Jingwen Shou, Ayumi Komazawa, Yuusaku Wachi, Minoru Kawatani, Hiroyoshi Fujioka, Spencer John Spratt, Takaha Mizuguchi, Kenichi Oguchi, Hikaru Akaboshi, Fumiaki Obata, Ryo Tachibana, Shun Yasunaga, Yoshio Mita, Yoshihiro Misawa, Ryosuke Kojima, Yasuteru Urano, Mako Kamiya, Yasuyuki Ozeki (2023) Super-resolution vibrational imaging based on photoswitchable Raman probe., Science advances, Volume 9, Number 24, pp. eade9118
Published in 2023 Jun 16 (Electronic publication in June 16, 2023, midnight )
(Abstract) Super-resolution vibrational microscopy is promising to increase the degree of multiplexing of nanometer-scale biological imaging because of the narrower spectral linewidth of molecular vibration compared to fluorescence. However, current techniques of super-resolution vibrational microscopy suffer from various limitations including the need for cell fixation, high power loading, or complicated detection schemes. Here, we present reversible saturable optical Raman transitions (RESORT) microscopy, which overcomes these limitations by using photoswitchable stimulated Raman scattering (SRS). We first describe a bright photoswitchable Raman probe (DAE620) and validate its signal activation and depletion characteristics when exposed to low-power (microwatt level) continuous-wave laser light. By harnessing the SRS signal depletion of DAE620 through a donut-shaped beam, we demonstrate super-resolution vibrational imaging of mammalian cells with excellent chemical specificity and spatial resolution beyond the optical diffraction limit. Our results indicate RESORT microscopy to be an effective tool with high potential for multiplexed super-resolution imaging of live cells.(MeSH Terms)