Details

Autor(en) / Beteiligte

• Fujiwara, Takahiro K
• Takeuchi, Shinji
• Kalay, Ziya
• Nagai, Yosuke
• Tsunoyama, Taka A
• Kalkbrenner, Thomas
• Iwasawa, Kokoro
• Ritchie, Ken P
• Suzuki, Kenichi G N
• Kusumi, Akihiro

Titel

Development of ultrafast camera-based single fluorescent-molecule imaging for cell biology

Ist Teil von

• The Journal of cell biology, 2023-08, Vol.222 (8), p.1

Ort / Verlag

United States: Rockefeller University Press

Erscheinungsjahr

2023

Quelle

EZB-FREE-00999 freely available EZB journals

Beschreibungen/Notizen

• The spatial resolution of fluorescence microscopy has recently been greatly enhanced. However, improvements in temporal resolution have been limited, despite their importance for examining living cells. Here, we developed an ultrafast camera system that enables the highest time resolutions in single fluorescent-molecule imaging to date, which were photon-limited by fluorophore photophysics: 33 and 100 µs with single-molecule localization precisions of 34 and 20 nm, respectively, for Cy3, the optimal fluorophore we identified. Using theoretical frameworks developed for the analysis of single-molecule trajectories in the plasma membrane (PM), this camera successfully detected fast hop diffusion of membrane molecules in the PM, previously detectable only in the apical PM using less preferable 40-nm gold probes, thus helping to elucidate the principles governing the PM organization and molecular dynamics. Furthermore, as described in the companion paper, this camera allows simultaneous data acquisitions for PALM/dSTORM at as fast as 1 kHz, with 29/19 nm localization precisions in the 640 × 640 pixel view-field.