The facile and sensitive detection of peptides is essential for drug screening, pathogen detection, and protein sequencing. There are still challenges for the real‐time single‐molecule sensing and detection of peptides due to their versatile shape, structure, and charges brought by amino acids. Nanopore sensing is an emerging technology for sensing of biomolecules including DNA, RNA, and proteins. In this study, the interaction between peptides of different lengths (N6–N10) and charges with an engineered Mycobacterium smegmatis porin A nanopore are systematically studied, and two types blockage events can be identified by quantifying their dwell times and amplitude of blockades. The findings are further applied to the label‐free and real‐time quantification of protease activity of caseinolytic protease P at nanomolar concentration in 14 min. The protease activity with inhibitor can also be monitored real time by nanopore assay. In summary, this nanopore‐based sensing platform shows promising capacity for peptide detection, protease activities assay, and inhibitor screening.
Nanoscale transport through nanopores and live-cell membranes plays a vital role in both key biological processes as well as biosensing and DNA sequencing. Active translocation of DNA through these nanopores usually needs enzyme assistance. Here we present a nanopore derived from truncated helicase E1 of bovine papillomavirus (BPV) with a lumen diameter of c.a. 1.3 nm. Cryogenic electron microscopy (cryo-EM) imaging and single channel recording confirm its insertion into planar lipid bilayer (BLM). The helicase nanopore in BLM allows the passive single-stranded DNA (ssDNA) transport and retains the helicase activity in vitro. Furthermore, we incorporate this helicase nanopore into the live cell membrane of HEK293T cells, and monitor the ssDNA delivery into the cell real-time at single molecule level. This type of nanopore is expected to provide an interesting tool to study the biophysics of biomotors in vitro, with potential applications in biosensing, drug delivery and real-time single cell analysis.
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