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Illustration showing repaglinide (yellow white blue and red spheres centre-left and centre-right) binding to an ATP-dependent potassium channel (mu
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Illustration showing repaglinide (yellow red and white spheres centre-left and centre-right) binding to an ATP-dependent potassium channel (multicol
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Illustration showing repaglinide (yellow white blue and red spheres centre-left and centre-right) binding to an ATP-dependent potassium channel (mu
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Illustration showing repaglinide (yellow white blue and red spheres within pink structures) binding to ATP-dependent potassium channel (multicoloure
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Illustration of tirzepatide (red blue and grey spheres) bound to a glucagon-like peptide-1 (GLP-1) transmembrane receptor (pinkbeige vertical) A G
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Illustration of tirzepatide (silver helix) bound to a glucagon-like peptide-1 (GLP-1) transmembrane receptor (multi-coloured helices across membrane)
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Metformin antidiabetic drug action illustration
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Metformin antidiabetic drug action illustration
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Ebola matrix protein Molecular model of the Ebola virus matrix protein VP40 bound to RNA (ribonucleic acid) This membrane-associated protein is thou
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Ebola matrix protein Molecular model of the Ebola virus matrix protein VP40 bound to RNA (ribonucleic acid) This membrane-associated protein is thou
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Illustration showing repaglinide (white blue and red spheres within helices) binding to an ATP-dependent potassium channel (multicoloured helices) on
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Antidiabetic drug tirzepatide molecular structure illustration
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Illustration of tirzepatide (red blue and grey spheres) bound to a glucagon-like peptide-1 (GLP-1) transmembrane receptor (beige vertical) A G prot
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Illustration of tirzepatide (silver helix) bound to a glucagon-like peptide-1 (GLP-1) transmembrane receptor (multi-coloured helices across membrane)
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Illustration of tirzepatide (red blue and grey spheres) bound to a glucagon-like peptide-1 (GLP-1) transmembrane receptor (multi-coloured 3d structur
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Illustration of tirzepatide (silver helix) bound to a glucagon-like peptide-1 (GLP-1) transmembrane receptor (multi-coloured helices across membrane)
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Illustration of tirzepatide (red blue and grey spheres) bound to a glucagon-like peptide-1 (GLP-1) transmembrane receptor (beige vertical structure)
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Illustration of semaglutide (blue red and grey spheres) bound to a glucagon-like peptide-1 (GLP-1) transmembrane receptor (multi-coloured 3D structur
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Islet of Langerhans Colour transmission electron micrograph (TEM) of a slice through a cell of the hormone-secreting islet of Langerhans in the mamma
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Islet of Langerhans Coloured transmission electron micrograph (TEM) of a section through two cells of the hormone-secreting islet of Langerhans in th
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Semaglutide antidiabetic drug action illustration
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Nanobodies and Covid-19 virus spike protein illustration
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Adenovirus SEM
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Adenovirus SEM
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Adenovirus SEM
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Adenovirus SEM
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Adenovirus SEM
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Adenovirus SEM
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Bacterial cell Illustration of a typical bacterial cell sectioned to reveal its internal structures Bacteria are prokaryotes simple organisms with
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False colour transmission electron micrograph of the blue-green algae Spirulina platensis Here a single cell of this species is seen Blue-green al
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Adenovirus SEM
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GLP-1 receptors and semaglutide agonists illustration
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GLP-1 receptors and semaglutide agonists illustration
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Inactivated GLP-1 receptor near semaglutide illustration
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GLP-1 receptor activated by semaglutide illustration
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Morphine and fentanyl bound to mu-opioid receptors
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Illustration of an activated receptor for advanced glycation endproducts (RAGE) embedded in a cell membrane This transmembrane protein belongs to the
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Illustration of a tailspike protein (TSP) from the thermophilic bacteriophage GVE2 Bacteriophages or phages are viruses that infect bacteria Tails
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False colour transmisson electron micrograph of a chloroplast in the leaf of a pea plant Pisum sativum The chloroplast is the site of photosyn- thesi
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False colour transmisson electron micrograph of a chloroplast in the leaf of a pea plant Pisum sativum The chloroplast is the site of photosynthesis;
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Illustration of four PilQ secretin proteins from the type IV pilus (T4P) of the bacterium Pseudomonas aeruginosa bound by T4P secretin-associated prot
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Mesothelin protein bound to antibody illustration
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Illustration of mesothelin (dark blue and orange) bound to a monoclonal antibody (light blue) Mesothelin (MSLN) is a membrane glycoprotein found on m
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B cell receptor dimer illustration
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B cell receptor dimer illustration
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Light micrograph of normal human adipocytes (fat cells) The cells are bound by membranes which outline the large empty spaces where the lipid (fat) i
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Fat cells light micrograph
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Illustration of LpxA the first enzyme in the lipid A biosynthesis pathway from the bacterium Pseudomonas aeruginosa bound to an inhibitor (yellow)
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False colour transmisson electron micrograph of a chloroplast in the leaf of a pea plant Pisum sativum The chloroplast is the site of photosynthesis;
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Golgi apparatus Transmission electron micrograph of a Golgi apparatus in a frog leucocyte (white blood cell) The Golgi apparatus is a system of memb
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Human peroxisomal fatty acid transporter molecular model
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Human peroxisomal fatty acid transporterATP-bound human peroxisomal fatty acid transporter (ABCD1) molecular model The image shows the two chains of
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Voltage-gated sodium channel pore molecular model
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Aptamer bound to prostate-specific membrane antigen
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Ferric enterobactin receptor illustration
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Illustration of a genetically-engineered form of the bacterial alpha-hemolysin (alphaHL) toxin complexed with beta-cyclodextrin This toxin is secrete
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IgM mediated complex activation molecular model
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Csars-CoV-2 virus binding to human cell illustration
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Antibodies and cancer Computer illustration of antibodies (orange) attacking a cancer cell The Y-shaped antibodies (immunoglobulins) are proteins pr
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Nerve ion channel Contour map (from electron micrograph data) of an acetylcholine receptor a large molecule that controls the transmission of a nerv
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LDL particle binding to a receptor illustration
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Henipavirus structure illustration
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Henipavirus structure illustration
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Henipavirus structure illustration
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Henipavirus structure illustration
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Henipavirus structure illustration
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Henipavirus structure illustration
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Henipavirus structure illustration
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False-colour transmission electron micrograph of a membrane-bound clump of Plasmodium merozoites the infective stage of the protozoan parasite which
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False-colour transmission electron micrograph of mammalian mitochondria (green) in cross-section Mitochondria are the sites of cell respiration - the
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Henipavirus structure illustration
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C3b complexed with smallpox inhibitor
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Fibrodysplasia ossificans progressiva mutant protein
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Protein synthesis illustration
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Coxsackievirus bound to human cell illustration
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Rhinovirus bound to human cell illustration
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Vascular endothelial growth factor receptor illustration
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Active insulin receptors illustration Each insulin receptor (blue) is a transmembrane protein that has become activated through the binding of insu
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False-colour transmission electron micrograph of a mitochondrion from an unidentified cell Mitochondria are the sites of cell respiration; the chemic
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False-colour transmission electron micrograph (TEM) of the cytoplasm of a rat spermatocyte featuring a mitochondrion (right a yellow cigar- shaped
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Active insulin receptor illustration The insulin receptor (blue) is a transmembrane protein that has become activated through the binding of insuli
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Illustration of coronavirus particles showing the virus membrane lipids virus spike proteins and viral RNA with bound nucleocapsid protein by THOM
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Angiotensin converting enzyme 2 (ACE2)-B0AT1 amino acid transporter complex molecular model ACE2 is involved in the control of blood pressure The m
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Angiotensin converting enzyme 2 (ACE2)-B0AT1 amino acid transporter complex molecular model ACE2 is involved in the control of blood pressure The m
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Activin A receptor type I protein molecular model
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Molecular model of a mutant copy of the activin A receptor type I (ACVR1) protein (brown and light pink) that causes the rare genetic disease fibrodys
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Molecular model of a mutant copy of the activin A receptor type I (ACVR1) protein (brown and light pink) that causes the rare genetic disease fibrodys
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Fibrodysplasia ossificans progressiva mutant protein
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Fibrodysplasia ossificans progressiva mutant protein
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Molecular model of a mutant copy of the activin A receptor type I (ACVR1) protein (brown and light pink) that causes the rare genetic disease fibrodys
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Molecular model of a mutant copy of the activin A receptor type I (ACVR1) protein (brown and light pink) that causes the rare genetic disease fibrodys
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Computer illustration of a low-density lipoprotein (LDL) or bad cholesterol molecule (round) bound to an LDL receptor (LDLR) protein (red) in a ce
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Monoclonal antibody ipilimumab and receptor Illustration of two molecules of the monoclonal antibody ipilimumab (green and blue) bound to the human p
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PCSK9 inhibition by monoclonal antibody illustration
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PCSK9 inhibition by monoclonal antibody Illustration of a molecule of the enzyme proprotein convertase subtilisinkexin type 9 (PCSK9 white and pink
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PCSK9 inhibition by monoclonal antibody illustration
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PCSK9 inhibition by monoclonal antibody illustration
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Illustration of the structure of an eukaryotic cell The cell membrane surrounds the internal structures (organelles) At centre is the nucleus (purpl
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GLIC receptor complexed with DHA molecular model
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Molecular model of prokaryotic GLIC synaptic receptor (Gloeobacter Ligand-gated Ion Channel blue and purple) complexed with omega-3 fatty acid docosa
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