Double Helix Collection (#25)

Z-DNA molecule

Human cloning, conceptual artwork

DNA sequence, abstract artwork
Abstract computer artwork of a dna sequence

Single-stranded DNA, artwork
Point mutation. Computer artwork of a single strand of DNA (deoxyribonucleic acid) with a point mutation (illuminated). A point mutation is caused by the replacement of a single base nucleotide (red)

Creation of life, conceptual artwork
Creation of life. Conceptual computer artwork showing helical strands of DNA (deoxyribonucleic acid) appearing from a bright light amid swirling inorganic matter

DNA packaging, artwork
DNA packaging. Computer artwork showing how DNA (deoxyribonucleic acid) is packaged within cells. Two DNA strands, consisting of a sugar-phosphate backbone attached to nucleotide bases

Genetic research, conceptual image

Frozen DNA, conceptual image. Computer artwork showing DNA (deoxyribonucleic acid) molecules frozen in ice cubes

Rosalind Franklin, British chemist
Rosalind Franklin. Caricature of the British chemist and X-ray crystallographer Rosalind Franklin (1920-1958), holding a model of a crystal lattice

DNA splashing into water, artwork
Artwork of a DNA (deoxyribonucleic acid) molecule splashing into water. This double helix (spiral) genetic molecule found in all living cells is responsible for inherited genetic traits

DNA molecular structure, artwork
DNA (deoxyribonucleic acid) molecular structure, artwork. DNA is the genetic material that controls the growth and development of all living organisms

Genetic biodiversity, conceptual image. Array of multi-coloured helices of the genetic molecule DNA (deoxyribonucleic acid)

DNA loop, artwork
Artwork of a loop of the DNA (deoxyribonucleic acid) molecule. This double helix (spiral) genetic molecule found in all living cells is responsible for inherited genetic traits

DNA repair molecule, artwork
Artwork of part of a DNA (deoxyribonucleic acid, pink/purple) molecule being repaired by a protein (green) which has recognised the damaged DNA site

DNA replication. Computer artwork of a DNA (deoxyribonucleic acid) molecule replicating. DNA is composed of two strands twisted into a double helix (top)

DNA replication, artwork
DNA replication. Computer artwork of a DNA (deoxyribonucleic acid) molecule replicating. DNA is composed of two strands twisted into a double helix

Junk DNA, conceptual artwork. Scissors cutting segments from a molecule of DNA (deoxyribonucleic acid). The cut segments are being collected in a glass

Cellular packaging of DNA, artwork
Cellular packaging of DNA. Artwork of a strand of the genetic material DNA (deoxyribonucleic acid) unwound from the nucleus (blue) of a cell (orange, upper right)

DNA, molecular model
DNA. Molecular model showing a strand of DNA (deoxyribonucleic acid) looped into curves. DNA is composed of two strands twisted into a double helix

Genetic information storage, artwork
Genetic information storage, conceptual computer artwork. Molecules of DNA (deoxyribonucleic acid) on the surface of dvds

Fibrinogen molecule
Fibrinogen. Molecular model showing the secondary structure of the blood clotting glycoprotein fibrinogen (factor I). Fibrinogen, which is synthesised by the liver

DNA, comceptual artwork
DNA. Conceptual computer artwork of a DNA (deoxyribonucleic acid) double helix

DNA nanotechnology, artwork
DNA nanotechnology. Conceptual computer artwork of DNA nanotechnology, showing a carbon nanotube (transparent) and a molecule of DNA (deoxyribonucleic acid, centre)

DNA assembly, artwork
DNA assembly. Computer artwork showing nucleic acid bases (upper left) binding together to form a double-helix of DNA (deoxyribonucleic acid, lower right)

DNA molecule, conceptual artwork
DNA, conceptual computer artwork. View up the centre of a molecular model of deoxyribonucleic acid (DNA). DNA is composed of two strands twisted into a double helix

DNA molecule, ceonceptual artwork
DNA, conceptual computer artwork. Molecular model of deoxyribonucleic acid (DNA), composed of two strands twisted into a double helix

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"The Double Helix: Unraveling the Blueprint of Life" In this captivating journey, we delve into the intricate world of the double helix - a mesmerizing DNA molecule that holds the secrets to our existence. As we peer at a computer screen displaying a human genetic sequence, we witness nature's most remarkable code come alive. A double-stranded RNA molecule dances across another computer screen, showcasing its vital role in gene expression and regulation. Computer artwork depicting a beta DNA segment and spheres reminds us of the complex structure that underlies life itself. With awe-inspiring precision, a DNA molecule is meticulously crafted in a computer model, revealing its elegant beauty. A nucleosome molecule stands as an architectural marvel, protecting and organizing our genetic material within cells. An abstract image captures the essence of this extraordinary molecule - its twists and turns hinting at endless possibilities encoded within. Molecular models bring forth vivid representations of DNA nucleosomes, unraveling their crucial function in packaging our genome. As we contemplate these wonders, our minds are drawn to the enigmatic Arecibo message and its decoded key C016/6817. Like Rosalind Franklin, the brilliant British chemist who played an instrumental role in deciphering DNA's structure through X-ray crystallography; we too strive to unlock nature's mysteries hidden within this double helix. The double helix serves as both an emblematic symbol and profound testament to life's complexity. It invites us on an intellectual voyage where science meets artistry—a harmonious blend that continues to shape our understanding of ourselves and all living beings around us.