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Helical Collection (#6)

"Unraveling the Mysteries of Helical Wonders: From RNA to DNA and Beyond" Double-stranded RNA molecule

Background imageHelical Collection: Syphilis bacteria, artwork

Syphilis bacteria, artwork

Background imageHelical Collection: Helicobacter pylori bacterium, artwork

Helicobacter pylori bacterium, artwork

Background imageHelical Collection: Spirillum bacteria, artwork

Spirillum bacteria, artwork

Background imageHelical Collection: DNA, symbolic sculpture

DNA, symbolic sculpture
Conceptual 3d DNA-like sculpture depicting the genetic code that is unique for every individual. DNA controls the development and functioning of every living organism

Background imageHelical Collection: Computer graphic of a segment of beta DNA

Computer graphic of a segment of beta DNA
DNA. Computer model of part of a molecule of DNA (deoxyribonucleic acid). DNA is the molecule that controls the growth and development of all living things

Background imageHelical Collection: DNA molecule and binary code

DNA molecule and binary code. Computer artwork of the base pair structure of a DNA (deoxyribonucleic acid) double helix (bottom left to top right) and the ones and zeros of binary code

Background imageHelical Collection: DNA

DNA. Conceptual computer artwork of the double helix DNA (deoxyribonucleic acid) molecule (lower centre), a female face (centre right) and a DNA autoradiogram (upper centre)

Background imageHelical Collection: DNA molecules and Petri dishes

DNA molecules and Petri dishes
DNA molecules. Computer artwork of three molecules of DNA (deoxyribonucleic acid) emerging from three Petri dishes. DNA contains sections called genes that encode an organisms genetic information

Background imageHelical Collection: DNA

DNA, conceptual computer artwork. Deoxyribonucleic acid is the molecule that controls the growth, development and functioning of all living things

Background imageHelical Collection: Genetic universe

Genetic universe. Computer artwork of a molecule of DNA (deoxyribonucleic acid) in space surrounded by galaxies. DNA encodes sections called genes that encode the bodys genetic information

Background imageHelical Collection: DNA molecule and eggshell

DNA molecule and eggshell
DNA molecule. Computer artwork of a molecule of DNA (deoxyribonucleic acid) emerging from a cracked eggshell in a shaft of light

Background imageHelical Collection: Genetic individuality, computer artwork

Genetic individuality, computer artwork
Genetic individuality. Conceptual computer artwork showing the ability of human genetic information to be translated into digital binary code for biometric purposes

Background imageHelical Collection: DNA

DNA molecule (down right), computer artwork. DNA (deoxyribonucleic acid) consists of two strands of sugar phosphates forming a double helix (spiral)

Background imageHelical Collection: DNA double helix

DNA double helix. Computer artwork of a DNA (deoxyribonucleic acid) double helix. The normal helical structure is formed when the genetic coding components (called nucleotide bases)

Background imageHelical Collection: Genomics

Genomics. Conceptual computer artwork of an anatomical model of the human face with a DNA (deoxyribonucleic acid) helix (across bottom) and three molecular models (upper right)

Background imageHelical Collection: DNA

DNA. Computer artwork of a deoxyribonucleic acid (DNA) molecule (right) and a historical drawing of a male figure by Leonardo da Vinci (1453-1519)

Background imageHelical Collection: DNA molecules, conceptual artwork

DNA molecules, conceptual artwork
DNA molecules, conceptual computer artwork




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"Unraveling the Mysteries of Helical Wonders: From RNA to DNA and Beyond" Double-stranded RNA molecule: Exploring the intricate structure of a double-stranded RNA molecule, revealing its role in gene regulation and viral defense mechanisms. Maple seed flight path: Nature's ingenious design mimicked by helical structures, like maple seeds gracefully spiraling through the air, inspiring engineers for innovative aerial technologies. DNA molecule, computer model: Unveiling the blueprint of life through computer models that simulate the complex three-dimensional structure of DNA molecules, aiding in genetic research and drug development. Abstract image: A mesmerizing abstract representation capturing the beauty and complexity of our genetic code - an artistic interpretation that sparks curiosity about our origins. Artwork: Merging science with artistry, an exquisite masterpiece showcasing the elegance and sophistication found within every strand of our DNA - a testament to nature's creativity. Zinc fingers bound to a DNA strand: Unlocking secrets at a molecular level as zinc finger proteins delicately bind to specific sequences on a DNA strand – paving new paths for targeted gene therapies and genome editing techniques. DNA Double Helix with Autoradiograph: Witnessing history unfold as Rosalind Franklin's iconic autoradiograph captures an X-ray diffraction pattern revealing crucial insights into the double helix structure of DNA – forever changing biology as we know it. Interferon molecule: Shedding light on our immune system's defense mechanism against viruses with interferons – small protein heroes orchestrating antiviral responses within cells' helical pathways. Z-DNA tetramer molecule C015 / 6557: Peering into alternative forms of DNA such as Z-DNA tetramers – offering clues about their unique properties and potential roles in cellular processes yet to be fully understood. Nanobots repairing DNA.