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Antigen presenting cells conceptual illustration
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Antigen presenting cells conceptual illustration
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Antigen presenting cells conceptual illustration
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Antigen presenting cells conceptual illustration
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HLA class 1 and class 2 molecules illustration
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HLA class 1 and class 2 molecules illustration by ALI DAMOUHSCIENCE PHOTO LIBRARY
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Legumain enzyme illustration
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Legumain enzyme illustration
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Immune cell interaction illustration
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Immunogenic synapse illustration
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Illustration showing two types of T-cells (green and purple spheres) binding to a cluster of three cancer cells (centre red and grey spheres) T cell
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Illustration showing two types of T-cells (yellow and blue spheres) binding to a cluster of three cancer cells (centre red and grey spheres) T cells
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Illustration showing two types of T-cells (green and red spheres) binding to a cluster of three cancer cells (centre red and grey spheres) T cells
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T-cells binding to cancer cells illustration
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Superantigen binding to a T-cell receptor illustration
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Molecular model of four G-protein-coupled receptors (GPCRs) From left to right the GPCRs are; rhodopsin which is activated by absorbing light T-cel
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G protein-coupled receptors molecular model
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Illustration of an immune response to infection with the new coronavirus SARS-CoV-2 (one at top left) Receptors on a B cells (red) surface recognise
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T cell receptor activation molecular model
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Covid-19 RNA vaccine illustration
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Illustration of the mechanism by which the Covid-19 RNA (ribonucleic acid) vaccine induces immunity The vaccine consists of strands of mRNA (messenge
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T-cell receptor MHC complex
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T-cell receptor MHC complex
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Human immune system complex Molecular model of the human leukocyte antigen (HLA) Aw68 bound to a beta-2 microglobulin molecule (B2M) These are major
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Human immune system complex molecule
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Artwork of numerous receptors on the surface of a T lymphocyte white blood cell T lymphocytes are part of the bodys immune system They recognise an
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Genetic compatibility research Man and woman taking oral swabs of themselves for genetic testing as part of research into the links between genetic c
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Multiple sclerosis protein complex molecular model The proteins forming this complex are a T-cell receptor (TCR) a peptide antigen (myelin basic pr
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Multiple sclerosis protein complex molecular model The proteins forming this complex are a T-cell receptor (TCR) a peptide antigen (myelin basic pr
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Alpha-beta T-cell receptor molecular model The T cell receptor (TCR) is a protein complex found on the surface of a type of white blood cell called
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Alpha-beta T-cell receptor molecular model The T cell receptor (TCR) is a protein complex found on the surface of a type of white blood cell called
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MHC protein-antigen complex Computer model of the human class I MHC (major histocompatibility complex) protein HLA-D27 complexed with a peptide antig
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MHC protein-antigen complex Molecular model of the human class I MHC (major histocompatibility complex) protein HLA-D27 complexed with a peptide anti
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MHC protein-antigen complex Computer model showing a histocompatibility antigen complexed to a class II MHC (major histocompatibility complex) protei
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MHC protein complexed with flu virus Computer model showing the crystal structure of the human class II MHC (major histocompatibility complex) protei
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MHC protein-antigen complex Computer model showing a histocompatibility antigen complexed to a class II MHC (major histocompatibility complex) protei
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MHC protein complexed with flu virus Computer model showing the crystal structure of the human class II MHC (major histocompatibility complex) protei
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Immune system artwork
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T-cell receptor - MHC complex Computer model showing the molecular structure of a T-cell receptor (TCR pink and blue) bound to an allogeneic (non-se
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MHC protein-antigen complex Molecular model of the human class I MHC (major histocompatibility complex) protein HLA-B27 complexed with beta-2 microgl
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MHC protein complexed with flu virus Molecular model showing human class II MHC (major histocompatibility complex) protein HLA-DR1 complexed with an
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MHC protein-antigen complex Molecular model of the human class I MHC (major histocompatibility complex) protein HLA-B27 complexed with beta-2 microgl
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MHC protein complexed with flu virus Molecular model showing human class II MHC (major histocompatibility complex) protein HLA-DR1 complexed with an
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Illustration of a cytotoxic T cell (bottom left) attacking a cancer cell (top right) T cells or T lymphocytes are components of the bodys immune s
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Illustration of a cytotoxic T cell (bottom left) attacking a cancer cell (top right) T cells or T lymphocytes are components of the bodys immune s
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Illustration of a cytotoxic T cell (bottom left) attacking a cancer cell (top right) T cells or T lymphocytes are components of the bodys immune s
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Illustration of a cytotoxic T cell (bottom left) attacking a cancer cell (top right) T cells or T lymphocytes are components of the bodys immune s
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Immune response activation illustration
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T cell receptor CD4 and MHC proteins illustration
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Activation of T-cell immune response illustration Array of proteins interacting on the surface membranes of a T-cell (across bottom) and an antigen
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Activation of T-cell immune response illustration
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Activation of T-cell immune response illustration
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Programmed cell death in immune system illustration The protein PD-1 (programmed cell death protein 1 red) is seen extending from the surface membr
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Antibody blocking programmed cell death illustration Antibody (yellow) blocking PD-1 (programmed cell death protein 1 red) to prevent it interactin
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Illustration of a dendritic cell (centre) presenting an antigen to T-lymphocytes Both cells are components of the bodys immune system Dendritic cel
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Computer illustration of a T-cell receptor (purple) binding to an MHC-antigen complex (orange and green) The antigen (light green) is a peptide from
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Computer illustration of a T-cell receptor (purple) binding to an MHC-antigen complex (orange and green) The antigen (light green) is a peptide from
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Computer illustration of T-cell receptors (purple) binding to MHC-antigen complexes (orange and green) The antigen (light green) is a peptide from a
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