Single-particle Combinatorial Multiplexed Liposome Fusion Mediated by DNA

Overview

Journal Nat Chem

Specialty Chemistry

Date 2022 Apr 5

PMID 35379901

Authors

Mette Galsgaard Malle

Philipp M G Loffler

Soren S-R Bohr

Magnus Berg Sletfjerding

Nikolaj Alexander Risgaard

Simon Bo Jensen

Min Zhang

Per Hedegard

Stefan Vogel

Nikos S Hatzakis

Affiliations

Soon will be listed here.

Abstract

Combinatorial high-throughput methodologies are central for both screening and discovery in synthetic biochemistry and biomedical sciences. They are, however, often reliant on large-scale analyses and thus limited by a long running time and excessive materials cost. We here present a single-particle combinatorial multiplexed liposome fusion mediated by DNA for parallelized multistep and non-deterministic fusion of individual subattolitre nanocontainers. We observed directly the efficient (>93%) and leakage free stochastic fusion sequences for arrays of surface-tethered target liposomes with six freely diffusing populations of cargo liposomes, each functionalized with individual lipidated single-stranded DNA and fluorescently barcoded by a distinct ratio of chromophores. The stochastic fusion resulted in a distinct permutation of fusion sequences for each autonomous nanocontainer. Real-time total internal reflection imaging allowed the direct observation of >16,000 fusions and 566 distinct fusion sequences accurately classified using machine learning. The high-density arrays of surface-tethered target nanocontainers (~42,000 containers per mm) offers entire combinatorial multiplex screens using only picograms of material.

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