Cover Picture: J. Biophotonics 3/2011

## Abstract Fluorescence images of two sides of slabs from pig hearts. Photographs of the samples are above the images. Excitation, 635 nm. Dotted lines contour the areas in which the intensities at each pixel were averaged and the plotted versus the FM concentration. (Picture: E. Gussakowsky et a

## Abstract Application of green‐to‐red photoconvertible EosFP and its variants in live‐cell experiments. Cell fate mapping using EosFP injected into developing __Xenopus__ embryos (first row). Protein tracking at 37 °C using the tubulinbinding protein RITA fused to mEosFPthermo (second row). Pulse

## Abstract An example of __Pallasea cancelloides__ – benthic Baikal amphipod employed for the studies of stress conditions. (Picture: D.V. Axenov‐Gribanov et al., pp. 619–626 in this issue)

## Abstract Surface Enhanced Raman Spectroscopy or SERS has come a long way since its discovery in the 70's. The recent advances in the nanotechnology have brought SERS closer to the clinical field. Images shown represent a variety of SERS‐active nanostructures and their preclinical and clinical ap

## Abstract Second harmonic generation (green) and two‐photon autofluorescence (red) allow simultaneous visualization of the collagen and myocyte components of stem‐cell treated infarcted rat myocardium. (Picture: M. A. Wallenburg et al., pp. 297–304 in this issue)

## Abstract Development of the posterior lateral line in a zebrafish embryo. Upper row: embryo 30 hpf, showing the migrating primordium and a deposited proneuromast. Second row, left: higher magnification image of a primordium (right) and proneuromast (left), visualized with membrane‐tagged eGFP. S