Affiliation:
1. Max Planck Institute of Biochemistry Am Klopferspitz 18 82152 Planegg Germany
2. Faculty of Physics and Center for Nanoscience Ludwig Maximilian University Geschwister‐Scholl‐Platz 1 80539 Munich Germany
Abstract
AbstractSuper‐resolution microscopy has revolutionized how researchers characterize samples in the life sciences in the last decades. Amongst methods employing single‐molecule localization microscopy, DNA points accumulation for imaging in nanoscale topography (DNA‐PAINT) is a relatively easy‐to‐implement method that uses the programmable and repetitive binding of dye‐labeled DNA imager strands to their respective docking strands. Recently developed Peptide‐PAINT replaces the interaction of oligonucleotides by short coiled‐coil peptide sequences leading to an improved labeling scheme by reducing linkage errors to target proteins. However, only one coiled‐coil pair is currently available for Peptide‐PAINT, preventing multiplexed imaging. In this study, the initial Peptide‐PAINT E/K coil is improved by modifying its length for optimized binding kinetics leading to improved localization precisions. Additionally, an orthogonal P3/P4 coil pair is introduced, enabling 2‐plex Peptide‐PAINT imaging and benchmarking its performance and orthogonality using single‐molecule and DNA origami assays. Finally, the P3/P4 peptide pair is used to image the human epidermal growth factor receptors 2 (ErbB2/Her2) in 2D and 3D at the single receptor level using genetically encoded peptide tags.
Funder
Deutsche Forschungsgemeinschaft
Danmarks Grundforskningsfond
Subject
Biomaterials,Biotechnology,General Materials Science,General Chemistry
Cited by
4 articles.
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