Fluorescent Collection (page 8)

Brain cells, light micrograph
Brain cells. Fluorescence light micrograph of activated microglial cells (stained for membrane co-factor protein, yellow) and oligodendrocytes (stained for myelin basic protein, red)

Lung cells, fluorescent micrograph
Lung cells. Immunofluorescence light micrograph of pulmonary endothelial cells. Endothelial cells are specialized epithelial cells that line the inner surface of blood vessels

Jellyfish

Oscillatoria cyanobacteria, dark field LM
Oscillatoria animalis cyanobacteria, dark field light micrograph. The genus name for this cyanobacterium comes from the movement it makes as it orientates itself to the brightest light source

Fluorescent light bulb powder, SEM
Fluorescent light bulb powder. Coloured scanning electron micrograph (SEM) of grains of a phosphor powder used to coat the inside of a fluorescent light bulb. It is this powder that emits the light

United Kingdom passport under UV light
United Kingdom passport under ultraviolet (UV) light. Close up of passport design under UV light revealing invisible fluorescent ink

Passport in UV light. Close up photo of a biodata page from a UK passport. This page is printed with invisible inks that fluoresce strongly under ultraviolet (UV) light

Movement of Listeria bacteria
Movement of Listeria sp. bacteria. Immunofluorescence deconvolution micrograph showing the comet-like tails that help to propel Listeria sp. bacteria from cell to cell during an infection

Actin tail, fluorescent micrograph
Actin tail. Immunofluorescence deconvolution micrograph of a close-up of an actin filament (green) in a cell infected with vaccinia virus particles

Vaccinia virus infected cell. Immunofluorescence deconvolution micrograph of a cell infected with vaccinia virus particles. Host and viral DNA (deoxyribonucleic acid) is blue

E. coli infection mechanism. Immunofluorescence deconvolution micrograph of Escherichia coli bacteria (centre). Bacterial DNA (deoxyribonucleic acid) is blue

Fibroblast cells, fluorescent micrograph
Fibroblast cells. Immunofluorescence deconvolution micrograph of fibroblast cells. The cell nuclei, which contain the cells genetic information, are blue

Confocal microscope, artwork
Confocal light microscope, artwork. Confocal microscopy uses fluorescent dyes to highlight tissues, cellular structures and proteins in the samples being analysed

Rod-shaped bacterium, artwork
Rod-shaped bacterium, computer artwork. Typical rod-shaped bacteria (bacilli) are Escherichia coli and Salmonella bacteria, but there are many others

Cytoskeleton, confocal light micrograph. Tubulin, the protein that makes up microtubules, is blue. Microtubules are part of the cytoskeleton, which maintains the cells shape

Brain blood supply, confocal micrograph
Brain blood supply. Confocal light micrograph of the superficial vasculature of the cerebral cortex. The blood vessels carry oxygen to the brain tissue and remove carbon dioxide

E. coli and Shigella sp. bacteria. Fluorescence confocal light micrograph of Escherichia coli and Shigella sp. bacteria (blue) in human Caco-2 cells (green)

Spirogyra algae
Spirogyra algal strand. Confocal light micrograph of a filament of Spirogyra sp. green algae. This alga forms slimy threads called " water-silk" or " mermaids tresses" in stagnant

Fluorescing tubeworms, Red Sea, Egypt. These Indian tubeworms (Sabellastarte indica) fluoresce orange and pink under blue light

Light bulb recycling, conceptual image. Recycling symbol on a light bulb. This represents environmental issues such as the use of energy-efficient fluorescent light bulbs

Shoppers at a Grocery Store
Elderly shoppers at a Grocery Store

Television in the comfort of your own home
The latest type of home receiver for vision and sound, with a fluorescent screen 8 by 6 inches, displaying a picture of Mickey Mouse

Polaroid of colourful stripes created by coloured fluorescent tubes, Point Hotel, Edinburgh, Scotland, United Kingdom, Europe

Yokohama Street Scene
Street scene : the picturesque banners have probably been replaced with flashing fluorescent signs today, but no doubt the scene is just as colourful

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"Unveiling the Vibrant World of Fluorescent Cell Imaging: From Cerebellum Tissue to Dividing Cells" Illuminating the intricate beauty within our brains, a light micrograph reveals the mesmerizing patterns of cerebellum tissue. Dive into the microscopic realm as glial cells come alive under a confocal light micrograph, showcasing their fluorescent brilliance. HeLa cells take center stage in this captivating light micrograph (C017 / 8299), displaying their striking fluorescence and cellular structure. Witness another stunning view of HeLa cells (C017 / 8298) through a microscope lens, where their vibrant hues reveal hidden secrets within. Journey into the cerebral cortex and marvel at its nerve cells' fluorescent glow, illuminating the complexity of our brain's architecture. Witness the miracle of life itself as cell division unfolds before your eyes in this breathtaking fluorescent micrograph. Returning to explore cerebellum tissue once more, a light micrograph captures its ethereal essence with radiant colors dancing across each frame. The Metropolitan Police launch on the River Thames may seem unrelated but shares an unexpected connection - fluorescence can be found everywhere. Behold nature's perpetual cycle as dividing cells showcase their vivid fluorescence in yet another awe-inspiring image captured by microscopy techniques. Intriguing and visually stunning, these fluorescent hints offer glimpses into various aspects of cellular biology and beyond – from delicate tissues to bustling cityscapes – reminding us that even at microscopic levels, there is beauty all around us waiting to be discovered.