Abstract: A fluorescent probe comprising a compound represented as (Fluorophore A)-S-(Fluorophore B) (Fluorophore A and Fluorophore B are fluorophores which emit fluorescence when they are irradiated with an excitation light of a wavelength of 600 to 950 nm, Fluorophore A has a property that it shows change of fluorescence characteristic before and after a specific reaction with an substance to be measured, and S represents a spacer which connects Fluorophore A and Fluorophore B), which compound shows substantial change in efficiency of fluorescence resonance energy transfer between Fluorophore A and Fluorophore B before and after the specific reaction with the objective substance, wherein Fluorophore A is represented by the following formula (AI): which uses and shows an excitation light wavelength/fluorescence wavelength in the near infrared region, lights of which region show superior biological tissue permeability, and enables measurement of an substance to be measured by the ratio method.

Abstract: A fluorescent probe comprising a compound represented as (Fluorophore A)-S-(Fluorophore B) (Fluorophore A and Fluorophore B are fluorophores which emit fluorescence when they are irradiated with an excitation light of a wavelength of 600 to 950 nm, Fluorophore A has a property that it shows change of fluorescence characteristic before and after a specific reaction with an substance to be measured, and S represents a spacer which connects Fluorophore A and Fluorophore B), which compound shows substantial change in efficiency of fluorescence resonance energy transfer between Fluorophore A and Fluorophore B before and after the specific reaction with the objective substance, wherein Fluorophore A is represented by the following formula (AI): which uses and shows an excitation light wavelength/fluorescence wavelength in the near infrared region, lights of which region show superior biological tissue permeability, and enables measurement of an substance to be measured by the ratio method.