Advanced Science (Jul 2024)

Scanning Electron Microscopy Imaging of Large DNA Molecules Using a Metal‐Free Electro‐Stain Composed of DNA‐Binding Proteins and Synthetic Polymers

  • Chanyoung Noh,
  • Yoonjung Kang,
  • Sujung Heo,
  • Taesoo Kim,
  • Hayeon Kim,
  • Junhyuck Chang,
  • Priyannth Ramasami Sundharbaabu,
  • Sanghee Shim,
  • Kwang‐il Lim,
  • Jung Heon Lee,
  • Kyubong Jo

DOI
https://doi.org/10.1002/advs.202309702
Journal volume & issue
Vol. 11, no. 28
pp. n/a – n/a

Abstract

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Abstract This paper presents the first scanning electron microscopy (SEM)‐based DNA imaging in biological samples. This novel approach incorporates a metal‐free electro‐stain reagent, formulated by combining DNA‐binding proteins and synthetic polymers to enhance the visibility of 2‐nm‐thick DNA under SEM. Notably, DNA molecules stain with proteins and polymers appear as dark lines under SEM. The resulting DNA images exhibit a thickness of 15.0±4.0 nm. As SEM is the primary platform, it integrates seamlessly with various chemically functionalized large surfaces with the aid of microfluidic devices. The approach allows high‐resolution imaging of various DNA structures including linear, circular, single‐stranded DNA and RNA, originating from nuclear and mitochondrial genomes. Furthermore, quantum dots are successfully visualized as bright labels that are sequence‐specifically incorporated into DNA molecules, which highlights the potential for SEM‐based optical DNA mapping. In conclusion, DNA imaging using SEM with the novel electro‐stain offers electron microscopic resolution with the ease of optical microscopy.

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