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Inner ear hair cells illustration
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Inner ear hair cells illustration
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Inner ear hair cells illustration
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Inner ear hair cells illustration
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Inner ear hair cells illustration
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Inner ear hair cells illustration
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Inner ear hair cells illustration
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Inner ear hair cells illustration
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Retinal cyclic nucleotide-gated channel illustration
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Insulin receptor molecule illustration
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Toll-like receptor 3 complexed with RNA molecular model
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Toll-like receptor 3 (TLR3) complexed with dsRNA molecular model Tetrameric TLR3 (navy blue medium purple) is complexed with a double-stranded RNA
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Raf-MEK-ERK pathway illustration
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Illustration of a cell membrane showing the proteins involved in the Raf-MEK-ERK or MAPKERK pathway The signal cascade begins when epidermal growt
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Notum carboxylesterase illustration
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Notum carboxylesterase illustration
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Insulin receptor molecule illustration
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B cell receptor dimer illustration
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B cell receptor dimer illustration
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B cell receptor illustration
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Illustration of B cell receptor on the surface of a B cell (purple and orange phospholipid bilayer) B cells also known as B lymphocytes are a type o
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Solute carrier protein and cAMP illustration
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Somatostatins binding to somatostatin receptor illustration
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Somatostatin binding to somatostatin receptor illustration
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Epidermal growth factor receptor illustration
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Somatostatin hormone molecules illustration
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Epidermal growth factor and receptor complex illustration
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Epidermal growth factor and receptor complex illustration
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Epidermal growth factor molecules illustration
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Vascular endothelial growth factor receptor illustration
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Active insulin receptors illustration
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Active insulin receptor illustration
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Insulin receptor illustration
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Insulin receptor illustration The insulin receptor (blue) is a transmembrane protein that becomes activated through the binding of insulin (orange)
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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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Activation of rhodopsin by light molecular model
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Molecular model showing the activation of rhodopsin by light in a photoreceptor cell Rhodopsin (purple top centre) is a light sensitive G-protein c
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Activation of rhodopsin by light molecular model
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Activation of rhodopsin by light molecular model
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GABA-B receptor activation molecular model
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GABA B receptor binding to baclofen molecular model
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GABA-B receptor binding to baclofen molecular model
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Setmelanotide anti-obesity drug molecular mode
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Setmelanotide anti-obesity drug molecular mode
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T cell receptor activation molecular model
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Dabrafenib cancer drug packaging
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Dabrafenib (Tafinlar) cancer drug capsule
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Dabrafenib cancer drug
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Moving-coil microphone diagram
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Signal transduction histidine kinase
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Signal transduction histidine kinase
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Bacterial response regulator bound to DNA
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Bacterial response regulator bound to DNA (deoxyribonucleic acid) Computer model showing a bacterial signal transduction response regulator PhoB (cya
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Cell signalling illustration
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Cell signalling illustration
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Cell signalling illustration Signalling molecules (blue spheres) secreted by one cell bind to receptors on the membrane of a nearby cell This trigg
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Cell signal transduction illustration
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Heterotrimeric G protein molecule
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Heterotrimeric G protein molecule
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G protein complex
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G protein complex
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Heterotrimeric G protein complex molecule
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Heterotrimeric G protein complex molecule
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Illustration of signal transduction
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Damaged vestibular stereocilia artwork The vestibular system (part of the labyrinth of the inner ear) contributes to balance and provides the sense
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Vestibular stereocilia artwork
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Wnt signalling pathways illustration
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Coloured scanning electron micrograph (SEM) of Reissners membrane in the organ of Corti in the cochlear of the inner ear This membrane separates the
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Coloured scanning electron micrograph (SEM) of the surface of the inner sulcus in the organ of Corti in the cochlear of the inner ear This area is li
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Reissners membrane SEM
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Organ of Corti tectorial membrane SEM
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Organ of Corti tectorial membrane SEM
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Coloured scanning electron micrograph (SEM) of the tectorial membrane (upper frame) from the organ of Corti in the cochlear of the inner ear In the o
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Organ of Corti tectorial membrane SEM
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Coloured scanning electron micrograph (SEM) of nerve cells (pink) in the organ of Corti in the cochlear of the inner ear In the organ of Corti vibrat
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Coloured scanning electron micrograph (SEM) of the tectorial membrane (upper frame) from the organ of Corti in the cochlear of the inner ear In the o
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Organ of Corti SEM
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Coloured scanning electron micrograph (SEM) of the organ of Corti in the cochlear of the inner ear The tectorial membrane is brown Beneath it V-sha
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Organ of Corti SEM
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Organ of Corti SEM
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Organ of Corti SEM
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Organ of Corti SEM
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Organ of Corti SEM
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Coloured scanning electron micrograph (SEM) of the organ of Corti in the cochlear of the inner ear The tectorial (upper) membrane (upper right) has b
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Organ of Corti SEM
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Organ of Corti SEM
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Coloured scanning electron micrograph (SEM) of a section through the organ of Corti in the cochlear of the inner ear Outer hair cells are red and the
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Organ of Corti SEM
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Organ of Corti SEM
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Organ of Corti SEM
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Organ of Corti SEM
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Organ of Corti SEM
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Organ of Corti SEM
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Organ of Corti SEM
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Coloured scanning electron micrograph (SEM) of a section through the organ of Corti in the cochlear of the inner ear The tectorial (upper) membrane (
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Coloured scanning electron micrograph (SEM) of a section through the organ of Corti in the cochlear of the inner ear The tectorial (upper) membrane (
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Coloured scanning electron micrograph (SEM) of a section through the organ of Corti in the cochlear of the inner ear The tectorial (upper) membrane (
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Coloured scanning electron micrograph (SEM) of a section through the organ of Corti in the cochlear of the inner ear The tectorial (upper) membrane (
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Organ of Corti SEM
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