Framework for Accurate Single-Molecule Spectroscopic Imaging Analyses Using Monte Carlo Simulation and Deep Learning.

Journal: Analytical chemistry
Published Date: Aug 5, 2025

Abstract

Accurate single-molecule spectral imaging denoising and analysis are essential for advancing high-throughput single-molecule spectroscopy and spectrally resolved super-resolution microscopy. However, a standardized framework for guiding the accurate analysis of single-molecule spectral data remains unavailable. To address this, we developed an analysis framework that generates ground truth (GT) single-molecule spectral imaging data using Monte Carlo simulations, enabling the first supervised learning-based imaging denoising method (referred to as SpecUNet) for single-molecule spectral images. Within this framework, we established eight comprehensive evaluation metrics to systematically compare the performance of SpecUNet against existing imaging analytics using synthetic GT data. We further validated SpecUNet's performance experimentally and demonstrated its capability in accurately characterizing the single-molecule fluorescence spectral heterogeneity of Janelia Fluors. Additionally, we explored its ability to decode the spectral responses of the polarity-sensitive probe Nile Red under varying nanoscale chemical polarities and heterogeneities.

Authors

  • Hongjing Mao
    Molecular Analytics and Photonics (MAP) Lab, Program of Polymer and Color Chemistry, Department of Textile Engineering, Chemistry and Science, North Carolina State University, 1020 Main Campus Drive, Raleigh, NC, 27606, USA.
  • Yunshu Liu
    Molecular Analytics and Photonics (MAP) Lab, Program of Polymer and Color Chemistry, Department of Textile Engineering, Chemistry and Science, North Carolina State University, 1020 Main Campus Drive, Raleigh, NC, 27606, USA.
  • Obblivignes KanchanadeviVenkataraman
    Department of Computer Science, North Carolina State University, Raleigh, North Carolina 27606, United States.
  • Md Abul Shahid
    Molecular Analytics and Photonics (MAP) Lab, Department of Textile Engineering, Chemistry and Science, North Carolina State University, Raleigh, North Carolina 27606, United States.
  • Caroline Laplante
    Department of Molecular Biomedical Sciences, North Carolina State University, Raleigh, North Carolina 27607, United States.
  • Dongkuan Xu
    Department of Computer Science, North Carolina State University, Raleigh, North Carolina 27606, United States.
  • Ki-Hee Song
    Quantum Optics Research Division, Korea Atomic Energy Research Institute, Yuseong-gu, Daejeon 34057, Republic of Korea.
  • Yang Zhang
    Innovative Institute of Chinese Medicine and Pharmacy, Academy for Interdiscipline, Chengdu University of Traditional Chinese Medicine, Chengdu, China.

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