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Islet amyloid polypeptide fibril illustration
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Curli amyloid fibril subunits illustration
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Illustration of type I amyloid-beta filaments ending at residue 42 from human brains Misfolded amyloid beta peptides aggregate and form amyloid plaqu
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Antibody bound to an amyloid beta peptide illustration
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Antibody bound to an amyloid beta peptide illustration
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Illustration of a monoclonal antibody (blue) bound to an amyloid beta peptide (orange) Misfolded amyloid beta peptides aggregate and form amyloid pla
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Illustration of amyloid beta peptide (blue upper centre) that has been cleaved from the transmembrane amyloid precursor protein (APP centre left) Am
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Illustration of amyloid beta peptide in its normal (left) and misfolded (right) forms Misfolded amyloid beta peptides aggregate and form amyloid plaq
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hnRNPDL amyloid fibrils illustration
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hnRNPDL amyloid fibrils illustration
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Amyloid plaques in Alzheimers disease illustration
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Amyloid plaques in Alzheimers disease illustration
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AL amyloid fibril from a lambda light chain molecular model image shows an amyloid fibril whose deposits disrupt the ordered cardiomyocyte structur
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AL amyloid fibril from a lambda light chain molecular model image shows an amyloid fibril whose deposits disrupt the ordered cardiomyocyte structur
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Amyloidosis light micrograph
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Amyloidosis light micrograph
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Amyloidosis light micrograph
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Amyloid plaque TEM
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Amyloid plaque TEM
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Amyloid plaque TEM
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Amyloid plaque TEM
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Amyloid plaque TEM
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Complete amyloid-beta (1-42) protein Computer model showing the fibril structure of the complete amyloid-beta (1-42) protein the main component of s
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Alzheimers amyloid-beta fibrils Computer model showing the structure of Alzheimers amyloid-beta fibrils Five molecules are shown
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Alzheimers amyloid-beta fibrils
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Human prion protein peptide molecule
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Human prion protein peptide molecule
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Amyloid fibril molecule Computer model showing the structure of an amyloid fibril molecule isolated from the brain of an patient with Alzheimers dis
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Amyloid fibril molecule Computer model showing the structure of an amyloid fibril molecule isolated from the brain of an patient with Alzheimers dis
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Human beta-amyloid fibril molecule Computer model showing the structure of a human beta-amyloid three-fold fibril molecule Beta amyloid is the prima
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Human beta-amyloid fibril molecule Computer model showing the structure of a human beta-amyloid three-fold fibril molecule Beta amyloid is the prima
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Human beta-amyloid fibril molecule Computer model showing the structure of a human beta-amyloid two-fold fibril molecule Beta amyloid is the primary
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Alzheimers beta-amyloid fibrils
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Alzheimers beta-amyloid fibrils
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Molecular model of human brain-derived beta-amyloid fibrils isolated from a patient with Alzheimers disease The fibrils are made up of beta-amyloid
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Alzheimers beta-amyloid fibrils
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Molecular model of human brain-derived beta-amyloid fibrils isolated from a patient with Alzheimers disease The fibrils are made up of beta-amyloid
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Molecular model of human brain-derived beta-amyloid fibrils isolated from a patient with Alzheimers disease The fibrils are made up of beta-amyloid
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Molecular model of human brain-derived beta-amyloid fibrils isolated from a patient with Alzheimers disease The fibrils are made up of beta-amyloid
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Molecular model of human brain-derived beta-amyloid fibrils isolated from a patient with Alzheimers disease The fibrils are made up of beta-amyloid
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Alzheimers beta-amyloid fibrils
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Molecular model of human brain-derived beta-amyloid fibrils isolated from a patient with Alzheimers disease The fibrils are made up of beta-amyloid
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Illustration of human brain-derived beta-amyloid fibrils The fibrils are made up of beta-amyloid peptides (chains of protein green orange and pink)
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Illustration of human brain-derived beta-amyloid fibrils The fibrils are made up of beta-amyloid peptides (chains of protein green orange and pink)
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Molecular model of a human brain-derived beta-amyloid fibril isolated from a patient with Alzheimers disease The fibril is made up of beta-amyloid p
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Molecular model of a human brain-derived beta-amyloid fibril isolated from a patient with Alzheimers disease The fibril is made up of beta-amyloid p
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Amyloid plaques in a brain with Alzheimers disease illustration
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Amyloid plaques in a brain with Alzheimers disease illustration
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Amyloid plaques in a brain with Alzheimers disease illustration
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Conceptual illustration of iron nanoparticles and red blood cells (erythrocytes) In the background are amyloid fibril shuttles insoluble aggregates
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Illustration of iron nanoparticles and red blood cells (erythrocytes) In the background are amyloid fibril shuttles insoluble aggregates of protein
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Amyloid protein in Alzheimers disease Illustration of the processes leading to the formation of amyloid plaques (tangled bundles) on neurons (nerve
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Amyloid precursor protein and amyloid beta molecular models Amyloid precursor protein (APP left) is cleaved by enzymes with one of the residues be
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Amyloid precursor protein at cell membrane illustration The amyloid precursor protein (APP centre) is a complex protein with many functions It is
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Complete amyloid-beta (1-42) protein Computer model showing the fibril structure of the complete amyloid-beta (1-42) protein the main component of s
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Amyloid beta A4 fibril molecule Computer model showing the structure of the abeta fragment of a pathogenic amyloid fibril molecule Alzheimers disea
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Amyloid beta A4 fibril molecule Computer model showing the structure of the beta fragment of a pathogenic amyloid fibril molecule Alzheimers diseas
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Beta amyloid fibril structure Computer model showing a beta (1-42) amyloid fibril structure Beta amyloid is the primary component of amyloid plaques
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Beta amyloid fibril structure Computer model showing a beta (1-42) amyloid fibril structure Beta amyloid is the primary component of amyloid plaques
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Cross-beta amyloid fibril Computer model showing the structure of a cross-beta amyloid fibril made-up of peptides and proteins Beta amyloid is the p
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Cross-beta amyloid fibril Computer model showing the structure of a cross-beta amyloid fibril made-up of peptides and proteins Beta amyloid is the p
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Human beta-amyloid fibril molecule Computer model showing the structure of a human beta-amyloid two-fold fibril molecule Beta amyloid is the primary
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Amyloid beta peptide computer illustration This protein is the primary component of amyloid plagues in the brains of Alzheimers patients
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