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White blood cell attacking Streptococcus pneumoniae bacteria SEM
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White blood cell interacting with Klebsiella pneumoniae bacteria TEM
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White blood cell interacting with Klebsiella pneumoniae bacterium SEM
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White blood cell interacting with Klebsiella pneumoniae bacterium SEM
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White blood cell interacting with Klebsiella pneumoniae bacteria SEM
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Antibodies attacking virus particle illustration
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Antibodies attacking virus particle illustration
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Immunoglobulin G antibody molecules coloured transmission electron micrograph (TEM) IgG is the most abundant human immunoglobulin and is found in a
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Gastric ulcer Coloured X-ray of a stomach containing a gastric (peptic) ulcer (upper right white) Ulcers are caused by excessive stomach acid (dige
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The Mat de Cocagne 1845 Bastille Day celebrations in Paris the struggle for prizes is carried on by means of a high pole fixed in the Champs El
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Antibodies attacking virus particles illustration
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Antibody illustration This Y-shaped protein is made up of four protein chains The two longest (heavy) chains are identical and form the Y-shaped ba
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Antibody illustration This Y-shaped protein is made up of four protein chains The two longest (heavy) chains are identical and form the Y-shaped ba
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Nanobodies and Covid-19 virus spike protein illustration
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HIV-1 glycoprotein GP120 and antibody illustration
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Antibodies binding influenza virus Illustration of human antibodies (orange) neutralizing a influenza virus particle (blue) Each Y-shaped molecule h
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Antibodies binding influenza virus illustration
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Viruses and antibodies Computer artwork of four viruses (round left) surrounded by Y-shaped immunoglobulins or antibodies (white) A white blood cel
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Antibody Computer graphic of a molecule of immunoglobulin G1 a type of antibody protein that the immune system uses to fight infections Like all pr
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Goblet and secretory cells Coloured transmission electron micrograph (TEM) of a section through a goblet cell (pink blue) and secretory cells of th
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Chameleon spider catching a bee
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Molecular model of nanobodies (blue) binding to the receptor binding domain (RBD) of the SARS-CoV-2 coronavirus spike (S) protein (red) S proteins ar
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Molecular model of nanobodies (blue) binding to the receptor binding domain (RBD) of the SARS-CoV-2 coronavirus spike (S) protein (red) S proteins ar
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Immunoglobulin G antibody
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Immunoglobulin G antibody Molecular model of an immunoglobulin G (IgG) antibody The coils (green grey) arrows (yellow) and cylinders (purple) repr
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Indigestion tablet dissolving in water
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Chemical peel Dermatologist applying cream to a womans face after a treating it with a chemical skin peel
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Immunoglobulin G antibody molecule Computer model of the secondary structure of immunoglobulin G (IgG) This is the most abundant immunoglobulin and
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Gastric ulcer Coloured X-ray of a stomach containing a gastric (peptic) ulcer (upper right black) Ulcers are caused by excessive stomach acid (dige
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Titration Chemist prepares to chemically analyse a solution using a technique known as titration He is pipetting a coloured solution out of a flas
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Chemical peel
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Artwork of dyspepsia (indigestion) in the stomach
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Heartburn Illustration of a raft of foaming ant- acid on top of the contents of a human stomach taken to stop heartburn Heartburn is caused by a ba
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Virus and antibodies Computer artwork of a virus particle (purple) surrounded by antibodies (Y-shaped) Antibodies are assemblies of proteins that al
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Viruses and antibodies artwork
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Adding acid to alkaline indigestion tablets Image 1 of 2 Adding hydrochloric acid (HCl) to alkaline (pH greater than 7) indigestion tablets in solut
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Adding acid to alkaline solution
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Immunoglobulin G antibody Molecular model of the antibody immunoglobulin G (IgG) Each coloured strand represents a protein chain The arrows and cyl
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Immunological research Scientists use an automated immunochemical analyser in a laboratory Immunochemistry is the study of antigens and antibodies
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Rhodogune (daughter of the Parthian king Mithridates I) 2nd century BC A plate from Les Images Ou Tableaux De Platte Peinture Des Deux Philostrates S
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Adding acid to alkaline indigestion tablets Image 2 of 2 Schoolgirl adding hydrochloric acid (HCl) to alkaline (pH greater than 7) indigestion table
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Adding acid to alkaline indigestion tablets Image 1 of 2 Schoolgirl adding hydrochloric acid (HCl) to alkaline (pH greater than 7) indigestion table
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Pupil performing titration Schoolgirl dripping measured volumes of an acid from a burette (down right) The conical flask (lower right) contains a me
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Pupil performing titration Schoolgirl dripping measured volumes of an acid from a burette (down centre) The conical flask (bottom centre) contains a
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Illustration of the antigen binding fragment (Fab) of a cross-reactive neutralising antibody (centre) that targets the CD4 binding site of the HIV-1 (
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Illustration of the antigen binding fragment (Fab) of a cross-reactive neutralising antibody (centre) that targets the CD4 binding site of the HIV-1 (
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Illustration of the antigen binding fragment (Fab) of a cross-reactive neutralising antibody (centre) that targets the CD4 binding site of the HIV-1 (
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Titration Chemist prepares to chemically analyse a solution using a technique known as titration He is pipetting a measured amount of a coloured s
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Automated titration Chemist with a computer-controlled system for analysing chemical solutions by a technique known as titration Titrations are de
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Titration Schoolgirl adding an alkaline solution (from a burette) to a known volume of acid (in flask) The alkaline solution will neutralise the a
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Illustration of the antigen binding fragment (Fab) of a cross-reactive neutralising antibody (centre) that targets the CD4 binding site of the HIV-1 (
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Cross-reactive HIV antibody fragment illustration
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Illustration of the antigen binding fragment (Fab) of a cross-reactive neutralising antibody (centre) that targets the CD4 binding site of the HIV-1 (
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Cross-reactive HIV antibody fragment illustration
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Illustration of antibody or immunoglobulin molecules attacking bacteria (white) The y-shaped antibody molecules have two arms that can bind to spec
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Computer illustration of an antibody or immunoglobulin molecule attacking an infected cell The y-shaped antibody molecule has two arms that can bin
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Computer illustration of an antibody or immunoglobulin molecule attacking an infected cell The y-shaped antibody molecule has two arms that can bin
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Chemistry experiment Student preparing an acid-base titration to determine the concentration of an alkaline solution He is filling a glass pipette
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Burette Valve and tip of a laboratory burette with the tip placed inside the neck of a flask In the background is a measuring cylinder (at left) and
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Rotary kiln for lime burning This is a rotating cylinder kiln The white powder is lime and limestone dust The glow (upper centre) is where limeston
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Crystal Structure of anti-SARS m396 antibody Molecular model of the structure of severe acute respiratory syndrome (SARS) coronavirus receptor-bindin
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Crystal structure of a cross-Reactive HIV-1 neutralizing CD4-binding site antibody Fab m18 Molecular model of the crystal structure of a cross-reacti
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Anti-SARS m396 antibody
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Neutralizing human IgG1 B12 against HiV-1
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Crystal structure of a cross-Reactive HIV-1 neutralizing CD4-binding site antibody Fab m18 Molecular model of the crystal structure of a cross-reacti
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Crystal structure of a neutralizing human IgG1 B12 against HIV-1 Molecular model of the crystal structure of a neutralizing human IgG1 B12 against HI
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Anti-HIV-1 Antibody in Complex with a peptide mimotope Molecular model of an antibody that acts to neutralize the human immunodeficiency virus (HIV)
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Shaft kiln for lime burning This is a vertical-shaft kiln with a conveyor belt (top left) to add raw materials to the kiln Smoke (top) forms as lime
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Alkaline household products Alkalis react with and can neutralise acids Strong alkalis are corrosive and are often used as cleaning products
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Decontamination foam testing View of a researcher spraying decontamination foam in a laboratory In minutes this foam neutralises biological and che
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Anti-HIV-1 Antibody in Complex with a peptide mimotope Molecular model of an antibody that acts to neutralize the human immunodeficiency virus (HIV)
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HIV-neutralizing antibody Molecular model of an antibody that acts to neutralize the human immunodeficiency virus (HIV) This antibody acts against H
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HIV-neutralizing antibody Molecular model of an antibody that acts to neutralize the human immunodeficiency virus (HIV) This antibody acts against H
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Haemagglutinin viral surface protein Molecular model of haemagglutinin a surface protein from the influenza virus complexed with a neutralising ant
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Haemagglutinin viral surface protein Molecular model of haemagglutinin a surface protein from the influenza virus complexed with a neutralising ant
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Langerhans cell Coloured transmission electron micrograph (TEM) of a section through the skin to show a Langerhans cell (blue) The function of these
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Langerhans cell Coloured transmission electron micrograph (TEM) of a section through the skin to show a Langerhans cell (yellow) The function of the
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Genetically modified maize Genetically modified (GM) maize plants Zea mays during a field trial This GM maize has had one application of a Glyphosa
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Genetically modified maize Genetically modified (GM) maize plants Zea mays during a field trial This GM maize has had one application of a Glyphosa
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Genetically modified maize Tractor in a field of genetically modified (GM) maize plants Zea mays during a field trial This GM maize has had one app
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Testing pH Universal indicator (left) being used to test the pH of a solution (centre) of sodium hydroxide as hydrochloric acid is added As the acid
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Neutralisation titration
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Neutralisation titration Burette (top) being used to slowly add measured amounts of an acid to an alkaline solution in a flask (bottom) containing a
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Hepatitis C glycoprotein and antibody Molecular model of the E2 envelope glycoprotein from the hepatitis C virus bound to a neutralising antibody
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Hepatitis C glycoprotein and antibody Molecular model of the E2 envelope glycoprotein from the hepatitis C virus bound to a neutralising antibody
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Haemagglutinin protein subunit Molecular model of the ectodomain of the haemagglutinin HA(2) subunit Haemagglutinin is a surface protein from the in
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Haemagglutinin protein subunit Molecular model of the ectodomain of the haemagglutinin HA(2) subunit Haemagglutinin is a surface protein from the in
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Genetically modified maize Tractor in a field of genetically modified (GM) maize plants Zea mays during a field trial This GM maize has had one app
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Genetically modified maize Tractor in a field of genetically modified (GM) maize plants Zea mays during a field trial This GM maize has had one app
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Diphtheria vaccine Researcher pipettes pink liquid into phials during testing of a diphtheria vaccine Corynebacterium diphtheriae the bacterium whi
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Testing for carbonate Test tube containing a compound added to acid (left) producing a gas which is bubbled through limewater (calcium hydroxide solu
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Computer artwork of an antibody or immunoglobulin molecule attacking a leukaemia white blood cell (lymphocyte) The y-shaped antibody molecule have tw
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Computer artwork of an antibody or immunoglobulin molecule attacking a leukaemia white blood cell (lymphocyte) The y-shaped antibody molecule have tw
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Computer artwork of an antibody or immunoglobulin molecule attacking a leukaemia white blood cell (lymphocyte) The y-shaped antibody molecule have tw
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Ampoule of antivenin serum orange liquid with foam at top
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Molecular model of nanobodies (yellow) binding to the receptor binding domain (RBD pink) of the SARS-CoV-2 coronavirus spike (S) protein (blue) S pr
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Molecular model of nanobodies (yellow) binding to the receptor binding domain (RBD pink) of the SARS-CoV-2 coronavirus spike (S) proteins (blue) S p
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Response to acid rain View of a lime dosing column on a stream in Sweden The doser adds lime (calcium hydroxide) to the stream which is acidic due t
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Molecular model of nanobodies (yellow) binding to the receptor binding domain (RBD pink) of the SARS-CoV-2 coronavirus spike (S) protein (blue) S pr
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Molecular model of nanobodies (yellow) binding to the receptor binding domain (RBD pink) of the SARS-CoV-2 coronavirus spike (S) protein (blue) S pr
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