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Carbohydrates. Grade 10 Biology. Your Assignment. Your Carbohydrate Assignment. 1 . What defines a carbohydrate and what is its function in both plant and animal cells? 2. Monosaccharides (- oses ) : structure, and the ratio of C:H:O
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Carbohydrates Grade 10 Biology
Your Carbohydrate Assignment 1. What defines a carbohydrate and what is its function in both plant and animal cells? 2. Monosaccharides (-oses): structure, and the ratio of C:H:O 3. Disaccharides: reaction used to join them, removal of water, sucrose, maltose and lactose. 4. Polysaccharides: starches (glycogen & cellulose) 5. What are the main uses of carbohydrates in cells (plants and animals)?
Additional Resources (1) The Tree of Life, lipids and Carbohydrates topic
Additional Resources (2) Carbohydrate Website links • http://www.s-cool.co.uk/a-level/biology/biological-molecules-and-enzymes/revise-it/carbohydrates • http://www.sciencemag.org/site/feature/data/carbohydrates.xhtml • Molecular Workbench Carbohydrates Module:
Polymerization • Organic compounds are formed by polymerization • Large carbon compounds are built up from smaller simpler molecules called MONOMERS • Monomers can bind to one another to form complex molecules known as POLYMERS • Macromolecules are very large polymers
Building and Breaking Polymers • Monomers link to form polymers through a chemical reaction called a CONDENSATION REACTION or Dehydration Synthesis • Water is released during the formation of polymers • The BREAKDOWN of some complex molecules, such as polymers, occurs through a process known as HYDROLYSIS • Hydrolysis is the reversal of a condensation reaction
4 Groups of Organic Compounds Found in Living Things • Carbohydrates (C-H-O 1:2:1 ratio) • Lipids (C-H-O) • Proteins (C-H-O-N)…sometimes S • Nucleic Acids (C-H-O-N-P)
Carbohydrates • MONOSACCHARIDES are simple sugars in a 1:2:1 ratio • GLUCOSE • GALACTOSE = sugar found in milk • FRUCTOSE = fruit sugar • Chemical composition (C6 H12 O6)
Simple carbohydrates: monosaccharides • Monosaccharides(simple/single sugars) have the empirical molecular formula of CH2O • Glucose: C6H12O6 is the most common monosaccharide • Can exist in linear or ring form • Carbohydrates can be simple sugars (fructose, galactose, glucose etc.) or polymers made from these simple sugars Glucose
Simple carbohydrates: Disaccharides Disaccharides are made up of 2 monosaccharides that have undergone a dehydration reaction (e.g. sucrose, maltose, lactose); formula is C12H22O11 Disaccharides consist of 2 monosaccharides covalently bonded together by a glycosidic linkage which forms by dehydration synthesis (condensation reaction)
Carbohydrates DISACCHARIDES: two single sugars(monosaccharides) linked together by glycosidic linkage (Dehydration synthesis) • Lactose = glucose + galactose • Maltose: glucose dimer • Sucrose = Table sugar
In most mammals, levels of β-galactosidase decreases with maturity as milk consumption declines • Genes for lifelong β-galactosidase production evolved in human communities which depended on milk and milk products for energy
Polysaccharides • Consist of 3 or more monosaccharides joined together (may be 100’s or 1000’s) • The function of a polysaccharide is determined by its sugar monomers and the position of the glycosidic linkages • Polysaccharides provide energy storage and structural material • 2 energy storage polysaccharides are starch (plant) and glycogen (animal) • 2 structural polysaccharides arecellulose (plants) and chitin (animals - exoskeleton) 17
Carbohydrates • Starch - Plants convert excess sugars into starches for long-term storage (Alpha linkage) • Glycogen -Animals store glucose in the form of polysaccharide glycogen in the liver and muscles to be used as quick energy • Cellulose -a structural polysaccharide contained in the cell walls of plants (ß linkage) • Chitin – a polysaccharide found in the cell walls of fungi and the exoskeletons of insects and arthropods
Storage Polysaccharides: Starch Found in plants (organelle plastids), made of glucose monomers joined by a 1-4 glycosidic linkage. Bond angles make the molecule helical • Amylose: simplest unbranched form • Amylopectin: more complex, branched form
Storage Polysaccharides: Glycogen Found in animals, stored in liver and muscle cells. Extensively branched • In humans, glycogen banks do not last longer than a day
Structural Polysaccharides: Cellulose • major component of plant cell walls • Plants produce 1011 ton of cellulose per year • Cellulose is a polymer of glucose, however it uses the β form, which gives it a different 3-dimensional shape • Cellulose forms straight unbranched chains
Cellulose • Because of the different structure, very few organisms have the enzymes necessary to break down cellulose • Makes it a very strong and resistant“insoluble fiber”
Chitin • Carbohydrate used by arthropods (insects, spiders, crustaceans, and related animals) to build their exoskeletons • Also used for cell walls in fungi • Feels leathery and can become hardened when encrusted with calcium carbonate (shells) • Similar to cellulose molecules except the glucose has a nitrogen-containing side group
