Cushion : Trypsin molecule F006 / 9634
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Trypsin molecule F006 / 9634
Trypsin molecule. Molecular model of the digestive protease enzyme trypsin. Trypsin is released by the pancreas to break down proteins into smaller chains of amino acids. It is released in an inactive form (trypsinogen) and converted to trypsin in the small intestine by the action of the enzyme enterokinase
Science Photo Library features Science and Medical images including photos and illustrations
Media ID 9256617
© LAGUNA DESIGN/SCIENCE PHOTO LIBRARY
Alpha Helix Beta Sheet Complex Digestion Digestive Enzyme Enzyme Inhibitor Pancreatic Protease Proteomics Strand Tertiary Structure Biochemical Biochemistry Cutouts Genetics Molecular Molecular Model Molecular Structure Protein
Cushion
Refresh your home decor with a beautiful full photo 16"x16" (40x40cm) cushion, complete with cushion pad insert. Printed on both sides and made from 100% polyester with a zipper on the bottom back edge of the cushion cover. Care Instructions: Warm machine wash, do not bleach, do not tumble dry. Warm iron inside out. Do not dry clean.
Accessorise your space with decorative, soft cushions
Estimated Product Size is 40cm x 40cm (15.7" x 15.7")
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 the intricate structure of the trypsin molecule, a vital digestive protease enzyme. The molecular model depicts the complex arrangement of amino acids that make up this essential protein-cleaving enzyme. Released by the pancreas, trypsin plays a crucial role in breaking down proteins into smaller chains of amino acids for efficient digestion. The image portrays the trypsin molecule against a clean white background, allowing viewers to focus on its detailed structure and composition. With its alpha helix and beta sheet formations, as well as its tertiary structure, this molecular marvel exemplifies the complexity and elegance found within biological systems. Notably, trypsin is initially released in an inactive form known as trypsinogen. It undergoes conversion into active trypsin through the action of enterokinase in the small intestine. This fascinating process highlights nature's precision in regulating enzymatic activity to ensure optimal digestion. With applications ranging from research to medicine, this artwork holds significant value for scientists exploring genetics, biochemistry, proteomics, and medical illustration. Furthermore, it serves as a reminder of our ever-growing understanding of biochemical processes at a molecular level. Presented by LAGUNA DESIGN/SCIENCE PHOTO LIBRARY without commercial intent or affiliation with any company involved; this stunning print offers both aesthetic appeal and educational insight into one of nature's remarkable creations – the trypsin molecule.
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