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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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SpCas9 enzymes splicing DNA illustration
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SpCas9 enzymes splicing DNA illustration
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SpCas9 enzymes splicing DNA illustration
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May 28 2018 University of Tokyo Tokyo Japan Takao Hensch Professor Molecular Cellular BiologyProfessor Neurology Boston Childrens Hospita
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Illustration of the molecular structure of uric acid a compound with clinical significance linked to gout and metabolic disorders by KATERYNA KONS
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Illustration of the molecular structure of uric acid a compound with clinical significance linked to gout and metabolic disorders by KATERYNA KONS
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Illustration of the molecular structure of uric acid a compound with clinical significance linked to gout and metabolic disorders by KATERYNA KONS
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Illustration of the molecular structure of uric acid a compound with clinical significance linked to gout and metabolic disorders by KATERYNA KONS
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Illustration of the molecular structure of uric acid a compound with clinical significance linked to gout and metabolic disorders by KATERYNA KONS
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Illustration of the molecular structure of uric acid a compound with clinical significance linked to gout and metabolic disorders by KATERYNA KONS
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Illustration of the molecular structure of uric acid a compound with clinical significance linked to gout and metabolic disorders by KATERYNA KONS
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Illustration of the molecular structure of uric acid a compound with clinical significance linked to gout and metabolic disorders by KATERYNA KONS
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Illustration of the molecular structure of uric acid a compound with clinical significance linked to gout and metabolic disorders by KATERYNA KONS
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May 28 2018 University of Tokyo Tokyo Japan Takao Hensch Professor Molecular Cellular BiologyProfessor Neurology Boston Childrens Hospita
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Illustration of the molecular structure of uric acid a compound with clinical significance linked to gout and metabolic disorders by KATERYNA KONS
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Illustration of the molecular structure of uric acid a compound with clinical significance linked to gout and metabolic disorders by KATERYNA KONS
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Illustration of the molecular structure of uric acid a compound with clinical significance linked to gout and metabolic disorders by KATERYNA KONS
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Illustration of the molecular structure of uric acid a compound with clinical significance linked to gout and metabolic disorders by KATERYNA KONS
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Illustration of the molecular structure of uric acid a compound with clinical significance linked to gout and metabolic disorders by KATERYNA KONS
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Illustration of the molecular structure of uric acid a compound with clinical significance linked to gout and metabolic disorders by KATERYNA KONS
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Illustration of the molecular structure of uric acid a compound with clinical significance linked to gout and metabolic disorders by KATERYNA KONS
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Illustration of the molecular structure of uric acid a compound with clinical significance linked to gout and metabolic disorders by KATERYNA KONS
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Illustration of the molecular structure of uric acid a compound with clinical significance linked to gout and metabolic disorders by KATERYNA KONS
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May 28 2018 University of Tokyo Tokyo Japan Makoto Gonokami President of the University of Tokyo during the opening ceremony for the Internatio
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Illustration of the molecular structure of uric acid a compound with clinical significance linked to gout and metabolic disorders by KATERYNA KONS
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Illustration of the molecular structure of uric acid in circulation emphasising its presence within the bloodstream during metabolic processes by K
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Illustration of the molecular structure of uric acid in circulation emphasising its presence within the bloodstream during metabolic processes by K
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Illustration of the molecular structure of uric acid in circulation emphasising its presence within the bloodstream during metabolic processes by K
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Personalised medicine conceptual illustration by JULIEN TROMEURSCIENCE PHOTO LIBRARY
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Personalised medicine conceptual illustration by JULIEN TROMEURSCIENCE PHOTO LIBRARY
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Neurospora crassa fungus Neurospora crassa is a model filamentous fungus used in genetics and molecular biology research by Wladimir BulgarSCIENCE
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Molecular biology conceptual illustration by JULIEN TROMEURSCIENCE PHOTO LIBRARY
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DNA (deoxyribonucleic acid) molecules illustration by JULIEN TROMEURSCIENCE PHOTO LIBRARY
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May 28 2018 University of Tokyo Tokyo Japan Takao Hensch Professor Molecular Cellular BiologyProfessor Neurology Boston Childrens Hospita
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Stomach conceptual illustration by JULIEN TROMEURSCIENCE PHOTO LIBRARY
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Stomach conceptual illustration by JULIEN TROMEURSCIENCE PHOTO LIBRARY
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Personalised medicine conceptual illustration by JULIEN TROMEURSCIENCE PHOTO LIBRARY
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Personalised medicine conceptual illustration by JULIEN TROMEURSCIENCE PHOTO LIBRARY
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Neurology research conceptual illustration by JULIEN TROMEURSCIENCE PHOTO LIBRARY
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Neurology research conceptual illustration by JULIEN TROMEURSCIENCE PHOTO LIBRARY
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Neurology research conceptual illustration by JULIEN TROMEURSCIENCE PHOTO LIBRARY
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Neurology research conceptual illustration by JULIEN TROMEURSCIENCE PHOTO LIBRARY
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Neurology research conceptual illustration by JULIEN TROMEURSCIENCE PHOTO LIBRARY
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May 28 2018 University of Tokyo Tokyo Japan Makoto Gonokami President of the University of Tokyo during the opening ceremony for the Internatio
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Neurology research conceptual illustration by JULIEN TROMEURSCIENCE PHOTO LIBRARY
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Neurology research conceptual illustration by JULIEN TROMEURSCIENCE PHOTO LIBRARY
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Glucose release during exercise conceptual illustration by JULIEN TROMEURSCIENCE PHOTO LIBRARY
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Man doing a push-up illustration by JULIEN TROMEURSCIENCE PHOTO LIBRARY
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Man doing biceps curls illustration by JULIEN TROMEURSCIENCE PHOTO LIBRARY
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Man using a kettlebell illustration by JULIEN TROMEURSCIENCE PHOTO LIBRARY
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Man using a kettlebell illustration by JULIEN TROMEURSCIENCE PHOTO LIBRARY
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Man using a kettlebell illustration by JULIEN TROMEURSCIENCE PHOTO LIBRARY
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Man doing a weighted squat illustration by JULIEN TROMEURSCIENCE PHOTO LIBRARY
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May 28 2018 University of Tokyo Tokyo Japan Takao Hensch Professor Molecular Cellular BiologyProfessor Neurology Boston Childrens Hospita
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Man doing a weighted squat illustration by JULIEN TROMEURSCIENCE PHOTO LIBRARY
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Man doing a weighted squat illustration by JULIEN TROMEURSCIENCE PHOTO LIBRARY
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Man doing a weighted squat illustration by JULIEN TROMEURSCIENCE PHOTO LIBRARY
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Polio virus research conceptual image Scientist pipetting a sample into a petri dish with a molecular model of a polio virus particle in the backgro
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Polio virus research conceptual image Scientist pipetting a sample into a petri dish with a molecular model of a polio virus particle in the backgro
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Pharmaceutical research conceptual image Scientist viewing a molecular model of a virus by TEK IMAGESCIENCE PHOTO LIBRARY
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Pharmaceutical research conceptual image Scientist viewing a molecular model of a virus by TEK IMAGESCIENCE PHOTO LIBRARY
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Infectious disease research conceptual image Scientist holding a culture jar containing virus particles with a molecular model of a virus the backgr
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Infectious disease research conceptual image Scientist pipetting a sample into multiwell plate containing samples with a molecular model of a virus
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BCOMMERCIAL USE REQUIRES CLEARANCE Francis Crick (1916-2004) British molecular biologist and co- discoverer of the structure of DNA Cricks educat
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Infectious disease research conceptual image Cell jar containing virus particles with a molecular model of a virus the background by TEK IMAGESCI
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Infectious disease research conceptual image Cell jar containing virus particles with a molecular model of a virus the background by TEK IMAGESCI
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Infectious disease research conceptual image Scientist holding a culture jar containing virus particles with a molecular model of a virus the backgr
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Infectious disease research conceptual image Scientist holding a vial containing a sample with a molecular model of a virus the background by TEK
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Infectious disease research conceptual image Scientist holding a multiwell plate containing samples with a molecular model of a virus the background
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Genetic engineering conceptual illustration by DARPASCIENCE PHOTO LIBRARY
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Light micrograph of a cerebellar cortex showing the molecular and granular layers The large Purkinje cells are located between the molecular and gran
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Light micrograph of a cerebellar cortex folium showing the molecular and granular layer and a central axis of white matter Purkinje cells located bet
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Light micrograph of the dentate gyrus of the hippocampus showing from top molecular layer granular layer with tightly packed small neurons and pol
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Sydney Brenner (born 1927) South African-British molecular biologist lecturing at the laboratory of Molecular Biology Cambridge England in 1983 B
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Light micrograph of cerebellar cortex stained with Cajal silver nitrate showing axons of basket cells running above and parallel to Purkinje cells and
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Light micrograph of cerebellar cortex stained with Cajal silver nitrate showing axons of basket cells running above and parallel to Purkinje cells and
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Light micrograph of cerebellar cortex stained with Cajal silver nitrate showing axons of basket cells running above and parallel to Purkinje cells and
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Cerebellar cortex light micrograph
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Light micrograph of cerebellar cortex stained with Luxol fast blue and cresyl violet Myelinated fibres of the white matter stained in blue with Luxo
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Light micrograph of cerebellar cortex stained with Cajal silver nitrate At this low magnification the basket endings surrounding the Purkinje cell b
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Light micrograph of cerebellar cortex stained with Luxol fast blue and cresyl violet Myelinated fibres of the white matter stained in blue with Luxo
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Light micrograph of cerebellar cortex stained with Luxol fast blue and cresyl violet Myelinated fibres of the white matter stained in blue with Luxo
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Light micrograph of a sagittal section of cerebellum stained with Luxol fast blue and cresyl violet Each cerebellar folium shows the molecular and gr
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BCOMMERCIAL USE REQUIRES CLEARANCE Francis Crick (1916-2004) British molecular biologist and co- discoverer of the structure of DNA Cricks educat
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Light micrograph of a sagittal section of cerebellum stained with Luxol fast blue and cresyl violet Each cerebellar folium shows the molecular and gr
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Light micrograph of an immature cerebellar folium showing the external granular layer a secondary germinal zone that produces the millions of granule
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Light micrograph of an immature cerebellar folium showing the external granular layer a secondary germinal zone that produces the millions of granule
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Cerebellum light micrograph
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Immature cerebellum light micrograph This is the external granular layer Cerebellar granule cells are also the most numerous neurons in the brain (
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Immature cerebellum light micrograph This is the external granular layer Cerebellar granule cells are also the most numerous neurons in the brain (
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Hippocampus or Ammon horn layers light micrograph From top stratum oriens pyramidal layer stratum radiatum stratum lacunosum molecular molecu
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CRISPR treatment for sickle cell anaemia conceptual illustration Red blood cells affected by sickle cell anaemia (red and white) having their DNA (d
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CRISPR treatment for sickle cell anaemia conceptual illustration Red blood cells affected by sickle cell anaemia (red and white) having their DNA (d
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BCOMMERCIAL USE REQUIRES CLEARANCE Francis Crick (1916-2004) British molecular biologist and co- discoverer of the structure of DNA Cricks educat
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