Multiphoton excitation cross-sections of molecular fluorophores

Chris Xu, R M Williams, Warren Zipfel, Watt W Webb
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引用次数: 156

Abstract

Nonlinear excitation of fluorophores through molecular absorption of two or three near-infra-red photons from the tightly focused femtosecond pulses of a mode-locked laser offers the cellular biologist an unprecedented panoply of biomolecular indicators for microscopic imaging and cellular analysis. Measurements of the two-photon excitation spectra of 25 ultra-violet and visible absorbing fluorophores from 690 to 1050 nm reveal useful cross sections for near infra-red excitation, providing an artist's palette of emission markers, chemical indicators, and native cellular absorbers for living biological preparations. Measurements of three-photon fluorophore excitation spectra now suggest relatively benign wavelengths to excite deeper UV fluorophores. The inherent optical sectioning capabilities of focused nonlinear excitation provides three-dimensional resolution for imaging and avoids out-of-focus background. Measured nonlinear excitation spectra are described and implications to nonlinear microscopy for biological imaging are defined.

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分子荧光团的多光子激发截面
通过分子吸收锁模激光的紧密聚焦飞秒脉冲中的两到三个近红外光子来非线性激发荧光团,为细胞生物学家提供了一套前所未有的用于显微镜成像和细胞分析的生物分子指示剂。对690至1050nm的25个紫外线和可见光吸收荧光团的双光子激发光谱的测量揭示了近红外激发的有用横截面,为活体生物制剂提供了发射标记、化学指示剂和天然细胞吸收剂的艺术家调色板。三光子荧光团激发光谱的测量现在表明相对温和的波长可以激发更深的UV荧光团。聚焦非线性激发的固有光学切片能力为成像提供了三维分辨率,并避免了失焦背景。描述了测量的非线性激发光谱,并定义了非线性显微镜在生物成像中的意义。
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