Double Helix Collection

Computer screen showing a human genetic sequence
DNA sequencing. Computer screen showing a sequence of base pairs forming part of the human genetic code. The three billion base pairs that form the genetic code of human DNA (deoxyribonucleic acid)

DNA molecule. 3D-computer artwork of a space filling molecular model of deoxyribonucleic acid (DNA)

Double-stranded RNA molecule. Computer model of the structure of double-stranded RNA (ribonucleic acid). The majority of RNA in a cell is in the single-stranded form

DNA molecule, computer artwork. DNA (deoxyribonucleic acid) is composed of two strands twisted into a double helix. Each strand consists of a sugar-phosphate backbone attached to nucleotide bases

Computer artwork of a beta DNA segment and spheres
DNA molecule. Computer artwork of part of a strand of beta DNA (deoxyribonucleic acid) seen on a background of spheres. The spheres may represent bacteria

DNA molecule, computer model
DNA molecule. Computer artwork of the molecular structure of DNA (deoxyribonucleic acid). The DNA molecule is composed of two strands twisted into a double helix

Nucleosome molecule, computer model. A nucleosome is a subunit of chromatin, the substance that forms chromosomes. It consists of a short length of DNA (deoxyribonucleic acid)

DNA molecule, abstract image
DNA molecule. Abstract computer artwork of a view along the inside of a molecule of DNA (deoxyribonucleic acid). DNA contains sections called genes that encode the bodys genetic information

DNA nucleosome, molecular model
DNA nucleosome. Molecular model of a nucleosome, the fundamental repeating unit used to package DNA (deoxyribonucleic acid) inside cell nuclei

DNA molecule, artwork
DNA molecule. Computer artwork of a double stranded DNA (deoxyribonucleic acid) molecule amongst clouds of swirling gas. DNA is composed of two strands twisted into a double helix

Arecibo message and decoded key C016 / 6817
Arecibo message and decoded key. Diagram showing the binary transmission (left) known as the Arecibo message, with the message decoded and labelled at centre and right

Rosalind Franklin, British chemist
Rosalind Franklin (1920-1958), British chemist and X-ray crystallographer, holding a model of DNA (deoxyribonucleic acid)

RNA-editing enzyme, molecular model
RNA-editing enzyme. Molecular model of a left-handed, RNA double helix (Z-RNA, centre) bound by the Z alpha domain of the human RNA-editing enzyme ADAR1 (double-stranded RNA adenosine deaminase)

Zinc fingers bound to a DNA strand, molecular model. The double helix of DNA (deoxyribonucleic acid, red and yellow) is seen here with two Zif268 proteins (blue and green)

Computer artwork of DNA replication
DNA replication. Computer artwork depicting DNA (deoxyribonucleic acid) replication. This segment of DNA is being " unzipped" to form a Y-shaped replication fork

DNA Double Helix with Autoradiograph
Conceptual computer illustration of the DNA double helix together with a graphic representation of an autoradiograph display

Z-DNA tetramer molecule C015 / 6557
Z-DNA (deoxyribonucleic acid) tetramer, molecular model. DNA is composed of two strands twisted into a double helix. This is a tetramer of the molecule, containing four strands

EyeUbiquitous_20121549
Germany, Bavaria, Munich, Four part composite of The Endless or Infinite Staircase sculpture by Olafur Eliasson with KPMG offices behind

Germany, Berlin, Mitte, Reichstag building with glass dome deisgned by Norman Foster

DNA strands, illustration
DNA strands. Computer illustration showing the structure of double stranded DNA (deoxyribonucleic acid) molecules. DNA is composed of two strands twisted into a double helix

Dr Francis Crick seen here at Cambridge Universitys Molecular Biology Laboratory, following the announcement that he and James Watson had been awarded the Nobel Peace Prize for Medicine for their

EyeUbiquitous_20121548
Germany, Bavaria, Munich, Four part composite of The Endless or Infinite Staircase sculpture by Olafur Eliasson with KPMG offices behind

EyeUbiquitous_20121547
Germany, Bavaria, Munich, Four part composite of The Endless or Infinite Staircase sculpture by Olafur Eliasson with KPMG offices behind

EyeUbiquitous_20121545
Germany, Bavaria, Munich, Angular view from below of a section of The Endless or Infinite Staircase sculpture by Olafur Eliasson with KPMG offices behind

EyeUbiquitous_20121546
Germany, Bavaria, Munich, Angular view from below of a section of The Endless or Infinite Staircase sculpture by Olafur Eliasson with KPMG offices behind

EyeUbiquitous_20121544
Germany, Bavaria, Munich, Angular view from below of a section of The Endless or Infinite Staircase sculpture by Olafur Eliasson with KPMG offices behind

EyeUbiquitous_20121543
Germany, Bavaria, Munich, Angular view of The Endless or Infinite Staircase sculpture by Olafur Eliasson with KPMG offices behind

EyeUbiquitous_20121542
Germany, Bavaria, Munich, The Endless or Infinite Staircase sculpture by Olafur Eliasson with KPMG offices behind

Germany, Berlin, Mitte, Tiergarten, interior of the glass dome on the top of the Reichstag building designed by architect Norman Foster with a double-helix spiral ramp around the mirrored cone that

Germany, Berlin, Reichstag Parliament Building, Interior view of the Glass Dome designed by Norman Foster with German flag visible outside

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Berlin, Germany, Reichstag Dome at night

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Berlin, Germany, Reichstag Dome at night

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Berlin, Germany, Reichstag Dome at night

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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.