Aleksi E. Soini scite author profile

We show experiments proving the feasibility of scanning fluorescence microscopy by three-photon excitation. Three-photon excitation fluorescence axial images are shown of polystyrene beads stained with the fluorophore 2,5-bis(4-biphenyl)oxazole (BBO). Three-photon excitation is performed at an excitation wavelength of 900 nm and with pulses of 130 fs duration provided by a mode-locked titanium-sapphire laser. Fluorescence is collected between 350 and 450 nm. The fluorescence image signal features a third-order dependence on the excitation power, also providing intrinsic 3-D imaging. The resolution of a three-photon excitation microscope is increased over that of a comparable two-photon excitation microscope.

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Fluorescence-Based Cell Viability Screening Assays Using Water-Soluble Oxygen Probes

Hynes

Floyd

Soini³

et al. 2003

SLAS Discovery

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A simple luminescence-based assay for screening the viability of mammalian cells is described, based on the monitoring of cell respiration by means of a phosphorescent water-soluble oxygen probe that responds to changes in the concentration of dissolved oxygen by changing its emission intensity and lifetime. The probe was added at low concentrations (0.3 microM to 0.5 nM) to each sample containing a culture of cells in the wells of a standard 96-well plate. Analysis of oxygen consumption was initiated by applying a layer of mineral oil on top of each sample followed by monitoring of the phosphorescent signal on a prompt or time-resolved fluorescence plate reader. Rates of oxygen uptake could be determined on the basis of kinetic changes of the phosphorescence (initial slopes) and correlated with cell numbers (10(5) to 10(7) cells/mL for FL5.12 lymphoblastic cell line), cell viability, or drug/effector action using appropriate control samples. The assay is cell noninvasive, more simple, robust, and cost-effective than existing microplate-based cell viability assays; is compatible with existing instrumentation; and allows for high-throughput analysis of cell viability.

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A new microvolume technique for bioaffinity assays using two-photon excitation

et al. 2000

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Bioaffinity binding assays such as the immunoassay are widely used in life science research. In an immunoassay, specific antibodies are used to bind target molecules in the sample, and quantification of the binding reaction reveals the amount of the target molecules. Here we present a method to measure bioaffinity assays using the two-photon excitation of fluorescence. In this method, microparticles are used as solid phase in binding the target molecules. The degree of binding is then quantified from individual microparticles by use of two photon excitation of fluorescence. We demonstrated the effectiveness of the method using the human alpha-fetoprotein (AFP) immunoassay, which is used to detect fetal disorders. The sensitivity and dynamic range we obtained with this assay indicate that this method can provide a cost-effective and simple way to measure various biomolecules in solution for research and clinical applications.

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A new technique for multiparameter imaging microscopy: Use of long decay time photoluminescent labels enables multiple color immunocytochemistry with low channel‐to‐channel crosstalk

Soini

Kuusisto

Meltola

et al. 2003

Microscopy Res & Technique

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In this report, we describe luminescence imaging microscopy using five different photoluminescent dyes in a single specimen. We combined the long decay time luminophores, europium(III) chelate, terbium(III) chelate, palladium(II) coproporphyrin, and platinum(II) coproporphyrin, with a green nuclear stain, Syto 25 trade mark, that emits conventional fast decaying fluorescence. The luminescence emissions from the five different luminophores were separated from each other by the differences in spectra and decay times using time-resolved detection. Applicability of this dye-combination for multiparameter analysis of a biological object was verified in a mixed population of peripheral blood leukocytes. Leukocyte cytocentrifugates were incubated in one step with a cocktail of luminophore-conjugated antibodies recognizing neutrophil- and lymphocyte-specific markers, followed by rapid staining with a mixture of nuclear stain and Pt-porphyrin as an eosinophil stain. The results show that multiple luminescent dyes with long decay time can be used together, and in combination with a conventional fluorophore. The separation of the signals of the long decay time labels was distinctive and enabled reliable identification of different leukocyte types, as well as an automated cell count. The long decay time luminophores together with time-resolved luminescence imaging microscopy (TR-LIM) provide a unique tool for studies of simultaneous expression of multiple antigens at the level of a single cell. In comparison with other multiparameter imaging techniques, the described technique offers increased accuracy of results, simplification of preparation procedure, and dramatic shortening of the total processing time. To our knowledge, this is the first time that simultaneous fivefold labeling/staining and analysis in a single specimen has been performed in the field of immunocytochemistry.

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Monofunctional Derivatives of Coproporphyrins for Phosphorescent Labeling of Proteins and Binding Assays

O’Riordan

Soini

Papkovsky

2001

Analytical Biochemistry

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Aleksi E. Soini

Three-photon excitation in fluorescence microscopy

Fluorescence-Based Cell Viability Screening Assays Using Water-Soluble Oxygen Probes

A new microvolume technique for bioaffinity assays using two-photon excitation

A new technique for multiparameter imaging microscopy: Use of long decay time photoluminescent labels enables multiple color immunocytochemistry with low channel‐to‐channel crosstalk

Monofunctional Derivatives of Coproporphyrins for Phosphorescent Labeling of Proteins and Binding Assays

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