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  • Axons in living embryo, confocal image.
  • Neuroblasts in developing embryo, confocal image
  • Confocal micrograph of Arabidopsis thaliana seedling
  • Confocal micrograph of Arabidopsis thaliana seedling
  • Confocal micrograph of Arabidopsis thaliana seedling
  • Neural tube in chick embryo, confocal
  • Confocal image of neurone + dendrites, BW
  • Ruptured tendon - confocal image - coloured
  • Movie of calcium waves during apoptosis, confocal
  • Confocal image of bone growth in culture.
  • Caspase activity in a normal cell, confocal micrograph
  • COS-7 cell, confocal and supre resolution microscopy
  • Section through neural tube of chick embryo, confocal
  • Confocal image of an eye-antennal disc from a
  • Calcium wave induced by touch. Image made using Zeiss 510 confocal microscope.
  • Confocal micrograph of Bacillus subtilis. Bacillus subtilis is a Gram-positive, rod-shaped bacterium, commonly found in soil. Fluorescent proteins (TagRFP-T, sfGFP, TagBFP, mKate2 and mOrange2), time-lapse confocal microscopy and biophysical models are being used to understand the organization of bacterial biofilms.
  • Confocal micrograph of Bacillus subtilis. Bacillus subtilis is a Gram-positive, rod-shaped bacterium, commonly found in soil. Fluorescent proteins (TagRFP-T, sfGFP, TagBFP, mKate2 and mOrange2), time-lapse confocal microscopy and biophysical models are being used to understand the organization of bacterial biofilms.
  • Confocal micrograph of Bacillus subtilis. Bacillus subtilis is a Gram-positive, rod-shaped bacterium, commonly found in soil. Fluorescent proteins (TagRFP-T, sfGFP, TagBFP, mKate2 and mOrange2), time-lapse confocal microscopy and biophysical models are being used to understand the organization of bacterial biofilms.
  • Confocal micrograph of Bacillus subtilis. Bacillus subtilis is a Gram-positive, rod-shaped bacterium, commonly found in soil. Fluorescent proteins (TagRFP-T, sfGFP, TagBFP, mKate2 and mOrange2), time-lapse confocal microscopy and biophysical models are being used to understand the organization of bacterial biofilms.
  • Confocal micrograph of Bacillus subtilis. Bacillus subtilis is a Gram-positive, rod-shaped bacterium, commonly found in soil. Fluorescent proteins (TagRFP-T, sfGFP, TagBFP, mKate2 and mOrange2), time-lapse confocal microscopy and biophysical models are being used to understand the organization of bacterial biofilms.
  • Confocal micrograph of Bacillus subtilis. Bacillus subtilis is a Gram-positive, rod-shaped bacterium, commonly found in soil. Fluorescent proteins (TagRFP-T, sfGFP, TagBFP, mKate2 and mOrange2), time-lapse confocal microscopy and biophysical models are being used to understand the organization of bacterial biofilms.
  • Confocal micrograph of Bacillus subtilis. Bacillus subtilis is a Gram-positive, rod-shaped bacterium, commonly found in soil. Fluorescent proteins (TagRFP-T, sfGFP, TagBFP, mKate2 and mOrange2), time-lapse confocal microscopy and biophysical models are being used to understand the organization of bacterial biofilms.
  • Confocal micrograph of Bacillus subtilis. Bacillus subtilis is a Gram-positive, rod-shaped bacterium, commonly found in soil. Fluorescent proteins (TagRFP-T, sfGFP, TagBFP, mKate2 and mOrange2), time-lapse confocal microscopy and biophysical models are being used to understand the organization of bacterial biofilms.
  • Confocal micrograph of Bacillus subtilis. Bacillus subtilis is a Gram-positive, rod-shaped bacterium, commonly found in soil. Fluorescent proteins (TagRFP-T, sfGFP, TagBFP, mKate2 and mOrange2), time-lapse confocal microscopy and biophysical models are being used to understand the organization of bacterial biofilms.
  • Confocal micrograph of Bacillus subtilis. Bacillus subtilis is a Gram-positive, rod-shaped bacterium, commonly found in soil. Fluorescent proteins (TagRFP-T, sfGFP, TagBFP, mKate2 and mOrange2), time-lapse confocal microscopy and biophysical models are being used to understand the organization of bacterial biofilms.
  • Dopaminergic neurons in the zebrafish forebrain. Confocal micrograph of a 4 day old transgenic zebrafish embryo viewed from a lateral aspect. Neurons in the olfactory bulb, telencepahlon, ventral diencephalon, pretectum and hypothalamus are labelled in green. Axonal tracts are shown in cyan and neuropil in magenta. In order to show the anatomy of the brain better the skin and eyes of the embryo have been removed post-fixation.
  • Branching blood vessels in the retina
  • Retinal capillary bed with nuclei
  • Human melanoma cell dividing
  • Retinal blood vessels with nuclei