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Magnesium transporter molecule illustration
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Neural synapse illustration
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Neural synapse illustration
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Neural synapse illustration
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Neural synapse illustration
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Neural synapse illustration
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Ryanodine receptor molecule illustration
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Illustration of the US physiologist David Julius (born 1955) Julius is best known for his work on ion channels particularly temperature-sensitive io
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Illustration of the US-Armenian neuroscientist and molecular biologist Ardem Patapoutian (born 1967) Patapoutian was born in Lebanon to an Armenian f
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Yeast nucleus Coloured scanning electron micrograph (SEM) of the nucleus (blue round) of the yeast Saccharomyces cerevisiae The nucleus contains th
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Passage of ions through gap junctions illustration
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Illustration of the transient receptor potential cation channel subfamily V member 2 (TRPV2) binding cannabidiol (red) TRPV2 can be activated by th
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Illustration of the transient receptor potential cation channel subfamily M member 7 (TRPM7) in its open (top left) and closed (top right) configur
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Illustration of a cyclic nucleotide-gated (CNG) channel found in the retinal rod cells of a cow in its closed conformation The retina is the light s
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Illustration of the human voltage-gated potassium (Kv) ion channel Kv42 in complex with its dipeptidyl peptidase-related protein 6 (DPP6) modulator
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Illustration of the calcium homeostasis modulator 1 (CALHM1) channel in its open state This pore-forming transmembrane protein is found in nerve cell
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Illustration of ion (blue) transport across the plasma membrane (pink) via a transmembrane protein channel (yellow) When the channel is closed (left
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Illustration of a cross-section of a lysosome that contains hydrolytic enzymes (bright orange) Lysosomes are membrane-bound organelles made up of a p
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Illustration of a cross-section of a lysosome that contains hydrolytic enzymes (light blue) Lysosomes are membrane-bound organelles made up of a phos
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Illustration of a model for the potassium and sodium ion channels through pores in the plasma membrane of an animal nerve cell an example of active t
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Illustration of the structure of a human connexin 313 hemichannel in the absence of calcium ions Connexins form large-pore channels that function ei
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Mikashika Pond Nagano Pref
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Mikashika Pond Nagano Pref
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Mikashika Pond Nagano Pref
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Mikashika Pond Nagano Pref
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Nerve ion channel Contour map (from electron micrograph data) of an acetylcholine receptor a large molecule that controls the transmission of a nerv
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Illustration of an AMPA receptor (a-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid receptor) on a dark background These receptors belong to the g
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Illustration of an AMPA receptor (a-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid receptor) These receptors belong to the glutamate receptors an
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Human connexin 26 hexamer molecular model Connexins form large-pore channels that function either as dodecameric gap junctions or hexameric hemichan
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Human connexin 26 hexamer molecular model Connexins form large-pore channels that function either as dodecameric gap junctions or hexameric hemichan
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Human connexin 26 dodecamer molecular model Connexins form large-pore channels that function either as dodecameric gap junctions or hexameric hemich
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Human connexin 26 dodecamer molecular model Connexins form large-pore channels that function either as dodecameric gap junctions or hexameric hemich
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NMDA receptor illustration
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Voltage-gated potassium channel illustration
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Ion channel Molecular model of an ion channel formed by a bundle of five alamethicin molecules (light blue) surrounded by water molecules (red and wh
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Illustration of small conductance mechanosensitive channels (MscS) from an Escherichia coli bacterium MscSs play a critical role in converting physic
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Voltage-gated sodium channel pore molecular model
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Illustration of the sodium potassium (NaK) channel from the bacterium Bacillus cereus This non-selective channel facilitates the transport of sodium
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Illustration of the human transmembrane protein gap junction alpha-1 (GJA1) also known as connexin43 GJA1 is a component of gap junctions or nexuse
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Illustration of healthy (left) and unhealthy (right) ventricular muscles and their action potentials by CHONGQING TUMI TECHNOLOGY LTDSCIENCE PHOTO
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Ventricular action potential and ECG (electrocardiogram) illustration Ventricular depolarization produces QRS and repolarization produces T waves on
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Sodium channel activity and action potential illustration
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Electrical classification of cardiomyocytes illustration Fast response cells and slow response cells are classified according to the depolarization
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Capsaicin receptor TRPV1 binding to ligands (red) illustrationTRPV1 is an ion channel that senses heat regulates the body temperature and contribu
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Calcium channel blockers Computer artwork of calcium ions (orange) being blocked from calcium channels by calcium channel blocker drugs (grey) These
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Yeast nuclear pore complex molecular model
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Human nuclear pore complex molecular model
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Mikashika Pond Nagano Pref
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Mikashika Pond Nagano Pref
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Mikashika Pond Nagano Pref
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Nuclear pore complex molecular model
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Action of sleeping drugs Artwork of the face of a sleeping woman cut away to show a magnified image of sleeping drugs acting on nerve cells (neurones
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Nuclear pore complex molecular model
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Nucleocytoplasmic transport illustration
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Beryl crystal structure and symmetry illustration
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Beryl crystal structure and symmetry illustration
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Beryl crystal structure and symmetry illustration
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Beryl crystal structure and symmetry illustration
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Lithium iron phosphate molecular model
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AMPA receptor illustration
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Illustration of an AMPA (a-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid receptor) neurotransmitter receptor These receptors belong to the gluta
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Active Sun SOHO image of solar activity showing loops in the corona the outer layer of the Sun The temperature of the material here is around a mi
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Transmission electron micrograph (TEM) of the ultrastructure of a gap junction or nexus between two apposed cells separated by only 2-3 nanometres
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Human potassium channel Kv42 molecular model The image shows the potassium voltage-gated channel subfamily D member 2 (orange and blue) One of the
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Human potassium channel Kv42 molecular model The image shows the potassium voltage-gated channel subfamily D member 2 (orange and blue) One of the
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Membrane potassium channel TMEM175 molecular model The image shows the endosomallysosomal potassium channel TMEM175 Four potassium ions are shown
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Membrane potassium channel TMEM175 molecular model The image shows the endosomallysosomal potassium channel TMEM175 Four potassium ions are shown
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Active Sun SOHO image of solar activity showing loops in the corona the outer layer of the Sun The temperature of the material here is around a mi
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SARS coronavirus envelope channel molecular model The envelope (E) protein is a small membrane protein that forms pentameric ion channels Photo by
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SARS coronavirus envelope channel molecular model The envelope (E) protein is a small membrane protein that forms pentameric ion channels Photo by
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Sodium potassium ion channel molecular model The image shows the potassium channel proteins (green cyan) and one of the six potassium ions (purple)
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Sodium potassium ion channel molecular model The image shows the potassium channel proteins (green cyan) and one of the six potassium ions (purple)
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Ion channels are membrane proteins that create pathways for charged ions to pass through the membrane Photo by ARTUR PLAWGO SCIENCE PHOTO LIBRARY
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Illustration of cell membrane with an ion channel Photo by ARTUR PLAWGO SCIENCE PHOTO LIBRARY
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Image of the edge of a quiet river
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Hippocampus tissue Confocal light micrograph of a section through the hippocampus of the brain Neurons (nerve cells) have been labelled with green f
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Illustration showing the electrical classification of cardiomyocytes Fast response cells and slow response cells are classified according to their de
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Electrocardiogram (ECG) illustration showing the relationship between sodium channel activity and action potential The sodium channel quickly opens a
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Electrocardiogram (ECG) illustration showing ventricular muscle action potential Ventricular depolarization produces QRS waves and repolarization pro
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Ojikaike Nagano Prefecture
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Ojikaike Nagano Prefecture
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Erectile dysfunction drug and target
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Water transport across cell membrane illustration
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Nerve ion channel 3-D composite electron micrograph of an acetylcholine receptor a large molecule that controls the transmission of a nerve impulse
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