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Red blood cells illustration Red blood cells are biconcave giving them a large surface area for gas exchange and highly elastic enabling them to
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Red blood cells illustration Red blood cells are biconcave giving them a large surface area for gas exchange and highly elastic enabling them to
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Illustration of a haemoglobin molecule Haemoglobin is a metalloprotein that transports oxygen around the body in red blood cells Each molecule consi
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Illustration of a haemoglobin molecule Haemoglobin is a metalloprotein that transports oxygen around the body in red blood cells Each molecule consi
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Illustration of a haemoglobin molecule Haemoglobin is a metalloprotein that transports oxygen around the body in red blood cells Each molecule consi
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Illustration of a haemoglobin molecule Haemoglobin is a metalloprotein that transports oxygen around the body in red blood cells Each molecule consi
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Haemoglobin illustration
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Haemoglobin illustration
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Discovery of myoglobins structure conceptual illustration
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Lake Tahoe California March 29 1934Heavyweight boxing contender Max Baer (right) and friends look over the Sierra Mountains from Globins Hotel on
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Haemoglobin illustration Haemoglobin is a metalloprotein that transports oxygen around the body in red blood cells Each molecule consists of iron-c
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Haemoglobin illustration
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Haemoglobin illustration
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Liver and stomach Coloured computed tomography (CT) scan of a transverse section of the abdomen showing the liver (left yellow and red) and the stom
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Haemoglobin Molecular model of haemoglobin a metalloprotein that transports oxygen around the body in red blood cells It has four iron-containing h
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Haemoglobin Molecular model of haemoglobin a metalloprotein that transports oxygen around the body in red blood cells It has four iron-containing h
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Haemoglobin Molecular model of haemoglobin a metalloprotein that transports oxygen around the body in red blood cells It has four iron-containing h
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Red blood cells Artwork of red blood cells (erythrocytes) and platelets (thrombocytes blue) Red blood cells contain the oxygen-carrying pigment hae
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Haem group Computer graphic of the molecular structure of a haem group part of the blood protein haemoglobin which carries oxygen and carbon dioxide
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Lake Tahoe California March 29 1934Heavyweight contender Max Baer (with mailbag on shoulder) and friends on the dock at Globins Hotel on Lake Ta
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Haem group Blurred molecular graphic of a haem group the part of the protein haemoglobin that gives blood its red colour Haemoglobin transports oxy
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Haem group molecule
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Haemoglobin Computer artwork of haemoglobin molecules on a background of red blood cells (red) Haemoglobin is the oxygen-carrying pigment in red blo
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Iron-deficiency anaemia and haemoglobin Artwork of irregularly shaped red blood cells (red) in a patient suffering from iron-deficiency anaemia At c
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Woolly mammoth hemoglobin Computer model of woolly mammoth hemoglobin The globin gene sequences were determined using DNA (deoxyribonucleic acid) re
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Human haemoglobin molecular model This molecule transports oxygen around the body in red blood cells It consists of four globin proteins (amino aci
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Myoglobin molecule Computer model showing the structure of a myoglobin molecule Myoglobin is a protein found in muscle tissue where it binds to and
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Light micrograph (LM) of Haemoglobin crystals Haemoglobin or haemoglobin is the iron-containing oxygen-transport metalloprotein in the red cells of t
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Haemoglobin molecular model This molecule transports oxygen around the body in red blood cells It consists of four globin proteins (amino acid chai
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Myoglobin Computer model of the protein myoglobin and its iron-containing haem group (small spheres upper centre) Myoglobin consists of a chain of
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Haemoglobin molecular model This molecule transports oxygen around the body in red blood cells It consists of four globin proteins (amino acid chai
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Haematology laboratory Haematologist using minicap flex piercing to analyse blood samples for haemoglobinopathy Haemoglobinopathies are genetic defe
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Haematology laboratory
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Haematology laboratory Screen showing the results of minicap flex piercing to test for haemoglobinopathy in blood samples Haemoglobinopathies are ge
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Haematology laboratory
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Haematology laboratory Haematologist preparing blood samples for minicap flex piercing to test for haemoglobinopathy Haemoglobinopathies are genetic
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Haematology laboratory
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Haemoglobin molecular model
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Molecular model of haemoglobin from the giant tube worm (Riftia pachyptila) Haemoglobin transports oxygen around the body
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Haemoglobin Computer model of the haemoglobin molecule that transports oxygen around the body in red blood cells It has four iron-containing haem gr
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Haemoglobin molecular model
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Haemoglobin molecular model
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Haemoglobin molecular model This is deoxyhaemoglobin the molecule in its non-oxygen bound state Haemoglobin transports oxygen around the body in r
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Haemoglobin molecular model This is deoxyhaemoglobin the molecule in its non-oxygen bound state Haemoglobin transports oxygen around the body in r
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Haemoglobin in red blood cell Artwork of a red blood cell (erythrocyte) with a model of the oxygen-carrying haemoglobin molecule It is this molecule
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Myoglobin protein Molecular model showing the structure of the myoglobin protein Myoglobin is a protein found in muscle tissue where it binds to an
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Haemoglobin molecular model This is deoxyhaemoglobin the molecule in its non-oxygen bound state Haemoglobin transports oxygen around the body in r
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Haemoglobin molecular model This is deoxyhaemoglobin the molecule in its non-oxygen bound state Haemoglobin transports oxygen around the body in r
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Haemoglobin molecular model This molecule transports oxygen around the body in red blood cells It consists of four globin proteins (amino acid chai
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Haemoglobin Computer model of the haemoglobin molecule that transports oxygen around the body in red blood cells It has four iron-containing haem gr
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Haemoglobin molecular model This molecule transports oxygen around the body in red blood cells It consists of four globin proteins (amino acid chai
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Myoglobin molecule Computer model showing the structure of a myoglobin molecule Myoglobin is a protein found in muscle tissue where it binds to and
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Myoglobin molecule Computer model showing the structure of a myoglobin molecule Myoglobin is a protein found in muscle tissue where it binds to and
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Myoglobin molecule Computer model showing the structure of a myoglobin molecule Myoglobin is a protein found in muscle tissue where it binds to and
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Myoglobin molecule Computer model showing the structure of a myoglobin molecule Myoglobin is a protein found in muscle tissue where it binds to and
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Myoglobin molecule
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Myoglobin molecule Computer model showing the structure of a myoglobin molecule Myoglobin is a protein found in muscle tissue where it binds to and
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Myoglobin molecule Computer model showing the structure of a myoglobin molecule Myoglobin is a protein found in muscle tissue where it binds to and
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Myoglobin molecule
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Iron in the blood Computer artwork of iron molecules on a background of red blood cells (red) Iron atoms within the haemoglobin molecules of red blo
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Haemoglobin S Molecular model of the mutant form of haemoglobin (haemoglobin S) that causes sickle cell anaemia This is deoxyhaemoglobin S the mole
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Haemoglobin S molecular model
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Haemoglobin molecular model This is deoxyhaemoglobin the molecule in its non-oxygen bound state Haemoglobin transports oxygen around the body in r
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Haemoglobin molecular model This is deoxyhaemoglobin the molecule in its non-oxygen bound state Haemoglobin transports oxygen around the body in r
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Haemoglobin molecular model This molecule transports oxygen around the body in red blood cells It consists of four globin proteins (amino acid chai
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Haemoglobin molecular model This molecule transports oxygen around the body in red blood cells It consists of four globin proteins (amino acid chai
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Haemoglobin molecule Computer artwork showing the structure of a molecule of haemoglobin Haemoglobin is a metalloprotein that transports oxygen arou
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Glycated haemoglobin molecule Computer model of a glycated haemoglobin molecule The alpha and beta subunits of the haemoglobin are blue and pink an
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Glycated haemoglobin molecule Computer model showing a glucose molecule (centre) bound to a molecule of haemoglobin The alpha and beta subunits of t
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Haemoglobin Computer artwork of part of a haemoglobin molecule the oxygen-carrying pigment found in red blood cells The haem groups are represented
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Glycated haemoglobin molecule
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Glycated haemoglobin molecule
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Myoglobin molecule Computer model showing the structure of a Myoglobin molecule Myoglobin is a protein found in muscle tissue where it binds to and
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Myoglobin molecule Computer model showing the structure of a Myoglobin molecule Myoglobin is a protein found in muscle tissue where it binds to and
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Haemoglobin molecule artwork
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Haemoglobin molecule Computer artwork showing the molecular structure of haemoglobin a metalloprotein that transports oxygen around the body in red
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Myoglobin Computer model of the protein myoglobin and its iron-containing haem group (small spheres upper centre) Myoglobin consists of a chain of
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Myoglobin Computer model of the protein myoglobin that contains the iron-containing haem group (not seen) Myoglobin consists of a chain of 153 amino
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Myoglobin Computer model of the protein myoglobin that contains the iron-containing haem group (not seen) Myoglobin consists of a chain of 153 amino
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Haemoglobin molecule artwork Haemoglobin is an oxygen-carrying molecule found in red blood cells (erythrocytes red upper frame) It contains four g
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Haemoglobin and haem molecular models Haemoglobin (left) is the molecule that transports oxygen around the body in red blood cells and carries wast
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Haemoglobin molecular model This molecule transports oxygen around the body in red blood cells It consists of four globin proteins (amino acid chai
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Haemoglobin molecular model Haemoglobin is a metalloprotein that transports oxygen around the body in red blood cells Each molecule consists of iro
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Haemoglobin molecular model This is deoxyhaemoglobin the molecule in its non-oxygen bound state Haemoglobin transports oxygen around the body in r
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Haemoglobin S Molecular model of the mutant form of haemoglobin (haemoglobin S) that causes sickle cell anaemia This is deoxyhaemoglobin S the mole
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Haemoglobin molecular model This is deoxyhaemoglobin the molecule in its non-oxygen bound state Haemoglobin transports oxygen around the body in r
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Myoglobin molecule
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Myoglobin molecular model Myoglobin is a protein found in muscle tissue where it binds to and stores oxygen to be used during strenuous exercise T
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Haemoglobin molecular model Haemoglobin is a metalloprotein that transports oxygen around the body in red blood cells Each molecule consists of iro
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Myoglobin computer model Myoglobin is a protein chain of 153 amino acids folded into a molecule with a molecular weight of 17800 It has a similar
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Haemoglobin molecule Computer artwork showing the structure of a haemoglobin molecule Haemoglobin is a metalloprotein that transports oxygen around
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Haemoglobin molecule Computer artwork showing the tertiary structure of a haemoglobin monomer subunit with its active site at centre Haemoglobin is
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Haemoglobin molecule Computer artwork showing the tertiary structure of a haemoglobin monomer subunit Haemoglobin is a metalloprotein that transport
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Haemoglobin molecule Computer artwork showing the tertiary structure of a haemoglobin monomer subunit Haemoglobin is a metalloprotein that transport
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Haemoglobin molecular model This is deoxyhaemoglobin the molecule in its non-oxygen bound state Haemoglobin transports oxygen around the body in r
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Haemoglobin S Molecular model of the mutant form of haemoglobin (haemoglobin S) that causes sickle cell anaemia This is deoxyhaemoglobin S the mole
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Haemoglobin molecular model This is deoxyhaemoglobin the molecule in its non-oxygen bound state Haemoglobin transports oxygen around the body in r
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Myoglobin molecular model Myoglobin is a protein found in muscle tissue where it binds to and stores oxygen to be used during strenuous exercise T
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Myoglobin molecule
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Myoglobin Molecular graphic of the oxygen- carrying protein myoglobin Myoglobin consists of a chain of amino acids folded into a globin molecule wh
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