Glycoprotein Collection (#3)

Influenza virus, artwork C016 / 8349
Influenza virus. Cut-away computer artwork of an influenza (flu) virus particle (virion). In each particles lipid envelope (green) are two types of protein spike, haemagglutinin (H)

Influenza virus, artwork C016 / 8348
Influenza virus. Cut-away computer artwork of an influenza (flu) virus particle (virion). In each particles lipid envelope (green) are two types of protein spike, haemagglutinin (H)

Influenza virus, artwork C016 / 8347
Influenza virus. Cut-away computer artwork of an influenza (flu) virus particle (virion). In each particles lipid envelope (green) are two types of protein spike, haemagglutinin (H)

Influenza virus, artwork C016 / 8346
Influenza virus. Cut-away computer artwork of an influenza (flu) virus particle (virion). In each particles lipid envelope (green) are two types of protein spike, haemagglutinin (H)

Influenza virus, artwork C016 / 8344
Influenza virus. Cut-away computer artwork of an influenza (flu) virus particle (virion). In each particles lipid envelope (green) are two types of protein spike, haemagglutinin (H)

Influenza virus, artwork C016 / 8345
This image may not be used in educational posters Influenza virus. Cut-away computer artwork of an influenza (flu) virus particle (virion)

Influenza virus, artwork C016 / 8342
Influenza virus. Computer artwork of an influenza (flu) virus particle (virion). In each particles lipid envelope (green) are two types of protein spike, haemagglutinin (H, red) and neuraminidase (N)

Influenza virus, artwork C016 / 8341
Influenza virus. Computer artwork of an influenza (flu) virus particle (virion). In each particles lipid envelope (green) are two types of protein spike, haemagglutinin (H, red) and neuraminidase (N)

Influenza virus, artwork C016 / 8340
Influenza virus. Computer artwork of an influenza (flu) virus particle (virion). In each particles lipid envelope (green) are two types of protein spike, haemagglutinin (H, red) and neuraminidase (N)

SARS virus surface protein molecule
SARS virus surface protein. Molecular model of the HR2 (heptad repeat 2) envelope glycoprotein from the severe acute respiratory syndrome (SARS) virus

Follicle-stimulating hormone complex C015 / 0945
Follicle-stimulating hormone (FSH) complex with receptor, molecular model. FSH helps to regulate human sexual development and reproductive processes. In females, it acts on follicles in the ovaries

Follicle-stimulating hormone complex C015 / 0944
Follicle-stimulating hormone (FSH) complex with receptor, molecular model. FSH helps to regulate human sexual development and reproductive processes. In females, it acts on follicles in the ovaries

Ebola virus glycoprotein. Computer model showing the structure of a GP2 glycoprotein from the outer envelope of an Ebola virus (EBOV)

Flu virus surface protein and drug. Molecular model of the neuraminidase glycoprotein enzyme found on the surface of the influenza (flu) virus, in complex with the drug oseltamivir

Cell membrane, artwork C016 / 0614
Computer artwork of a cutaway side view of the human cell membrane. The cell Membrane is a complex part of the cell that controls what can get in and out of the cell

RSV virus fusion glycoprotein C015 / 6689
RSV virus fusion glycoprotein, molecular model. This is a fusion glycoprotein of human respiratory syncytial virus (RSV). This glycoprotein is used by the virus to invade host cells

Cell membrane, artwork C016 / 0613
Computer artwork of a cutaway side view of the human cell membrane. The cell Membrane is a complex part of the cell that controls what can get in and out of the cell

RSV virus fusion glycoprotein C015 / 6688
RSV virus fusion glycoprotein, molecular model. This is a fusion glycoprotein of human respiratory syncytial virus (RSV). This glycoprotein is used by the virus to invade host cells

Cell membrane, artwork C016 / 0609
Computer artwork of a cutaway side view of the human cell membrane. The cell Membrane is a complex part of the cell that controls what can get in and out of the cell

Cell membrane, artwork C016 / 0607
Computer artwork of a cutaway side view of the human cell membrane. The cell Membrane is a complex part of the cell that controls what can get in and out of the cell

Cell membrane, artwork C016 / 0603
Computer artwork of a cutaway side view of the human cell membrane. The cell Membrane is a complex part of the cell that controls what can get in and out of the cell

Influenza virus, artwork C018 / 2894
Influenza virus. Cut-away computer artwork of an influenza (flu) virus particle (virion). In each particles lipid envelope (blue) are two types of protein spike

Influenza virus, artwork C018 / 2893
Influenza virus. Cut-away computer artwork of an influenza (flu) virus particle (virion). In each particles lipid envelope (blue) are two types of protein spike

Influenza virus, artwork C018 / 2891
Influenza virus. Cut-away computer artwork of an influenza (flu) virus particle (virion). In each particles lipid envelope (blue) are two types of protein spike

Influenza virus, artwork C018 / 2890
Influenza virus. Cut-away computer artwork of an influenza (flu) virus particle (virion). In each particles lipid envelope (green) are two types of protein spike

Influenza virus, artwork C018 / 2892
Influenza virus. Cut-away computer artwork of an influenza (flu) virus particle (virion). In each particles lipid envelope (brown) are two types of protein spike

Thyroid gland, SEM C015 / 6419
Thyroid gland. Coloured scanning electron micrograph (SEM) of a fracture through the thyroid gland revealing several follicles (green and blue). Between the follicles is connective tissue (pink)

Erythropoietin hormone complex C016 / 4461
Erythropoietin hormone complex. Computer model showing the secondary structure of a molecule of the human hormone Erythropoietin (EPO), complexed with an erythropoetin receptor molecule

Erythropoietin hormone complex C016 / 4458
Erythropoietin hormone complex. Computer model showing the secondary structure of a molecule of the human hormone Erythropoietin (EPO), complexed with an erythropoetin receptor molecule

Erythropoietin hormone complex C016 / 4451
Erythropoietin hormone complex. Computer model showing the secondary structure of a molecule of the human hormone Erythropoietin (EPO), complexed with an erythropoetin receptor molecule

Follicle-stimulating hormone complex C016 / 2794
Follicle-stimulating hormone (FSH) complex with receptor, molecular model. FSH helps to regulate human sexual development and reproductive processes. In females, it acts on follicles in the ovaries

Follicle-stimulating hormone complex C016 / 2793
Follicle-stimulating hormone (FSH) complex with receptor, molecular model. FSH helps to regulate human sexual development and reproductive processes. In females, it acts on follicles in the ovaries

Ribonuclease with RNA DNA hybrid
Ribonuclease with RNA/DNA hybrid. Molecular model of Ribonuclease H (RNAse H, yellow and green) complexed with an RNA (ribonucleic acid, purple) and DNA (deoxyribonucleic acid, pink) hybrid

Erythropoietin molecule C013 / 8891
Erythropoietin molecule (EPO), molecular model. EPO is a glycoprotein that is produced by the kidneys in response to low blood oxygen levels

Erythropoietin hormone complex. Computer model showing the secondary structure of a molecule of the human hormone Erythropoietin (EPO), complexed with an erythropoetin receptor molecule

Ross River virus particle, artwork C013 / 4641
Ross River virus particle. Computer artwork showing the outer structure of a Ross River virus (RRV) particle (virion). RRV is a small encapsulated single-strand RNA alphavirus endemic to Australia

Thyroid gland follicle, TEM
Thyroid gland follicle. Coloured transmission electron micrograph (TEM) of a follicle from the thyroid gland. The follicle consists of a layer of epithelial cells (pink)

Thyroid follicles. Computer artwork of cells of thyroid follicles (pink, purple) superimposed on an artwork of the thyroid gland (red, centre)

Used and unused toothpicks, SEM
Used and unused toothpicks. Coloured scanning electron micrograph (SEM) of an unused (left) and a used (right) toothpicks. The used toothpick has a blunt end and is covered in dental plaque

Used toothbrush bristle, SEM
Used toothbrush bristle. Coloured scanning electron micrograph (SEM) of dental plaque on a bristle from a used toothbrush. Plaque consists of a film of bacteria embedded in a glycoprotein matrix

Thyroid follicles, artwork
Thyroid gland. Computer artwork of a thyroid gland (red, centre), superimposed on an image of cells of thyroid follicles (green, blue)

Amyloidosis, TEM
Amyloidosis. Coloured transmission electron micrograph (TEM) of a section through tissue with abnormal deposoits of amyloid protein (green)

Simian immunodeficiency virus (SIV), computer model. Cross section of SIV created using 3-D molecular modelling software and data from cryo- electron microscopy

Sindbis virus, computer model
Sindbis virus. Computer model of sindbis virus created using UCSF Chimera molecular modelling software and data from cryo-electron microscopy. It shows the outer glycoprotein shell of the virus

Virus, conceptual artwork
Virus, conceptual computer artwork

Dental plaque, SEM
Dental plaque, coloured scanning electron micrograph (SEM). Plaque consists of a film of bacteria (red) embedded in a glycoprotein matrix

Semliki forest virus fusion protein. Molecular model of the glycoprotein E1 from the Semliki forest virus. This protein is involved in the fusion of the virus with host cells

Cytoskeleton and membrane, diagram
Cytoskeleton and membrane. Diagram showing the various structures associated with the cytoskeleton, the protein scaffolding found within cells

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"Glycoprotein: Unveiling the Intricate World of Cellular Marvels" Exploring the unseen wonders: A microscopic view reveals glycoproteins at work, from collagen synthesis to sperm swimming towards an egg. Dental floss's secret connection: Did you know that glycoproteins play a vital role in maintaining oral health? Discover their hidden significance beyond your toothbrush. The interferon molecule: Unlocking the power within our immune system, glycoproteins like interferon act as warriors against viral invasions. Art meets science: Delve into the mesmerizing artwork depicting collagen synthesis and assembly, showcasing the beauty of molecular interactions. Unraveling viral mysteries: Witness how glycoproteins interact with Simian Immunodeficiency Virus (SIV), shedding light on potential breakthroughs in HIV research. Ribonuclease's dual duty: Explore how this enzyme interacts with RNA/DNA hybrids, offering insights into genetic processes and therapeutic possibilities. Coagulation factor complex C014/0139 revealed: Dive into the intricate world of blood clotting mechanisms driven by these essential glycoprotein molecules. Journey to conception begins here. Observe sperm propelled by cilia traveling towards an awaiting egg – a testament to nature's miraculous design. Microscopic marvels unfold before your eyes. Witness sperm swimming tirelessly towards an embryo, highlighting life's incredible beginnings. The grand release from ovaries: Learn about the fascinating process behind eggs being released from female ovaries, orchestrated by crucial glycoproteins. Peering through a microscope lens reveals a cluster of HIV viruses – emphasizing both their destructive power and ongoing scientific efforts for prevention and treatment strategies involving glycoproteins. Captivating microcosm unfolds. Observe sperm navigating through obstacles while swimming determinedly towards an eagerly awaiting egg – nature's captivating dance of life. 13.