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Transcript
1) 2) Objective: Describe the structure and function of organic molecules Demonstrate how small molecules are joined together to make larger molecules A. 6 most common elements in living things: B. These elements combine to form organic molecules A. Living cells are built from biomolecules 1. Large, complex molecules called polymers 2. Built from smaller, repeating parts called monomers B. Carbon is backbone for biomolecules 1. Forms 4 covalent bonds 2. Forms chains and rings A. Carbohydrates B. Proteins C. Lipids D. Nucleic Acids Examine your carbohydrate molecule. You were given a simple sugar, the monomer of carbs. On your chart, write down the elements that make it up. Name your carbohydrate – the name must end in “ose”. Record some examples of carbs: sugars like glucose & starches like amylose. Can you think of others? What shape is your carbohydrate? Record this in your chart under “Other information” Following the directions given, you will model the joining together of monomers (simple sugar) to make a polymers (bigger molecules). Label: monosaccharide (monomer), disaccharide, or polysaccharide. In your chart, record some of the functions of carbs ENERGY Support Cell Recognition Examine the amino acid that you were given. These are the building blocks (monomers) of proteins. Identify the elements that make up your amino acid. Record in your chart. Compare your amino acid to the person next to you. Are they identical? What parts are the same? Highlight the similarities. What part of your amino acids are different? Circle these and label this circled part “R-group”. In your chart, under “other information” note that there are 20 amino acids that are all identical except for their R-groups. Following the directions given, you will model the joining together of monomers (amino acids) to make a polymers (bigger molecules). How is the process of joining amino acids similar to the process of joining monosaccharides? Complete chart for proteins Hemoglobin Keratin Collagen Enzymes Antibodies Speed up chemical reactions Transport Structure Fight disease Examining lipids & nucleic acids Examples: Other Fats, Oils, Waxes, Steroids Info - Characteristics: Hydrophobic – “water-fearing” Store energy (long-term) Water barrier Make up cell membrane Protect organism Insulation Examples: DNA, RNA, ATP Functions: Genetic information Energy To join monomers together, we demonstrated a process called “dehydration synthesis”. What does this term mean? If we removed water to join monomers together, what do you think is done to break large molecules apart?
