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Macromolecules: Building blocks of life

Macromolecules: Building blocks of life. November 12, 2009. Section 2 Check. Journal 11/12/09. Explain why water is important to living organisms. Answer.

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Macromolecules: Building blocks of life

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  1. Macromolecules: Building blocks of life November 12, 2009

  2. Section 2 Check Journal 11/12/09 Explain why water is important to living organisms. Answer Living organisms must have water for life processes, because molecules and ions must be free to move and interact, which only happens when they are dissolved in water. Water also transports materials in living organisms, such as in blood or sap.

  3. 6.3 Section Objectives – page 157 Objectives: • Classify the variety of organic compounds. • Describe how polymers are formed and broken down in organisms. • Compare the structures and functions of carbohydrates, lipids, proteins, and nucleic acids, and relate their importance to living things. • Identify the effects of enzymes.

  4. Today’s notes: • We will be getting information from this power point and putting it into a “foldable”. • We will need four flaps one for each of the macromolecules we will be learning. • You will put the names of the 4 macromolecules on each of the flaps and put some important information about each macromolecule under the flap. • See Mrs. Dion’s model.

  5. 6.3 Section Summary 6.3 – pages 157-163 Molecular chainsthat create macromolecules • Small molecules bond together to form chains called polymers. Apolymeris a large molecule formed when many smaller molecules bond together.

  6. 6.3 Section Summary 6.3 – pages 157-163 The structure of carbohydrates • The simplest type of carbohydrate is a simple sugar called amonosaccharide(mah noh SA kuh ride). (ie. glucose, fructose) • The largest carbohydrate molecules are polysaccharides, polymers composed of many monosaccharide subunits. (ie. potatoes, liver)

  7. 6.3 Section Summary 6.3 – pages 157-163 The structure of lipids • Lipidsare large macromolecules that are made mostly of carbon and hydrogen with a small amount of oxygen. (ie. fats, oils, waxes) • They are insoluble in water because their molecules are nonpolar and are not attracted by water molecules.

  8. 6.3 Section Summary 6.3 – pages 157-163 The structure of proteins • A protein is a large, complex polymer composed of carbon, hydrogen, oxygen, nitrogen, and sometimes sulfur.

  9. 6.3 Section Summary 6.3 – pages 157-163 The structure of proteins • The basic building blocks of proteins are calledamino acids. • There are about 20 common amino acids that can make literally thousands of proteins.

  10. 6.3 Section Summary 6.3 – pages 157-163 The structure of proteins • Proteins are the building blocks of many structural components of organisms.

  11. 6.3 Section Summary 6.3 – pages 157-163 The structure of proteins • Enzymes are important proteins found in living things. An enzyme is a protein that changes the rate of a chemical reaction. • They speed the reactions in digestion of food. Click image to view movie.

  12. 6.3 Section Summary 6.3 – pages 157-163 The structure of nucleic acids • A nucleic (noo KLAY ihk) acid is a complex macromolecule that stores cellular information in the form of a code. • Nucleic acids are polymers made of smaller subunits called nucleotides.

  13. 6.3 Section Summary 6.3 – pages 157-163 The structure of nucleic acids • Nucleotides are arranged in three groups—a nitrogenous base, a simple sugar, and a phosphate group. Phosphate Sugar Nitrogenous base

  14. 6.3 Section Summary 6.3 – pages 157-163 The structure of nucleic acids • DNA, which stands for deoxyribonucleic acid is a nucleic acid. Phosphate Sugar Nitrogenous base

  15. 6.3 Section Summary 6.3 – pages 157-163 The structure of nucleic acids • The information coded in DNA contains the instructions used to form all of an organism’s enzymes and structural proteins. • Another important nucleic acid is RNA, which stands for ribonucleic acid. RNA is a nucleic acid that forms a copy of DNA for use in making proteins.

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