Metal Print : E. coli infection mechanism
Metal Prints From Science Photo Library
E. coli infection mechanism
E. coli infection mechanism. Immunofluorescence deconvolution micrograph of Escherichia coli bacteria (centre). Bacterial DNA (deoxyribonucleic acid) is blue. Actin protein filaments, which make up part of the cytoskeleton, are green. Here the actin filaments are causing protrusions on the cells membranes known as pedestals, which help this pathogenic bacteria to attach to intestinal cells. The pedestals cannot be formed without the presence of the host cell protein tyrosine kinase Abl2, which is red
Science Photo Library features Science and Medical images including photos and illustrations
Media ID 6307379
© DR DAN KALMAN/SCIENCE PHOTO LIBRARY
Actin Bacteria Bacterial Bacterium Confocal Micrograph Cytoskeleton Deconvolution E Coli Escherichia Coli Filament Filaments Fluorescent Immunofluorescence Immunofluorescent Infection Pathological Pathology Pedestal Protrusions Stain Stained Bio Chemistry Biochemical Cells Deoxyribonucleic Acid Light Micrograph Light Microscope Micro Biology Microbiological Pathogen Pedestals Protein
16"x20" (51x41cm) Metal Print
Discover the intricacies of microbiology with our Media Storehouse Metal Prints featuring the E. coli infection mechanism. This captivating image, sourced from Science Photo Library, showcases an immunofluorescence deconvolution micrograph of Escherichia coli bacteria. Witness the centerpiece of the image as the bacteria comes to life in vibrant detail, with bacterial DNA highlighted in an illuminating blue hue. Our premium metal prints bring a unique and modern touch to your space, while showcasing the beauty and complexity of scientific discoveries. Order yours today and bring the wonders of science into your home or office.
Made with durable metal and luxurious printing techniques, our metal photo prints go beyond traditional canvases, adding a cool, modern touch to your space. Wall mount on back. Eco-friendly 100% post-consumer recycled ChromaLuxe aluminum surface. The thickness of the print is 0.045". Featuring a Scratch-resistant surface and Rounded corners. Backing hangers are attached to the back of the print and float the print 1/2-inch off the wall when hung, the choice of hanger may vary depending on size and International orders will come with Float Mount hangers only. Finished with a brilliant white high gloss surface for unsurpassed detail and vibrance. Printed using Dye-Sublimation and for best care we recommend a non-ammonia glass cleaner, water, or isopropyl (rubbing) alcohol to prevent harming the print surface. We recommend using a clean, lint-free cloth to wipe off the print. The ultra-hard surface is scratch-resistant, waterproof and weatherproof. Avoid direct sunlight exposure.
Made with durable metal and luxurious printing techniques, metal prints bring images to life and add a modern touch to any space
Estimated Image Size (if not cropped) is 40.6cm x 50.8cm (16" x 20")
Estimated Product Size is 41.2cm x 51.4cm (16.2" x 20.2")
These are individually made so all sizes are approximate
Artwork printed orientated as per the preview above, with portrait (vertical) orientation to match the source image.
EDITORS COMMENTS
This print from Science Photo Library showcases the intricate mechanism behind an E. coli infection. In this immunofluorescence deconvolution micrograph, Escherichia coli bacteria take center stage, their presence highlighted by a striking blue hue representing their DNA. The green actin protein filaments, which form part of the cytoskeleton, add another layer of complexity to the image. What makes this image truly fascinating is the formation of pedestals on cell membranes caused by these actin filaments. These protrusions play a crucial role in enabling pathogenic bacteria like E. coli to attach themselves to intestinal cells and initiate infection. However, what sets this process apart is that these pedestals cannot be formed without the involvement of host cell protein tyrosine kinase Abl2 - depicted here in vibrant red. The combination of various staining techniques and fluorescent dyes has allowed scientists to capture this momentous interaction between bacterial pathogens and host cells with remarkable precision using light microscopy methods. This photograph not only highlights the beauty within biological processes but also serves as a valuable resource for researchers studying pathology, microbiology, biochemistry, and beyond. Science Photo Library continues its tradition of providing awe-inspiring visuals that bridge artistry and scientific discovery through images like this one – offering us a glimpse into the microscopic world where life's most intricate battles unfold before our eyes.
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