe a kethoxal-assisted single-stranded DNA sequencing (KAS-seq) approach, based on the fast and specific reaction between N3-kethoxal and guanines in ssDNA. KAS-seq allows rapid (within 5 min), sensitive and genome-wide capture and mapping of ssDNA produced by transcriptionally active RNA polymerases or other processes in situ using as few as 1,000 cells. KAS-seq enables definition of a group of enhancers that are single-stranded and enrich unique sequence motifs. These enhancers are associated with specific transcription-factor binding and exhibit more enhancer-promoter interactions than typical enhancers do. Under conditions that inhibit protein condensation, KAS-seq uncovers a rapid release of RNA polymerase II (Pol II) from a group of promoters. KAS-seq thus facilitates fast and accurate analysis of transcription dynamics and enhancer activities simultaneously in both low-input and high-throughput manner.