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Helical Collection

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

Background imageHelical Collection: Double-stranded RNA molecule

Double-stranded RNA molecule. Computer model of the structure of double-stranded RNA (ribonucleic acid)

Background imageHelical Collection: DNA molecule

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

Background imageHelical Collection: Maple seed flight path

Maple seed flight path. Multi-flash photo composition of a maple seed (Acer sp.) spinning as it falls. Maple seeds are attached to the tree in pairs

Background imageHelical Collection: DNA molecule, computer model

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

Background imageHelical Collection: DNA molecule, abstract image

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

Background imageHelical Collection: DNA molecule, artwork

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

Background imageHelical Collection: DNA Double Helix with Autoradiograph

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

Background imageHelical Collection: Zinc fingers bound to a DNA strand

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)

Background imageHelical Collection: Collagen synthesis and assembly, artwork

Collagen synthesis and assembly, artwork. At left is a fibroblast, the cell that synthesises helical protein chains of collagen (wavy lines)

Background imageHelical Collection: Interferon molecule

Interferon molecule. Computer model showing the secondary structure of a molecule of interferon

Background imageHelical Collection: Z-DNA tetramer molecule C015 / 6557

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

Background imageHelical Collection: DNA repair using nanobots

DNA repair using nanobots. Computer artwork depicting the possibility of using robots at an atomic scale (nanobots) to repair damaged DNA (deoxyribonucleic acid), the bodys genetic code

Background imageHelical Collection: Cholera toxin, molecular model

Cholera toxin, molecular model
Cholera toxin. Molecular model of the secondary structure of cholera enterotoxin (intestinal toxin). The molecule consists of two subunits, A (top) and B (bottom)

Background imageHelical Collection: Europe, United Kingdom, England, Middlesex, London, citizenM Hotel Spiral Staircase

Europe, United Kingdom, England, Middlesex, London, citizenM Hotel Spiral Staircase

Background imageHelical Collection: Central courtyard of the Former Hospital de la Santa Creu

Central courtyard of the Former Hospital de la Santa Creu
Baroque cross. Central courtyard of the Former Hospital de la Santa Creu. The sculptor Bernat Vilar restored the cross in 1691 as it was very old and seriously damaged

Background imageHelical Collection: A gravity driven clock

A gravity driven clock
5308087 A gravity driven clock.; (add.info.: Engraving depicting a gravity driven clock: a short cylinder with a dial at one end travels down an helical path)

Background imageHelical Collection: An Architectural Design for the Emperor's Monument at Kyffhaeuser

An Architectural Design for the Emperor's Monument at Kyffhaeuser
1900s, 19th-century, art work, arts, artwork, artworks, black, black-and-white, black-white, circles, commemorating, commemoration, concept, conception, conceptions, depiction, depictions, deserted

Background imageHelical Collection: Page from Army and Navy Stores Catalogue, 1939-40 (litho)

Page from Army and Navy Stores Catalogue, 1939-40 (litho)
5988013 Page from Army and Navy Stores Catalogue, 1939-40 (litho) by English School, (20th century); Private Collection; (add.info.: Illustration for catalogue of Army & Navy Stores Ltd)

Background imageHelical Collection: Design for a House for a Cosmopolite, 1783 (w / c on paper) (detail

Design for a House for a Cosmopolite, 1783 (w / c on paper) (detail
CHT199711 Design for a House for a Cosmopolite, 1783 (w/c on paper) (detail) (see also 195241-195242, 196724-196726) by Vaudoyer

Background imageHelical Collection: A Queen distributing alms to a crippled beggar in the temple at Jerusalem

A Queen distributing alms to a crippled beggar in the temple at Jerusalem
CTS449151 A Queen distributing alms to a crippled beggar in the temple at Jerusalem, early 17th century (pen & brown ink with brown wash) by Second School of Fontainebleau

Background imageHelical Collection: Typical examples of various types of gears, David Brown and Sons (b / w photo)

Typical examples of various types of gears, David Brown and Sons (b / w photo)
6004150 Typical examples of various types of gears, David Brown and Sons (b/w photo) by English Photographer

Background imageHelical Collection: Spiral Staircase /2

Spiral Staircase /2
Steffen Ebert

Background imageHelical Collection: Nucleic acid, illustration

Nucleic acid, illustration

Background imageHelical Collection: ENT9713WT018

ENT9713WT018
The spiral walkway of the Round Tower in Copenhagen

Background imageHelical Collection: Engraving depicting a gravity driven clock, 18th century

Engraving depicting a gravity driven clock, 18th century
Engraving depicting a gravity driven clock

Background imageHelical Collection: Interior of the City Hall, Southwark, London, England, UK

Interior of the City Hall, Southwark, London, England, UK

Background imageHelical Collection: DNA structure, artwork C017 / 7218

DNA structure, artwork C017 / 7218
DNA structure. Computer artwork showing the structure of a double stranded DNA (deoxyribonucleic acid) molecule (right) and its components (left)

Background imageHelical Collection: High-contrast direct DNA image, TEM

High-contrast direct DNA image, TEM
High-contrast direct DNA image. Coloured transmission electron micrograph (TEM) of the first high-contrast direct image of a bundle (fibre) of strands of DNA (deoxyribonucleic acid)

Background imageHelical Collection: Caduceus with DNA, artwork C013 / 9990

Caduceus with DNA, artwork C013 / 9990
Caduceus with DNA. Computer artwork of the Caduceus symbol entwined by a strand of DNA (deoxyribonucleic acid)

Background imageHelical Collection: DNA

DNA, computer artwork. DNA (deoxyribonucleic acid) consists of two strands (yellow) of sugar phosphates forming a double helix

Background imageHelical Collection: Nude jigsaw

Nude jigsaw
DNA jigsaw. Conceptual computer artwork of a DNA (deoxyribonucleic acid) molecule formed by pieces of a jigsaw puzzle

Background imageHelical Collection: Spirochete bacteria, TEM

Spirochete bacteria, TEM
Spirochete bacteria, coloured transmission electron micrograph (TEM). Spirochetes are bacteria with helically coiled cells

Background imageHelical Collection: Spiral stairs by Giuseppe Momo (1875-1940)

Spiral stairs by Giuseppe Momo (1875-1940)
Giuseppe Momo (1875-1940). Italian artist. Spiral stairs. 1932. Vatican Museums. Vatican City

Background imageHelical Collection: Spiral staircase C018 / 0884

Spiral staircase C018 / 0884
Spiral staircase. View looking up at the cantilevered cast iron spiral staircase in the central tower of the Granitz Hunting Lodge, Rugen island, Germany

Background imageHelical Collection: DNA molecule, artwork C017 / 7217

DNA molecule, artwork C017 / 7217
DNA molecule. Computer artwork showing a double stranded DNA (deoxyribonucleic acid) molecule. DNA is composed of two strands twisted into a double helix

Background imageHelical Collection: DNA molecule, artwork C017 / 0616

DNA molecule, artwork C017 / 0616
DNA molecule. Computer artwork looking along the interior of a double stranded DNA (deoxyribonucleic acid) molecule. DNA is composed of two strands twisted into a double helix

Background imageHelical Collection: Archimedean Screw Illustration C017 / 3533

Archimedean Screw Illustration C017 / 3533
Plate from 18th century encyclopedia showing an illustration of an Archimedes screw, also called the Archimedean screw or screwpump

Background imageHelical Collection: Genetics research, conceptual artwork C017 / 7410

Genetics research, conceptual artwork C017 / 7410
Genetics research. conceptual computer artwork

Background imageHelical Collection: DNA molecule, artwork C017 / 0615

DNA molecule, artwork C017 / 0615
DNA molecule. Computer artwork looking along the interior of a double stranded DNA (deoxyribonucleic acid) molecule. DNA is composed of two strands twisted into a double helix

Background imageHelical Collection: DNA molecule, artwork C017 / 0617

DNA molecule, artwork C017 / 0617
DNA molecule. Computer artwork looking along the interior of a double stranded DNA (deoxyribonucleic acid) molecule. DNA is composed of two strands twisted into a double helix

Background imageHelical Collection: Genetics research, conceptual artwork C017 / 7408

Genetics research, conceptual artwork C017 / 7408
Genetics research. conceptual computer artwork

Background imageHelical Collection: Genetics research, conceptual artwork C017 / 7411

Genetics research, conceptual artwork C017 / 7411
Genetics research. conceptual computer artwork

Background imageHelical Collection: DNA molecule, artwork F007 / 4200

DNA molecule, artwork F007 / 4200
DNA molecule, computer artwork

Background imageHelical Collection: DNA molecule, artwork F007 / 4196

DNA molecule, artwork F007 / 4196
DNA molecule, computer artwork

Background imageHelical Collection: DNA molecule, artwork F007 / 4203

DNA molecule, artwork F007 / 4203
DNA molecule, computer artwork

Background imageHelical Collection: DNA molecule, artwork F007 / 4207

DNA molecule, artwork F007 / 4207
DNA molecule, computer artwork

Background imageHelical Collection: DNA molecule, artwork F008 / 2034

DNA molecule, artwork F008 / 2034
DNA molecule, computer artwork

Background imageHelical Collection: DNA molecule, artwork F008 / 2036

DNA molecule, artwork F008 / 2036
DNA molecule, computer artwork

Background imageHelical Collection: DNA molecule F008 / 3657

DNA molecule F008 / 3657
DNA molecule. Computer artwork of the structure of deoxyribonucleic acid (DNA) with a double helix in the background. DNA is composed of two strands twisted into a double helix

Background imageHelical Collection: DNA molecule, artwork F008 / 2040

DNA molecule, artwork F008 / 2040
DNA molecule, computer artwork

Background imageHelical Collection: MicroRNA precursor molecule

MicroRNA precursor molecule
MicroRNA (miRNA) precursor, molecular model

Background imageHelical Collection: MicroRNA molecule

MicroRNA molecule
MicroRNA (miRNA), molecular model. This miRNA (micro ribonucleic acid) oligonucleotide regulates the expression of a target gene

Background imageHelical Collection: DNA nucleosome molecule

DNA nucleosome molecule
DNA nucleosome, molecular model. This is the fundamental repeating unit used to package DNA (deoxyribonucleic acid) inside cell nuclei

Background imageHelical Collection: Genetic research, conceptual image C014 / 1256

Genetic research, conceptual image C014 / 1256
Genetic research. Conceptual image of a molecular model of a strand of DNA (deoxyribonucleic acid) being held on a human hand

Background imageHelical Collection: Synthetic DNA molecule

Synthetic DNA molecule
Synthetic DNA. Molecule model of a synthetic form of DNA (deoxyribonucleic acid). DNA is composed of two strands twisted into a double helix

Background imageHelical Collection: DNA supercoil, artwork

DNA supercoil, artwork
DNA supercoils. Computer artwork showing a supercoiled strand of DNA (deoxyribonucleic acid)

Background imageHelical Collection: Genetics research, conceptual artwork C017 / 7412

Genetics research, conceptual artwork C017 / 7412
Genetics research. conceptual computer artwork

Background imageHelical Collection: Genetics research, conceptual artwork C017 / 7407

Genetics research, conceptual artwork C017 / 7407
Genetics research. conceptual computer artwork

Background imageHelical Collection: Genetics research, conceptual artwork C017 / 7409

Genetics research, conceptual artwork C017 / 7409
Genetics research. conceptual computer artwork

Background imageHelical Collection: DNA molecule, artwork F007 / 1996

DNA molecule, artwork F007 / 1996
DNA molecule, computer artwork

Background imageHelical Collection: DNA molecule, artwork F007 / 1994

DNA molecule, artwork F007 / 1994
DNA molecule, computer artwork

Background imageHelical Collection: DNA molecule, artwork F007 / 1995

DNA molecule, artwork F007 / 1995
DNA molecule, computer artwork

Background imageHelical Collection: DNA molecule, artwork F007 / 1991

DNA molecule, artwork F007 / 1991
DNA molecule, computer artwork

Background imageHelical Collection: DNA molecule, artwork F007 / 1992

DNA molecule, artwork F007 / 1992
DNA molecule, computer artwork

Background imageHelical Collection: Junk DNA, conceptual image

Junk DNA, conceptual image. Computer artwork of damaged DNA (deoxyribonucleic acid) in a rubbish bin. DNA contains sections called genes that encode the bodys genetic information

Background imageHelical Collection: DNA 6-way junction, artwork C014 / 2585

DNA 6-way junction, artwork C014 / 2585
DNA (deoxyribonucleic acid) cube, computer artwork. The DNA cube is formed from six different DNA strands

Background imageHelical Collection: Gene activator protein F006 / 9406

Gene activator protein F006 / 9406
Gene activator protein. Molecular model of catabolite gene activator protein (CAP, yellow) complexed with deoxyribonucleic acid (DNA, red and blue) and RNA polymerase (green and pink)

Background imageHelical Collection: Gene activator protein F006 / 9269

Gene activator protein F006 / 9269
Gene activator protein. Molecular model of catabolite gene activator protein (CAP, pink and green) bound to a molecule of deoxyribonucleic acid (DNA, across top)

Background imageHelical Collection: Syphilis bacteria, artwork C016 / 8956

Syphilis bacteria, artwork C016 / 8956
Syphilis bacteria. Computer artwork of the spirochaete bacteria Treponema pallidum, which cause syphilis

Background imageHelical Collection: DNA packaging, artwork C016 / 7517

DNA packaging, artwork C016 / 7517
DNA packaging. Computer artwork showing how DNA (deoxyribonucleic acid) is packaged within cells

Background imageHelical Collection: DNA molecule, artwork C016 / 8892

DNA molecule, artwork C016 / 8892
DNA molecule. Computer artwork showing a double stranded DNA (deoxyribonucleic acid) molecule. DNA is composed of two strands twisted into a double helix

Background imageHelical Collection: Biotin-binding RNA molecule

Biotin-binding RNA molecule
Biotin-binding RNA (ribonucleic acid), molecular model. This RNA molecule is a pseudoknot, formed from stem-loop structures. It binds to the vitamin B7 (biotin)

Background imageHelical Collection: Genetically modified grapes, artwork

Genetically modified grapes, artwork
Genetically modified grapes. Conceptual artwork of grapes in the double helix shape of DNA (deoxyribonucleic acid) on a vine. This represents concepts such as the genetic modification of food crops

Background imageHelical Collection: DNA bundle on silicon nanopillars, SEM

DNA bundle on silicon nanopillars, SEM
DNA bundle on silicon nanopillars. Scanning electron micrograph (SEM) of a DNA (deoxyribonucleic acid) bundle and silicon nanopillars used to obtain the first high-contrast direct images of DNA

Background imageHelical Collection: DNA packaging, illustration C018 / 0747

DNA packaging, illustration C018 / 0747
DNA packaging. Illustration showing how DNA (deoxyribonucleic acid) is packaged within cells

Background imageHelical Collection: Homeodomain from Ubx and Exd protein C017 / 7006

Homeodomain from Ubx and Exd protein C017 / 7006
Structure of a DNA-bound Ultrabithorax (Ubx) and Extradenticle (Exd) homeodomain complex bound to DNA

Background imageHelical Collection: Genetic research, conceptual image C014 / 1255

Genetic research, conceptual image C014 / 1255
Genetic research. Conceptual image of a molecular model of a strand of DNA (deoxyribonucleic acid) being examined through a magnifying glass

Background imageHelical Collection: DNA supercoils, artwork

DNA supercoils, artwork
DNA supercoils. Computer artwork showing DNA (deoxyribonucleic acid) in three stages of supercoiling

Background imageHelical Collection: DNA molecule, artwork C016 / 8508

DNA molecule, artwork C016 / 8508
DNA molecule. Computer artwork showing a double stranded DNA (deoxyribonucleic acid) molecule. DNA is composed of two strands twisted into a double helix

Background imageHelical Collection: DNA molecule, artwork C016 / 8507

DNA molecule, artwork C016 / 8507
DNA molecule. Computer artwork showing a double stranded DNA (deoxyribonucleic acid) molecule. DNA is composed of two strands twisted into a double helix

Background imageHelical Collection: DNA molecule, artwork C016 / 8506

DNA molecule, artwork C016 / 8506
DNA molecule. Computer artwork showing a double stranded DNA (deoxyribonucleic acid) molecule. DNA is composed of two strands twisted into a double helix

Background imageHelical Collection: DNA molecule, artwork C016 / 8505

DNA molecule, artwork C016 / 8505
DNA molecule. Computer artwork showing a double stranded DNA (deoxyribonucleic acid) molecule. DNA is composed of two strands twisted into a double helix

Background imageHelical Collection: DNA molecule, artwork C016 / 8503

DNA molecule, artwork C016 / 8503
DNA molecule. Computer artwork showing a double stranded DNA (deoxyribonucleic acid) molecule. DNA is composed of two strands twisted into a double helix

Background imageHelical Collection: DNA molecule, artwork C016 / 8502

DNA molecule, artwork C016 / 8502
DNA molecule. Computer artwork showing a double stranded DNA (deoxyribonucleic acid) molecule. DNA is composed of two strands twisted into a double helix



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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.

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