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Bright and photostable yellow fluorescent proteins for extended imaging

Author

Listed:
  • Jihwan Lee

    (Baylor College of Medicine)

  • Shujuan Lai

    (Baylor College of Medicine)

  • Shuyuan Yang

    (Rice University)

  • Shiqun Zhao

    (Peking University)

  • Francisco A. Blanco

    (Baylor College of Medicine
    Baylor College of Medicine)

  • Anne C. Lyons

    (University of California San Diego
    University of California San Diego)

  • Raquel Merino-Urteaga

    (Boston Children’s Hospital
    Johns Hopkins University)

  • John F. Ahrens

    (Rice University
    Northwestern University)

  • Nathan A. Nguyen

    (Rice University)

  • Haixin Liu

    (Baylor College of Medicine)

  • Zhuohe Liu

    (Baylor College of Medicine
    University of Texas MD Anderson Cancer Center)

  • Gerard G. Lambert

    (University of California San Diego School of Medicine)

  • Nathan C. Shaner

    (University of California San Diego
    University of California San Diego School of Medicine)

  • Liangyi Chen

    (Peking University
    PKU-IDG/McGovern Institute for Brain Research)

  • Kimberley F. Tolias

    (Baylor College of Medicine
    Baylor College of Medicine)

  • Jin Zhang

    (University of California San Diego
    University of California San Diego
    San Diego
    San Diego)

  • Taekjip Ha

    (Boston Children’s Hospital
    Harvard Medical School)

  • François St-Pierre

    (Baylor College of Medicine
    Baylor College of Medicine
    Rice University)

Abstract

Fluorescent proteins are indispensable molecular tools for visualizing biological structures and processes, but their limited photostability restricts the duration of dynamic imaging experiments. Yellow fluorescent proteins (YFPs), in particular, photobleach rapidly. Here, we introduce mGold2s and mGold2t, YFPs with up to 25-fold greater photostability than mVenus and mCitrine, two commonly used YFPs, while maintaining comparable brightness. These variants were identified using a high-throughput pooled single-cell platform, simultaneously screening for high brightness and photostability. Compared with our previous benchmark, mGold, the mGold2 variants display a ~4-fold increase in photostability without sacrificing brightness. mGold2s and mGold2t extend imaging durations across diverse modalities, including widefield, total internal reflection fluorescence (TIRF), super-resolution, single-molecule, and laser-scanning confocal microscopy. When incorporated into fluorescence resonance energy transfer (FRET)-based biosensors, the proposed YFPs enable more reliable, prolonged imaging of dynamic cellular processes. Overall, the enhanced photostability of mGold2s and mGold2t enables high-sensitivity imaging of subcellular structures and cellular activity over extended periods, broadening the scope and precision of biological imaging.

Suggested Citation

  • Jihwan Lee & Shujuan Lai & Shuyuan Yang & Shiqun Zhao & Francisco A. Blanco & Anne C. Lyons & Raquel Merino-Urteaga & John F. Ahrens & Nathan A. Nguyen & Haixin Liu & Zhuohe Liu & Gerard G. Lambert & , 2025. "Bright and photostable yellow fluorescent proteins for extended imaging," Nature Communications, Nature, vol. 16(1), pages 1-16, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-58223-5
    DOI: 10.1038/s41467-025-58223-5
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