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Framed Print : Yeast protein interaction map
Framed Photos from Science Photo Library
Yeast protein interaction map
Yeast protein map showing relationships between proteins in the yeast Saccharomyces cerevisiae. Each dot represents one of the proteins found in this single-celled fungus. Lines link proteins that interact with each other. Proteins are colour-coded by the effect their removal has on the yeast: removal of red proteins was lethal, green was not lethal, orange caused slower growth and yellow had unknown effects. The proteins were removed by removing the gene that coded for their production. The more highly-connected proteins are more important for life. Work done by Jeong et al, at the University of Notre Dame, Indiana, USA
Science Photo Library features Science and Medical images including photos and illustrations
Media ID 6392027
© HAWOONG JEONG, UNIVERSITY OF NOTRE DAME/SCIENCE PHOTO LIBRARY
Bio Technology Cluster Connections Connectivity Engineering Fungus Genetic Genetic Engineering Life Linked Links Net Work Proteins Proteome Relationship Removal Saccharomyces Cerevisiae Single Celled Survival Us A Yeast Bio Chemistry Deletion Genetics Indiana Jeong Protein United States Of
30"x26" (78x68cm) Modern Frame
Discover the intricacies of cellular processes with our Media Storehouse Framed Prints featuring the captivating "Yeast Protein Interaction Map" by Science Photo Library. This stunning print showcases the complex web of relationships between proteins in the single-celled fungus Saccharomyces cerevisiae. Each dot represents a unique protein, offering a mesmerizing visual representation of the intricate network of interactions that drive yeast growth and metabolism. Bring this scientific masterpiece into your home or office to inspire curiosity and ignite conversations about the wonders of biology.
Wood effect frame, card mounted, 24x20 archival quality photo print. Overall outside dimensions 30x26 inches (76x68cm). Environmentally and ozone friendly, 43mm wide x 32mm Polycore® moulding has the look of real wood, is durable and light and easy to hang. Biodegradable and made with non-chlorinated gases (no toxic fumes) it is efficient; producing 100 tons of polystyrene can save 300 tons of trees! Prints are glazed with lightweight, shatterproof, optical clarity acrylic (providing the same general protection from the environment as glass). The back is stapled hardboard with a sawtooth hanger attached. Note: To minimise original artwork cropping, for optimum layout, and to ensure print is secure, the visible print may be marginally smaller
Contemporary Framed and Mounted Prints - Professionally Made and Ready to Hang
Estimated Image Size (if not cropped) is 59.9cm x 55.7cm (23.6" x 21.9")
Estimated Product Size is 78.2cm x 68.2cm (30.8" x 26.9")
These are individually made so all sizes are approximate
Artwork printed orientated as per the preview above, with landscape (horizontal) orientation to match the source image.
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EDITORS COMMENTS
This print showcases a yeast protein interaction map, providing a visual representation of the intricate relationships between proteins in the single-celled fungus Saccharomyces cerevisiae. Each dot represents one of the proteins found within this fascinating organism, while lines elegantly connect proteins that interact with each other. To further enhance our understanding, these proteins have been color-coded based on their effects when removed from the yeast. Lethal removal is represented by red dots, green signifies non-lethal removal, orange indicates slower growth upon removal, and yellow denotes unknown effects. The removal process involved eliminating the genes responsible for coding these proteins. The significance of this research lies in uncovering which proteins are vital for yeast survival and overall biological functioning. Highly-connected proteins within this network hold greater importance for sustaining life within the yeast cell. Conducted by Jeong et al at the esteemed University of Notre Dame in Indiana, USA, this groundbreaking work combines elements of biology, genetics, biochemistry, genetic engineering, and biotechnology to unravel the complexities of protein interactions within living organisms. This remarkable image not only highlights scientific progress but also serves as a testament to human ingenuity and our relentless pursuit of knowledge in unlocking nature's mysteries.
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