Molecular Structure Collection (page 5)

Buckyball, artwork F008 / 3345
Buckyball, computer artwork

Buckyball, artwork F008 / 3348
Buckyball, computer artwork

Buckyball, artwork F008 / 3343
Buckyball, computer artwork

Buckyball, artwork F008 / 3351
Buckyball, computer artwork

Buckyballs, artwork F008 / 3350
Buckyballs, computer artwork

Buckyball, artwork F008 / 3356
Buckyball, computer artwork

Buckyball, artwork F008 / 3341
Buckyball, computer artwork

DNA molecules, artwork F008 / 3266
Deoxyribonucleic acid (DNA) molecules, computer artwork

Buckyball, artwork F008 / 3357
Buckyball, computer artwork

DNA molecules, artwork F008 / 3265
Deoxyribonucleic acid (DNA) molecules, computer artwork

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

Human genome, conceptual artwork F008 / 3302
Human genome, conceptual computer artwork

Rosuvastatin cholesterol-lowering drug, molecular model. This is statin class works by blocking the effects of the enzyme HMG-CoA reductase

Insulin A chain molecule
Insulin A chain. Computer model of an A chain of human insulin that has been synthesized on a crosslinked polystyrene solid support. This is an example of solid phase peptide synthesis (SPPS)

Transfer RNA-synthetase complex molecule. Molecular model of a human tryptophanyl-tRNA synthetase molecule (red) complexed with a tRNA(Trp) molecule (blue)

Obesity drug molecule. Molecular models of phentermine (left) and topiramate (right). These two drugs are combined to the obesity drug Qsymia (formerly Qnexa)

Lorcaserin obesity drug molecule
Lorcaserin obesity drug, molecular model. Atoms are represented as spheres and are colour-coded: hydrogen (white), carbon (grey), nitrogen (blue) and chlorine (green)

MicroRNA precursor molecule
MicroRNA (miRNA) precursor, molecular model. This miRNA (micro ribonucleic acid) precursor will be further processed into an even shorter mature miRNA oligonucleotide that can regulate the expression

Diclofenac anti-inflammatory drug, molecular model. This is a non-steroidal anti-inflammatory drug (NSAID) that is used in the treatment of pain and inflammation

Domperidone anti-sickness drug molecule
Domperidone anti-sickness drug, molecular model. Atoms are represented as spheres and are colour-coded: hydrogen (white), carbon (grey), oxygen (red), nitrogen (blue) and chlorine (green)

Fenofibrate cholesterol drug molecule. This drug reduces levels of low-density lipoprotein (LDL, bad cholesterol) and increases the levels of high-density lipoprotein (HDL, good cholesterol)

Abiraterone prostate cancer drug molecule
Abiraterone prostate cancer drug, molecular model. Abiraterone blocks the production of testosterone by inhibiting an enzyme involved in its formation. This leads to the death of the cancerous cells

Bleomycin drug molecule F005 / 6675
Bleomycin, molecular model. Bleomycin is an antibiotic produced by the bacterium Streptomyces verticillus. It is used in the treatment of cancer and warts

Minocycline antibiotic molecule
Minocycline antibiotic, molecular model. Minocycline is a tetracycline class antibiotic. It is commonly used to treat acne vulgaris

Clopidogrel anti-clotting drug molecule F005 / 6720
Clopidogrel anti-clotting drug molecule. This drug (brand name Plavix) is a an antiplatelet drug that inhibits thrombus (blood clot) formation

Varenicline smoking cessation drug, molecular model. This drug is a partial agonist of the nicotine receptor. Atoms are represented as spheres and are colour-coded: hydrogen (white)

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

Methylparaben molecule
Molecular representation of methylparaben, one ester of parahydroxybenzoic acid. It is a commonly used preservative in cosmetics and pharmaceuticals

Human cloning, conceptual artwork F005 / 0397
Human cloning, conceptual computer artwork

Bleomycin drug molecule F005 / 6761
Bleomycin, molecular model. Bleomycin is an antibiotic produced by the bacterium Streptomyces verticillus. It is used in the treatment of cancer and warts

Sibutramine anti-obesity drug molecule
Sibutramine anti-obesity drug, molecular model. This drug was withdrawn from the market in 2010 due to safety concerns. Atoms are represented as spheres and are colour-coded: hydrogen (white)

Finasteride hair loss drug molecule
Finasteride hair loss drug, molecular model. Atoms are represented as spheres and are colour-coded: hydrogen (white), carbon (grey), oxygen (red) and nitrogen (blue)

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

tRNA molecule
Transfer RNA (tRNA), molecular model. tRNA (transfer ribonucleic acid) translates messenger RNA (mRNA) into a protein product. Each tRNA molecule carries a specific amino acid, in this case tryptophan

Linezolid antibiotic molecule. This synthetic antibiotic is used to treat infections that have become resistant to other antibiotics

Phentermine obesity drug molecule
Phentermine obesity drug, molecular model. This drug suppresses appetite. Atoms are represented as spheres and are colour-coded: hydrogen (white), carbon (grey) and nitrogen (blue)

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"Molecular Structure: Unlocking the Secrets of Life's Building Blocks" From anaesthetics inhibiting ion channels to antidepressant molecules, the intricate world holds endless wonders. The C015 / 6718 anaesthetic molecule delicately interacts with ion channels, altering their function and providing relief from pain. Meanwhile, Amitriptyline, an antidepressant molecule, works its magic by modulating neurotransmitters in our brains. In the realm of immunity, Immunoglobulin G antibody F007 / 9894 stands tall as a defender against pathogens. Its unique structure allows it to recognize and neutralize foreign invaders effectively. On another front, DNA artwork showcases the elegance and complexity that underlies all life forms on Earth. Creatine amino acid molecule fuels our muscles during intense physical activities while nanotube technology revolutionizes various industries with its exceptional properties. These tiny tubes hold immense potential for advancements in medicine and materials science alike. Zinc fingers bound to a DNA strand demonstrate how proteins can precisely interact with genetic material. This interaction plays a crucial role in gene regulation and expression. Carbon nanotubes take center stage once again as they exhibit remarkable strength and conductivity at the nano-scale level. Oxytocin neurotransmitter molecule reminds us of love's powerful influence on human connections—its presence promotes bonding between individuals. Manganese superoxide dismutase enzyme F006 / 9423 safeguards our cells by combating harmful free radicals that contribute to aging and disease. Even viruses have their own molecular structures; SARS coronavirus protein represents one such example—a key player in viral replication within host cells. Conceptual artwork further explores nanotube technology's limitless possibilities—the fusion of imagination and scientific innovation knows no bounds here. As we delve deeper into understanding molecular structures, we unravel nature's blueprint for life itself—one atom at a time. These captivating glimpses into the microscopic world remind us of both the fragility and resilience found within the building blocks of existence.