Abstract: A method of fluorescence measurement on analytes, marked with different fluorescent markers, which have spectrally different fluorescence emissions, in a sample is described, having the following steps: illumination of the sample in the measurement volume using a laser to excite the fluorescence emission of the at least two fluorescent markers, the illumination of the measurement volume being performed with a maximum of one single laser line, having an excitation intensity sufficiently high that the fluorescent markers are jointly excited through 2-photon absorptions, detection of the fluorescence emission using at least two detector devices which are designed for light detection in different spectral ranges in accordance with the spectral fluorescence properties of the fluorescent markers, and performance of a cross-correlation and/or coincidence analysis of detector signals of the detector devices. A measurement device for performing the method is also described.

Abstract: The invention concerns an autofluorescent fusion protein suitable for use as a protease substrate, a nucleic acid sequence which encodes this fusion protein, and a method of using the fusion protein and/or the nucleic acid sequence in a dual color, confocal fluorometric assay for the detection and quantification of proteolytic activity or proteolytic inhibitory activity in samples or cells.

Abstract: A method of fluorescence measurement on analytes, marked with different fluorescent markers, which have spectrally different fluorescence emissions, in a sample is described, having the following steps: illumination of the sample in the measurement volume using a laser to excite the fluorescence emission of the at least two fluorescent markers, the illumination of the measurement volume being performed with a maximum of one single laser line, having an excitation intensity sufficiently high that the fluorescent markers are jointly excited through 2-photon absorptions, detection of the fluorescence emission using at least two detector devices which are designed for light detection in different spectral ranges in accordance with the spectral fluorescence properties of the fluorescent markers, and performance of a cross-correlation and/or coincidence analysis of detector signals of the detector devices. A measurement device for performing the method is also described.

Abstract: The invention concerns an autofluorescent fusion protein suitable for use as a protease substrate, a nucleic acid sequence which encodes this fusion protein, and a method of using the fusion protein and/or the nucleic acid sequence in a dual color, confocal fluorometric assay for the detection and quantification of proteolytic activity or proteolytic inhibitory activity in samples or cells.

Abstract: The invention relates to a method for detecting reactions and conformational changes of analytes in a sample by coincidence analysis, as follows: the sample is marked with at least two different fluorescent dyes and then illuminated with at least one laser in order to stimulate the emission of fluorescence; the fluorescence signals are detected by at least two detection units and each signal is broken down into any simultaneous time segments with the desired time slot widths; the number of signals contained in at least one time segment and/or the time intervals between signals in the time segments are detected; a coincidence analysis of the data detected is carried out for at least one time segment of the first detection unit with at least one isochronous time segment of the second detection unit; statistics are produced showing the results of the coincidence analysis and/or the results are subjected to a threshold value analysis, and these statistics or a combination of more statistics are evaluated for the