Atoms Collection (#9)

Chlorophyll, molecular model
Chlorophyll molecule. Computer model of the photoreceptor molecule chlorophyll a (C55.H72.Mg.N4.O5) found in green plants

Metformin diabetes drug molecule. Computer model showing the structure of a molecule of metformin. This drug, marketed as Glucophage, is used to treat type 2 diabetes

Sodium-potassium pump molecule. Computer model showing the structure of a molecule of Sodium-Potassium Adenosine Triphosphatase, or the sodium-potassium pump, embedded in a cell membrane

Aspirin, molecular structure diagram
Aspirin. Diagram showing the molecular structure (left) and the chemical structure (right) of the painkilling drug aspirin (acetylsalycilic acid)

Transcription factor and ribosomal RNA (rRNA). Molecular model showing the 6 zinc fingers of transcription factor IIIA (purple) bound to RNA (ribonucleic acid)

RNA-Induced Silencing Complex (RISC). Computer model showing the molecular structure of a bacterial argonaute protein (red) bound to a small interfering RNA (siRNA) molecule (green and purple)

Antibodies and their antigen. Computer model showing the molecular structure of two anti-P-glycoprotein antibodies (upper left and right) and the P-glycoprotein (blue) to which they respond

Bioluminescent enzyme molecule. Computer model showing the molecular structure of luciferase, the photoprotein enzyme found in fireflies that enables them to glow

Epidermal growth factor molecule. Computer model showing the structure of a molecule of epidermal growth factor (EGF). EGF plays an important role in the regulation of cell growth

Bacteria circadian clock protein molecule. Computer model showing the molecular structure of the KaiC protein found in cyanobacteria (blue-green algae)

Self-assembled 3D DNA crystal. Computer model showing the molecular structure of an artificially assembled three-dimensional DNA (deoxyribonucleic acid) crystal

Bose-Einstein condensate research. Velocity-distribution data of a gas of rubidium atoms, confirming the discovery of a new phase of matter, the BoseEinstein condensate (BEC)

Interferon antagonism by viral protein
Interferon (IFN) antagonism by viral protein. Molecular model showing two views of an orthopoxvirus IFN-gamma-binding protein bound to an IFN-gamma molecule

Tobacco mosaic virus, molecular model
Tobacco mosaic virus. Computer model showing the molecular structure of a tobacco mosaic virus (TMV) particle (virion). This plant virus is a tobamovirus, and has an RNA (ribonucleic acid) genome

Flu virus surface protein and antibody. Computer model showing the molecular structure of the neuraminidase glycoprotein enzyme found on the surface of the influenza (flu) virus

Transription activation of IFN-beta gene. Computer model showing the molecular structure of an enhanceosome (dark green, purple, blue and red) containing the transcription factors IRF-3

RNA interference viral suppressor and RNA. Computer model showing the molecular structure of the p19 protein (pink, top) from a Tombusvirus, suppressing a double-stranded

Flu virus surface protein molecule. Computer model showing the molecular structure of the neuraminidase glycoprotein enzyme found on the surface of the influenza A (flu) virus

Carbon nanotube, artwork
Carbon nanotube. Computer artwork showing the hexagonal carbon structure of a nanotube, or buckytube

1664 Robert Boyle Portrait
Robert Boyle, anglo-irish chemist, physicist and inventor. One of the founders of The Royal Society. Born 25th January 1627- died 31 December 1691

Ivabradine drug molecule. Tubular molecular model of the drug ivabradine, used to manage angina pectoris, severe chest pain due to lack of blood to the heart

Crystal structure of graphite, artwork
Artwork of the crystal structure of graphite showing parallel layers of hexagonally arranged carbon atoms. Graphite as used in pencil lead, lubricants

Buckminsterfullerene molecule, artwork
Buckminsterfullerene molecule. Computer artwork of a glowing molecular model of a fullerene molecule. This is a structurally distinct form (allotrope)

Three states of matter: solid liquid gas
Three states of matter, 3d computer illustration. From bottom to top the three states of matter are; solid, liquid and gas. Particles are in constant motion

Metal spheres, abstract artwork. This array of metal spheres could represent a grid of atoms forming part of a crystal lattice

Nanotechnology research, artwork
Nanotechnology research, conceptual computer artwork. Spectacles containing buckyball molecules. This might represent investigative research into nanotechnological products such as buckyballs

Buckyball molecule, artwork
Buckyball molecule being held by a robotic hand. Conceptual computer artwork that might represent research into, or hi-tech automated production of, buckyball molecules

Buckyball molecule, conceptual artwork
Buckyball molecule integrated into an electric circuit, conceptual computer artwork. A buckyball, or buckminsterfullerene, is a structurally distinct form (allotrope) of carbon

Buckytube bomb, conceptual artwork
Buckytube bomb, conceptual computer artwork. This image of a stick of dynamite inside a buckytube could represent the use of nanotechnology in warfare

Buckyball bomb, conceptual artwork
Buckyball bomb, conceptual computer artwork. This image of a bomb inside a buckyball could represent the use of nanotechnology in warfare

Glucagon hormone molecule. Computer model showing the structure of the human hormone glucagon. Atoms are colour-coded spheres (carbon: grey, nitrogen: blue, and oxygen: red)

Gastrin hormone molecule. Computer model showing the structure of the human hormone gastrin. Atoms are colour-coded spheres (carbon: grey, hydrogen: light grey, nitrogen: blue, sulphur: yellow)

Insulin-like growth 1 factor molecule
Insulin-like growth factor 1 molecule. Computer model showing the structure of a molecule of the hormone insulin-like growth factor 1 (IGF-1)

Aldosterone molecule. Molecular model showing the structure of a molecule of the steroid hormone aldosterone (C21.H28.O5). Atoms are colour-coded (carbon: grey, hydrogen: white, oxygen: red)

Somatostatin hormone molecule. Computer model showing the structure of the hormone somatostatin, also known as growth hormone-inhibiting hormone (GHIH)

Thyroid-stimulating hormone molecule. Computer model showing the structure of a molecule of thyroid stimulating hormone (TSH)

Calcifediol molecule. Computer model showing the structure of a molecule of the pre-hormone calcifediol. Atoms are colour-coded (carbon: grey, hydrogen: white)

Prostacyclin molecule. Computer model showing the structure of the hormone prostacyclin, or prostaglandin I2 (PGI2). Atoms are colour-coded (carbon: dark grey, hydrogen: light grey, oxygen: red)

Norepinephrine neurotransmitter molecule. Computer model showing the structure of the neurotransmitter and hormone norepinephrine, or noradrenaline

Calcitonin hormone molecule. Computer model showing the structure of the human hormone calcitonin. Atoms are colour-coded spheres (carbon: dark grey, hydrogen: light grey, nitrogen: blue)

Inhibin beta A molecule. Computer model showing the crystal structure of a molecule of the protein Inhibin beta A (INHBA)

Prostaglandin E1 molecule. Computer model showing the structure of the hormone prostaglandin E1 (PGE1). Atoms are colour-coded (carbon: dark grey, hydrogen: light grey, oxygen: red)

Leukotriene E4 molecule. Computer model showing the structure of the fatty acid leukotriene E4. Atoms are colour-coded (carbon: dark grey, hydrogen: light grey, nitrogen: blue, sulphur: yellow)

Secretin hormone molecule. Computer model showing the structure of the hormone secretin. Atoms are colour-coded (carbon: dark grey, hydrogen: light grey, oxygen: red)

Calcitriol molecule. Computer model showing the structure of a molecule of the secosteroid hormone calcitriol. Atoms are colour-coded (carbon: grey, hydrogen: white, oxygen: red)

Oestradiol hormone molecule. Computer model showing the structure of the female sex hormone oestradiol. Atoms are colour-coded - carbon: dark grey, hydrogen: light grey, and oxygen: red

Gonadotrophin-releasing hormone molecule. Computer model showing the structure of gonadotrophin-releasing hormone (GnRH). Atoms are colour-coded spheres (carbon: large grey, hydrogen: small grey)

Insulin-like growth 2 factor molecule
Insulin-like growth factor 2 molecule. Computer model showing the structure of a molecule of the hormone insulin-like growth factor 2 (IGF-2)

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"Unveiling the Mysteries of Atoms: From Northern Lights to Quantum Marvels" Witness the captivating dance under the shimmering Northern lights, a celestial spectacle that mirrors their intricate nature. Niels Bohr, a pioneer in atomic theory, immortalized through a whimsical caricature capturing his profound contributions to our understanding of atoms. Behold the explosive beauty of nuclear fission artwork, showcasing the immense power harnessed within tiny atomic nuclei. Delve into the microscopic world as we explore HIV reverse transcription enzyme—a remarkable atom-driven process crucial for viral replication. Ernest Rutherford's genius encapsulated in an amusing caricature, symbolizing his groundbreaking experiments that unraveled atomic structure. Embark on an artistic journey depicting the evolution of our universe—where atoms play a pivotal role in shaping cosmic wonders beyond imagination. Witness the exhilarating collision between particles—an awe-inspiring event revealing hidden secrets about matter and energy at its most fundamental level. Step into a simulated realm where Bose-Einstein condensate defies conventional physics—unleashing mind-bending phenomena like superfluidity and quantum coherence. Discover oxytocin—the enchanting neurotransmitter molecule responsible for bonding and affection, reminding us how atoms shape human emotions and connections. Explore density within a Bose-Einstein condensate—a surreal state where atoms merge into one entity with extraordinary properties yet to be fully understood by science. Bonus: Dive into "When The Atoms Failed, " an intriguing cover story from Amazing Stories Scifi magazine—transporting readers to alternate realities shaped by unexpected atomic anomalies. Witness nature's own masterpiece as Aurora Borealis illuminates a snowy coniferous forest in Northern Finland—a breathtaking reminder of how atoms interact with Earth's magnetic field to create this ethereal phenomenon during March nights.