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Disaccharides illustration by ALI DAMOUHSCIENCE PHOTO LIBRARY
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Carbohydrate types illustration by ALI DAMOUHSCIENCE PHOTO LIBRARY
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Carbohydrate types illustration
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Carbohydrate types illustration
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Amylose sugar molecule illustration by ALI DAMOUHSCIENCE PHOTO LIBRARY
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Amylopectin sugar molecule illustration by ALI DAMOUHSCIENCE PHOTO LIBRARY
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Deoxyribose chemical structure illustration by ALI DAMOUHSCIENCE PHOTO LIBRARY
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Palladium bound to cellulase active site illustration
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Sugar Polarised light micrograph of crystals of saccharose sugar known as sucrose (chemical formula C12H22O11) It is a sweet soluble crystalli
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Sucrase enzyme illustration
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Sucrose formation illustration
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Sucrase enzyme illustration
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Sucrose sugar molecule illustration
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Illustration of the chemical structure of a ribose sugar molecule by ALI DAMOUHSCIENCE PHOTO LIBRARY
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Illustration of the chemical structure of ribose and deoxyribose sugar molecules by ALI DAMOUHSCIENCE PHOTO LIBRARY
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Monosaccharides illustration
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Illustration of the chemical structures of three monosaccharides; glucose fructose and galactose by ALI DAMOUHSCIENCE PHOTO LIBRARY
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Illustration of a glucose sugar molecule by ALI DAMOUHSCIENCE PHOTO LIBRARY
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Amylose Computer-generated molecular model of amylose Amylose is composed of carbon (green) hydrogen (grey-white) and oxygen (red) Amylose is a po
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Illustration of a galactose sugar molecule by ALI DAMOUHSCIENCE PHOTO LIBRARY
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Fructose sugar molecule illustration
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Illustration of a deoxyribose sugar molecule by ALI DAMOUHSCIENCE PHOTO LIBRARY
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Glucose molecule Illustration showing the structure of a molecule of glucose Glucose is a simple sugar (monosaccharide) that is used by the body as
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Glucose Polarised light micrograph of glucose crystals Glucose is a monosaccharide sugar widely occurring in nature It is vital for the energy met
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Molecular model of fructose Atoms are colour-coded carbon (green) hydrogen (white) and oxygen (red) by SCI-COMM STUDIOSSCIENCE PHOTO LIBRARY
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Sugary soft drink Conceptual image of a soft drinks can with the chemical formula for fructose (C6H12O6) on it Fructose is a simple sugar that is
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Scanning electron micrograph (SEM) of Table sugar (sucrose) crystals Sucrose or common table sugar (also called saccharose) is a disaccharide that
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D-glucose Molecular model of the monosaccharide sugar and aldohexose D-glucose (C6H12O6) also known as dextrose Atoms are represented as spheres
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Glucose Polarised light micrograph of glucose crystals Glucose is a monosaccharide sugar widely occurring in nature It is vital for the energy met
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D-glucose Molecular model of the monosaccharide sugar and aldohexose D-glucose (C6H12O6) also known as dextrose Atoms are represented as spheres
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Epinephrine and sucrose crystals LM
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Vitamin C and sucrose crystals LM
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Epinephrine and sucrose crystals LM
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L-glucose Molecular model of the monosaccharide sugar and aldohexose L-glucose (C6H12O6) an enantiomer (type of stereoisomer) of the more common D
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Galactose Molecular model of the monosaccharide sugar galactose (C6H12O6) This sugar is less sweet than glucose of which it is a stereoisomer At
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Beta-galactosidase molecular model This enzyme breaks down sugars containing galactose such as lactose into their basic units (monosaccharides)
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Beta-galactosidase molecular model This enzyme breaks down sugars containing galactose such as lactose into their basic units (monosaccharides)
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Glucose molecule Computer illustration showing the structure of a molecule of glucose Glucose is a simple sugar (monosaccharide) that is utilised by
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Glucose Polarised light micrograph of glucose crystals Glucose is a monosaccharide sugar widely occurring in nature It is vital for the energy met
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Phosphoglucose isomerase molecule Molecular model of a rabbit phosphoglucose isomerase molecule complexed with a fructose-6-phosphate molecule This
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Phosphoglucose isomerase molecule Molecular model of a rabbit phosphoglucose isomerase molecule complexed with a fructose-6-phosphate molecule This
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Beta-galactosidase molecular model This enzyme breaks down sugars containing galactose such as lactose into their basic units (monosaccharides)
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Beta-galactosidase molecular model This enzyme breaks down sugars containing galactose such as lactose into their basic units (monosaccharides)
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Glucose molecule Computer artwork showing the structure of a molecule of glucose Atoms are represented as spheres (carbon black hydrogen white o
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Glucose molecule Computer artwork showing the structure of a molecule of glucose Atoms are represented as spheres (carbon black hydrogen white o
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Sugary foods conceptual image Molecular model of sucrose next to a cup cake Atoms are represented by spheres carbon (pink) oxygen (red) and hydro
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Fructose molecular model This is the sweetest of the sugars It is found in fruits and honey Atoms are represented as rods and are colour-coded ca
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Fructose molecular model This is the sweetest of the sugars It is found in fruits and honey Atoms are represented as spheres and are colour-coded
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Computer graphics representation of a molecule of fructose (also called laevulose or fruit sugar) a simple sugar isomeric with glucose Saccharides o
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Glucose molecular model Atoms are represented as spheres and are colour-coded carbon (orange) oxygen (yellow) and hydrogen (red) Glucose is a sim
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Glucose molecular model Atoms are represented as spheres and are colour-coded carbon (pink) oxygen (orange) and hydrogen (yellow) Glucose is a si
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Glucose molecular model Atoms are represented as spheres and are colour-coded carbon (pink) oxygen (orange) and hydrogen (yellow) Glucose is a si
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Glucose molecular model Atoms are represented as spheres (blue) Glucose is a simple sugar (monosaccharide) that is utilised by the body as an energ
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Glucose molecular model Atoms are represented as spheres (blue) Glucose is a simple sugar (monosaccharide) that is utilised by the body as an energ
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Sucrose Computer-generated molecular model of sucrose (C12H22O11) Sucrose is composed of carbon (green) hydrogen (grey-white) and oxygen (red) Suc
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Sucrose Computer-generated molecular model of sucrose (C12H22O11) Sucrose is composed of carbon (green) hydrogen (grey-white) and oxygen (red) Suc
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Maltose Computer-generated molecular model of maltose (C12H22O11) Maltose is composed of carbon (green) hydrogen (grey-white) and oxygen (red) Mal
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Maltose molecule
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Computer graphics representation of a molecule of glucose (also called dextrose or grape sugar) a white crystalline sugar Saccharides or sugars are
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Lactose Computer-generated molecular model of lactose Lactose is composed of carbon(green) hydrogen (grey-white) and oxygen (red) Lactose is a sac
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Lactose Computer-generated molecular model of lactose Lactose is composed of carbon (green) hydrogen (grey-white) and oxygen (red) Lactose is a sa
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Glucose Computer-generated model of glucose (C6H12O6) Glucose is composed of carbon (green) hydrogen (grey-white) and oxygen (red) Glucose is a mo
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Glucose molecule
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Cellulose Computer-generated molecular model of cellulose Cellulose is composed of carbon (green) hydrogen (grey-white) and oxygen (red) Cellulose
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Amylose Computer-generated molecular model of amylose Amylose is composed of carbon (green) hydrogen (grey-white) and oxygen (red) Amylose is a po
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Amylopectin Computer-generated molecular model of amylopectin Amylopectin is composed of carbon (green) hydrogen (greywhite) and oxygen (red) Amy
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Amylopectin Computer-generated molecular model of amylopectin Amylopectin is composed of carbon (green) hydrogen (greywhite) and oxygen (red) Amy
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Computer graphics representation of a molecule of sucrose (cane sugar) a disaccharide consisting of two linked monosaccharide molecules (glucose fr
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Lactose Molecular model of the sugar D-()- lactose (formula C12H22O11) The atoms are spherical and colour-coded carbon (blue) oxygen (red) and h
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Glucose models
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Coloured scanning electron micrograph (SEM) of Table sugar (sucrose) crystals Sucrose or common table sugar (also called saccharose) is a disacchar
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Coloured scanning electron micrograph (SEM) of Table sugar (sucrose) crystals Sucrose or common table sugar (also called saccharose) is a disacchar
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Coloured scanning electron micrograph (SEM) of Table sugar (sucrose) crystals Sucrose or common table sugar (also called saccharose) is a disacchar
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L-glucose Molecular model of the monosaccharide sugar and aldohexose L-glucose (C6H12O6) an enantiomer (type of stereoisomer) of the more common D
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Galactose Molecular model of the monosaccharide sugar galactose (C6H12O6) This sugar is less sweet than glucose of which it is a stereoisomer At
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L-glucose Molecular model of the monosaccharide sugar and aldohexose L-glucose (C6H12O6) an enantiomer (type of stereoisomer) of the more common D
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Glucose grape sugar molecule
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Phosphoglucose isomerase molecule Molecular model of a rabbit phosphoglucose isomerase molecule complexed with a fructose-6-phosphate molecule This
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Sucrose molecule Molecular model of sucrose commonly known as table cane or beet sugar It has the chemical formula C12H22O11 Sucrose is a disacch
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Beta-galactosidase molecular model This enzyme breaks down sugars containing galactose such as lactose into their basic units (monosaccharides)
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Sucrose molecular model The coloured map represents the electrostatic potential across the molecules surface
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Glucose molecular model Atoms are represented as spheres and are colour-coded carbon (grey) hydrogen (blue) and oxygen (orange)
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Glucose molecular model Atoms are represented as rods and are colour-coded carbon (grey) hydrogen (blue) and oxygen (orange)
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Fructose glucose and sucrose molecular models (from top to bottom) Atoms are represented as rods and are colour-coded carbon (grey) hydrogen (gree
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Sucrose molecular model Atoms are represented as spheres and are colour-coded carbon (grey) hydrogen (green) and oxygen (red)
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Fructose molecule The coloured map represents the electrostatic potential across the molecules surface Fructose is a fruit sugar found in many plan
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Glucose molecular model The coloured map represents the electrostatic potential across the molecules surface Atoms are represented as rods
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Fructose glucose and sucrose molecular models (from top to bottom) Atoms are represented as spheres and are colour-coded carbon (grey) hydrogen (g
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Cellulose Computer-generated molecular model of cellulose Cellulose is composed of carbon (green) hydrogen (white-grey) and oxygen (red) Cellulose
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Sucrose molecular model The coloured map represents the electrostatic potential across the molecules surface The atoms are represented as rods
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Sucrose molecular model Atoms are represented as rods and are colour-coded carbon (grey) hydrogen (green) and oxygen (red)
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Glucose molecular model Atoms are represented as spheres and are colour-coded carbon (grey) hydrogen (blue) and oxygen (orange)
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Fructose glucose and sucrose molecular models (from left to right) Atoms are represented as rods and are colour-coded carbon (grey) hydrogen (gree
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Fructose molecular model Fruit sugar found in many plants Atoms are represented as spheres and are colour-coded carbon (grey) hydrogen (green) an
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Fructose molecular model Fruit sugar found in many plants Atoms are represented as rods and are colour-coded carbon (grey) hydrogen (green) and o
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Glucose molecular model The coloured map represents the electrostatic potential across the molecules surface
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Fructose molecule The coloured map represents the electrostatic potential across the molecules surface Fructose is a fruit sugar found in many plan
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Phosphoglucose isomerase molecule Molecular model of a rabbit phosphoglucose isomerase molecule complexed with a fructose-6-phosphate molecule This
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Sucrose Computer graphic of a molecule of sucrose commonly known as table cane or beet sugar Sucrose is comprised of atoms of carbon (C blue) ox
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