Jigsaw Puzzle : False colour TEM of a single neutrophil
Jigsaw Puzzles from Science Photo Library
False colour TEM of a single neutrophil
False-colour transmission electron micrograph (TEM) of a single neutrophil, the most common type of white blood cell. A prominent feature of a neutrophil is its multi-lobed nucleus (in red, green/yellow). A mature cell usually has five lobes, connected by fine strands of nuclear material. In the cytoplasm, spherical membrane- bound granules appear in red. Neutrophils have an important role in the acute inflammatory response to tissue damage, mobilising to engulf & clear-up cell debris & bacteria. Defunct neutrophils form the main component of pus. Magnification: x6, 750 at 6x7cm size, x3, 000 at 35mm size
Science Photo Library features Science and Medical images including photos and illustrations
Media ID 6446973
© CNRI/SCIENCE PHOTO LIBRARY PHOTO LIBRARY
Granulocyte Immune Neutrophil White Blood Cell Cells Polymorph
Jigsaw Puzzle (500 Pieces)
Discover the intricacies of the microscopic world with our Media Storehouse Jigsaw Puzzles. This puzzle, featuring a False-color Transmission Electron Micrograph (TEM) of a Single Neutrophil from Science Photo Library, offers a unique and educational puzzle experience. Witness the intricate details of this most common type of white blood cell, known for its multi-lobed nucleus, as you piece together the vibrant and captivating image. Engage your mind and challenge your problem-solving skills with this stunning scientific puzzle.
500 piece puzzles are custom made in the UK and hand-finished on 100% recycled 1.5 mm millboard. There is a level of repetition in jigsaw shapes with each matching piece away from its pair. The completed puzzle measures 38x50cm and is delivered packaged in an attractive presentation box specially designed to fit most letter box slots
Jigsaw Puzzles are an ideal gift for any occasion
Estimated Product Size is 50.2cm x 38cm (19.8" x 15")
These are individually made so all sizes are approximate
Artwork printed orientated as per the preview above, with landscape (horizontal) or portrait (vertical) orientation to match the source image.
EDITORS COMMENTS
This print showcases a false-color transmission electron micrograph (TEM) of a single neutrophil, the most prevalent type of white blood cell in our body. The image highlights the distinguishing characteristic of a neutrophil - its multi-lobed nucleus, depicted in vibrant shades of red and green/yellow. Typically, a mature neutrophil possesses five lobes interconnected by delicate strands of nuclear material. The cytoplasm surrounding the nucleus reveals spherical membrane-bound granules portrayed in striking red hues. These granules play a crucial role as they aid neutrophils in their vital function during acute inflammatory responses to tissue damage. When triggered, these remarkable cells mobilize swiftly to engulf and eliminate cellular debris and harmful bacteria from our system. Interestingly, defunct neutrophils constitute the primary component of pus formation when infections occur. This image provides an extraordinary glimpse into the intricate world within our bodies where these powerful defenders tirelessly combat threats to maintain our health. With magnification levels reaching x6,750 at 6x7cm size or x3,000 at 35mm size, this photograph captures the stunning details that lie hidden beneath the surface. Its scientific significance lies not only in understanding human anatomy but also shedding light on immune response mechanisms involving white blood cells like neutrophils – true heroes safeguarding us from harm's way.
MADE IN THE UK
Safe Shipping with 30 Day Money Back Guarantee
FREE PERSONALISATION*
We are proud to offer a range of customisation features including Personalised Captions, Color Filters and Picture Zoom Tools
SECURE PAYMENTS
We happily accept a wide range of payment options so you can pay for the things you need in the way that is most convenient for you
* Options may vary by product and licensing agreement. Zoomed Pictures can be adjusted in the Basket.