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Plant anion channel protein homologue C016 / 2555
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Science Photo Library Photo Prints and Wall Art
Plant anion channel protein homologue C016 / 2555
Plant anion channel protein homologue, molecular model. Obtained from the bacterium Haemophilus influenzae, this anion channel protein (TehA) is being studied due to its common structure (homologue) with the plant slow anion channel protein SLAC1. The SLAC1 anion channel controls turgor pressure in the guard cells of plant stomata, thus playing a key role in the exchange of water and gases between the plant and the external environment. SLAC1 is a symmetrical trimer that forms a central five-helix transmembrane pore. Science Photo Library features Science and Medical images including photos and illustrations. © LAGUNA DESIGN/SCIENCE PHOTO LIBRARY
Media ID 9202395
Bacterial Biomolecule Graphic Guard Cell Haemophilus Influenzae Ion Channel Macromolecule Molecular Biology Molecules Plant Physiology Proteins Proteomics Respiration Stoma Stomata Structural Symmetrical Transpiration Trimer Biochemical Biochemistry Cutouts Deoxyribonucleic Acid Molecular Model Molecular Structure Protein
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This print showcases the molecular model of the plant anion channel protein homologue C016/2555. Derived from the bacterium Haemophilus influenzae, this particular anion channel protein (TehA) has gained significant attention due to its striking resemblance (homologue) with the plant slow anion channel protein SLAC1. SLAC1, a symmetrical trimer depicted in this artwork, plays a crucial role in regulating turgor pressure within the guard cells of plant stomata. By controlling water and gas exchange between plants and their external environment, SLAC1 acts as a key player in maintaining proper respiration and overall plant physiology. The white background beautifully accentuates the intricate details of this botanical illustration. With its cut-out design and emphasis on structural and biochemical aspects, it serves as a visual representation of biological processes at play. Through proteomics research and molecular biology techniques, scientists aim to unravel the mysteries surrounding these proteins' functions. The study of macromolecules like TehA provides valuable insights into how bacteria influence ion channels within plants. This stunning artwork by LAGUNA DESIGN/SCIENCE PHOTO LIBRARY not only captures scientific curiosity but also highlights the beauty found within biomolecular structures. It is a testament to both artistry and scientific exploration that continues to push boundaries in our understanding of life's complexities.
Framed Prints of Plant anion channel protein homologue C016 / 2555
Introducing the Media Storehouse Framed Prints featuring the captivating image of "Plant Anion Channel Protein Homologue C016 / 2555" by LAGUNA DESIGN/SCIENCE PHOTO LIBRARY. This striking molecular model showcases the intricate structure of the TehA protein, a common homologue obtained from the bacterium Haemophilus influenzae. A must-have for any scientific workspace or home lab, these framed prints are not only visually engaging, but also serve as a testament to the beauty and complexity of biological structures. Elevate your space with this unique and thought-provoking addition.
Photo Prints of Plant anion channel protein homologue C016 / 2555
Discover the intricacies of the natural world with Media Storehouse's scientific photographic prints. Our latest addition showcases the Plant Anion Channel Protein Homologue C016/2555, a molecular model of TehA obtained from Haemophilus influenzae. This protein, a common anion channel studied for its structural similarities, is brought to life in stunning detail in this captivating image from LAGUNA DESIGN/SCIENCE PHOTO LIBRARY. Elevate your laboratory or office space with this thought-provoking and visually engaging piece of scientific art.
Poster Prints of Plant anion channel protein homologue C016 / 2555
Discover the intricacies of molecular biology with our Media Storehouse Poster Prints featuring the captivating image of the Plant Anion Channel Protein Homologue C016/2555 by LAGUNA DESIGN/SCIENCE PHOTO LIBRARY. This image showcases a molecular model of the TehA protein obtained from the bacterium Haemophilus influenzae. As a homologue of plant anion channels, TehA is a subject of ongoing research due to its common structure, adding to our understanding of ion channel functions in various organisms. Bring this stunning scientific visualization into your lab or office space as a conversation starter and a testament to the wonders of the natural world.
Jigsaw Puzzles of Plant anion channel protein homologue C016 / 2555
Discover the fascinating world of science with our Media Storehouse Jigsaw Puzzles. This intriguing puzzle showcases the Plant Anion Channel Protein Homologue C016 / 2555, a molecular model obtained from the bacterium Haemophilus influenzae. TehA, as it is commonly known, is a subject of ongoing research due to its similar structure with other anion channel proteins. Assemble this complex puzzle piece by piece, and delve deeper into the intricacies of molecular biology. A perfect addition to any home or classroom, this puzzle is not only a fun activity but also an educational experience. Engage your mind, challenge your problem-solving skills, and bring the wonders of science into your home with our Media Storehouse Jigsaw Puzzles.
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