5 μl, 1 μl,

2 μl, and 4 μl) DMSO solution of 100 mM NHS-d

5 μl, 1 μl,

2 μl, and 4 μl) DMSO solution of 100 mM NHS-dPEG12-biotin. 100 μl of the suspension was kept for auto fluorescence reference. The cells in each tube were washed with 150 μl of PBS buffer three times, suspended in 20 μl of PBS and supplemented with 15 μl of 5 μM AV – Probe 1-Eu3+. After incubation at room temperature for 20 min, the cells were washed with 100 μl of PBS buffer and suspended in 50 μl of the same buffer. One microliter of Poly-l-lysine was spread onto a fused silica microscope substrate into an area of 0.3 cm2 and removed. One microliter of the cell suspension of labeled cells (E. coli or CHO cells) containing 109–1010 cells cm−3 in PBS buffer was spread into the same area and left to air dry for 15 min. Excitation and emission fluorescence spectra in the continuous excitation mode were recorded using QuantaMaster 1 (Photon Technology International) digital fluorometer at ambient temperature. Time-resolved MDV3100 solubility dmso and gated luminescence KPT-330 concentration measurements were performed using the previously described home-built experimental set-up [13]. A Hacker Instruments Zetopan microscope was equipped with an ICCD Camera (PI-MAX, Princeton Instruments). In the experiments, the images were taken in luminescence light using evanescent wave excitation at 351 nm as well as in scattered light using standard top illumination by xenon lamp. In the evanescent excitation, a right angle fused silica prism was illuminated

with laser light (351 nm) from a XeF laser (OPTEX, Lambda Physik). The sample was located on the hypotenuse side of the prism positioned horizontally. Images taken in scattered light from a xenon lamp were taken before and after Org 27569 the luminescent images collected in the photon counting mode. Online thresholding mode was used to discriminate photon pulses from the readout noise as well as the “cosmic events”. The 1024 × 1024 camera pixels were 8 × 8 binned resulting in 128 × 128 pixel2 images.

The microscope used an objective with the magnification of ×56 and the numerical aperture of 0.90. Combined with the intermediate “ocular” lens with the magnification of ×10 it provided the field of view of 14 × 14 μm2. In some experiments, an ×5 intermediate “ocular” lens was used resulting in the 28 × 28 μm2 field of view. The cells labeled with avidin carrying multiple probes (Probe 1-Eu3+ and Probe 4-Tb3+) were placed on the hypotenuse side of the prism mounted at the microscope base. The excitation of probes occurred in the evanescent wave by laser light totally internally reflected from the hypotenuse side inside the prism. The probes with Eu3+ have emission lifetime of ca. 0.5 ms, while the probes with Tb3+ have emission lifetime of ca. 1.5 ms. Therefore, for samples labeled with Eu3+ probes we used a gate width of 1 ms and the gate delay of 50 μs and for samples labeled with Tb3+ probes 2 ms gate width and 100 μs gate delay were used.

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