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Illustration of an animal cell with an inset of a mitochondrion (brown) Mitochondria are organelles that produce energy for a cell by JULIEN TROMEU
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Illustration of an animal cell with an inset of a mitochondrion (brown) Mitochondria are organelles that produce energy for a cell by JULIEN TROMEU
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Illustration of an animal cell with an inset of a mitochondrion (brown) Mitochondria are organelles that produce energy for a cell by JULIEN TROMEU
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Illustration of an animal cell focusing on a mitochondrion (brown) Mitochondria are organelles that produce energy for a cell by JULIEN TROMEURSC
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Illustration of an animal cell with an inset of a mitochondrion (brown) Mitochondria are organelles that produce energy for a cell by JULIEN TROMEU
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Illustration of an animal cell with an inset of a mitochondrion (brown) Mitochondria are organelles that produce energy for a cell by JULIEN TROMEU
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Illustration of an animal cell focusing on a mitochondrion (brown) Mitochondria are organelles that produce energy for a cell by JULIEN TROMEURSC
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Illustration of an animal cell focusing on a mitochondrion (brown) Mitochondria are organelles that produce energy for a cell by JULIEN TROMEURSC
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Illustration of an animal cell focusing on a mitochondrion (brown) Mitochondria are organelles that produce energy for a cell by JULIEN TROMEURSC
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Illustration of an animal cell with an inset of a mitochondrion (brown) Mitochondria are organelles that produce energy for a cell by JULIEN TROMEU
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Illustration of an animal cell with an inset of a mitochondrion (brown) Mitochondria are organelles that produce energy for a cell by JULIEN TROMEU
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Illustration of an animal cell with an inset of a mitochondrion (brown) Mitochondria are organelles that produce energy for a cell by JULIEN TROMEU
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Mitochondrion illustration Mitochondria are organelles that produce energy for a cell by JULIEN TROMEURSCIENCE PHOTO LIBRARY
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Mitochondrion illustration Mitochondria are organelles that produce energy for a cell by JULIEN TROMEURSCIENCE PHOTO LIBRARY
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Glycolysis illustration
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Glycolysis illustration
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Glycolysis illustration
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Glycolysis illustration
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Glycolysis illustration
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ATP-ADP cycle illustration by ALI DAMOUHSCIENCE PHOTO LIBRARY
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ATP molecule illustration by ALI DAMOUHSCIENCE PHOTO LIBRARY
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ATP molecule illustration by ALI DAMOUHSCIENCE PHOTO LIBRARY
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Illustration of molecule of the brain type (CK-BB blue and green) and muscle type (CK-MM yellow and red) of creatine kinase in the bloodstream This
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Illustration of a molecule of the muscle type of creatine kinase (CK-MM yellow and red) This enzyme catalyses the phosphorylation of creatine to cre
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Illustration of a molecule of the brain type of creatine kinase (CK-BB blue and green) This enzyme catalyses the phosphorylation of creatine to crea
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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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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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Aerobic respiration and anaerobic fermentation illustration
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Aerobic respiration and anaerobic fermentation illustration
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Electron transport chain redox potentials illustration
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Pyruvate oxidation illustration
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Illustration of the proteins involved in oxidative phosphorylation in the mitochondrial membrane Oxidative phosphorylation produces energy in the fo
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Aerobic respiration illustration
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Epidermal growth factor receptor 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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Hexokinase enzyme binding to glucose illustration
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Hexokinase enzyme binding to glucose illustration
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Fluorescent micrograph showing healthy spinal cord neurons of mice with a mutation that causes amyotrophic lateral sclerosis (ALS) ALS is a disease t
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ATP synthase enzyme complex illustration
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Mitochondrion from a heart muscle cell TEM
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Mitochondrion from a heart muscle cell showing numerous cristae transmission electron micrograph (TEM) The mitochondrion is a membrane-enclosed orga
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Erythropoietin complexed with receptor Computer model showing the structure of human erythropoietin (yellow) complexed with its receptor (purple red
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Erythropoietin complexed with receptor Computer model showing the structure of human erythropoietin (yellow) complexed with its receptor (purple red
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cAMP-dependent protein kinase Computer model showing the structure of cAMP-dependent protein kinase with its catalytic subunit (green) and its regula
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cAMP-dependent protein kinase Computer model showing the structure of cAMP-dependent protein kinase with its catalytic subunit (green) and its regula
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cAMP-dependent protein kinase complex Computer model showing the structure of the regulatory subunit of a cAMP-dependent protein kinase A (PKA pink)
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cAMP-dependent protein kinase complex Computer model showing the structure of the regulatory subunit of a cAMP-dependent protein kinase A (PKA green
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cAMP-dependent protein kinase Computer model showing the structure of the alpha-catalytic subunit of a cAMP-dependent protein kinase (green) with its
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cAMP-dependent protein kinase Computer model showing the structure of the alpha-catalytic subunit of a cAMP-dependent protein kinase (purple) with it
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Mitochondrion from a heart muscle cell TEM
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Mitochondrion from a heart muscle cell showing numerous cristae coloured transmission electron micrograph (TEM) The mitochondrion is a membrane-encl
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Mitochondrion from a heart muscle cell TEM
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Mitochondrion from a heart muscle cell TEM
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Mitochondrion from a heart muscle cell TEM
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Mitochondrion from a heart muscle cell showing numerous cristae coloured transmission electron micrograph (TEM) The mitochondrion is a membrane-encl
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Mitochondrion from a heart muscle cell TEM
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Mitochondrion from a heart muscle cell showing numerous cristae coloured transmission electron micrograph (TEM) The mitochondrion is a membrane-encl
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Mitochondrion from a heart muscle cell showing numerous cristae coloured transmission electron micrograph (TEM) The mitochondrion is a membrane-encl
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Mitochondrion from a heart muscle cell TEM
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Microtubules 3D computer artwork Microtubules are polymers of the protein tubulin They are a component of the cytoskeleton which maintains a cell
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Microtubules 3D computer artwork Microtubules are polymers of the protein tubulin They are a component of the cytoskeleton which maintains a cell
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Microtubules 3D computer artwork Microtubules are polymers of the protein tubulin They are a component of the cytoskeleton which maintains a cell
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cAMP-dependent protein kinase molecular model This enzyme is also known as protein kinase A (PKA) This is the holoenzyme which consists of two reg
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cAMP-dependent protein kinase molecular model This enzyme is also known as protein kinase A (PKA) This is the holoenzyme which consists of two reg
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Molecular model of the human epidermal growth factor receptor showing an autophosphorylation site
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Molecular model of the human epidermal growth factor receptor showing an autophosphorylation site
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Hexokinase molecular model This enzyme promotes the conversion (phosphorylation) of glucose into glucose 6-phosphate Cells then use the glucose 6-p
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Hexokinase molecular model This enzyme promotes the conversion (phosphorylation) of glucose into glucose 6-phosphate Cells then use the glucose 6-p
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Hexokinase molecular model This enzyme promotes the conversion (phosphorylation) of glucose into glucose 6-phosphate Cells then use the glucose 6-p
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Hexokinase molecular model This enzyme promotes the conversion (phosphorylation) of glucose into glucose 6-phosphate Cells then use the glucose 6-p
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Hexokinase and glucose complex Molecular model of a complex between the enzyme hexokinase and the sugar glucose Hexokinase promotes the conversion (
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Hexokinase and glucose complex Molecular model of a complex between the enzyme hexokinase and the sugar glucose Hexokinase promotes the conversion (
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G-protein-linked receptor illustration
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G-protein-linked receptor Illustration of G-protein-mediated intracellular signalling A chemical signal (ligand orange upper left) attaches to a r
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Glycogen phosphorylase active site Computer model of a close-up of a molecule of the enzyme glycogen phosphorylase showing the structure of the acti
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Glycogen phosphorylase active site Computer model of a close-up of a molecule of the enzyme glycogen phosphorylase showing the structure of the acti
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Glycogen phosphorylase molecule Computer model showing the structure of a molecule of the enzyme glycogen phosphorylase with glycogen molecules (uppe
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Glycogen phosphorylase molecule Computer model showing the structure of a molecule of the enzyme glycogen phosphorylase Glycogen phosphorylase catal
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Glycogen phosphorylase active site Computer model of a close-up of a molecule of the enzyme glycogen phosphorylase showing the structure of the acti
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Glycogen phosphorylase molecule Computer model showing the structure of a molecule of the enzyme glycogen phosphorylase Glycogen phosphorylase catal
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Glycogen phosphorylase molecule Computer model showing the structure of a molecule of the enzyme glycogen phosphorylase Glycogen phosphorylase catal
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Glycogen phosphorylase molecule Computer model showing the structure of a molecule of the enzyme glycogen phosphorylase Glycogen phosphorylase catal
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Excitatory synaptic vesicle illustration A synapse is a junction between two neurons (nerve cells) An excitatory synapse increases the likelihood o
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Excitatory synaptic vesicle illustration A synapse is a junction between two neurons (nerve cells) An excitatory synapse increases the likelihood o
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Excitatory synapse illustration A synapse is a junction between two neurons (nerve cells) An excitatory synapse increases the likelihood of an acti
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cAMP-dependent protein kinase molecular model This enzyme is also known as protein kinase A (PKA) This is the holoenzyme which consists of two reg
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cAMP-dependent protein kinase molecular model This enzyme is also known as protein kinase A (PKA) This is the holoenzyme which consists of two reg
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NADH dehydrogenase molecule Computer artwork showing the structure of a molecule of NADH dehydrogenase (NADHubiquinone reductase or Complex I) This
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P32 mitochondrial matrix protein molecular model Also known as SF2-associated p32 (SF2P32) this protein is found in the matrix of cellular mitochon
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P32 mitochondrial matrix protein
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Protein research laboratory
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Protein kinase research
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Protein kinase research Synthesising protein kinases as part of research to determine the selectivity of protein kinase inhibitors and their use in d
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Protein kinase research
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Protein kinase research
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Protein kinase research Researcher synthesising protein kinases as part of research to determine the selectivity of protein kinase inhibitors and the
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Protein kinase research Researcher holding a rack of test tubes being used in the synthesis of protein kinases as part of research to determine the s
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