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Draw molecular diagrams of: Water Carbon dioxide How many bonds can each type of atom in these form?

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Presentation on theme: "Draw molecular diagrams of: Water Carbon dioxide How many bonds can each type of atom in these form?"— Presentation transcript:

1 Draw molecular diagrams of: Water Carbon dioxide How many bonds can each type of atom in these form?

2 Objectives To explore a range of biological molecules, investigating structure and function. Outcomes 3: Identify a range of biologically important molecules and describe the importance of carbon. 5: Draw the structure of a range of biologically important molecules. 7: Construct accurate models of biological molecules. Key terms: lipid, carbohydrate, protein, carbon, oxygen, metabolism, catabolism, anabolism.

3 Why is carbon so biologically important? What molecules involve it? Outcomes 3: Identify a range of biologically important molecules and describe the importance of carbon. 5: Draw the structure of a range of biologically important molecules. 7: Construct accurate models of biological molecules. Key terms: lipid, carbohydrate, protein, carbon, oxygen, metabolism, catabolism, anabolism.

4 Carbon has the ability to form four covalent bonds allowing a large diversity of stable compounds to exist. Carbohydrates, lipids, amino acids and nucleic acids all have carbon. Outcomes 3: Identify a range of biologically important molecules and describe the importance of carbon. 5: Draw the structure of a range of biologically important molecules. 7: Construct accurate models of biological molecules. Key terms: lipid, carbohydrate, protein, carbon, oxygen, metabolism, catabolism, anabolism.

5 Task Divide a page down as below. Research and draw the structural formula for each. Now try to build the molecule with the molymods Outcomes 3: Identify a range of biologically important molecules and describe the importance of carbon. 5: Draw the structure of a range of biologically important molecules. 7: Construct accurate models of biological molecules. Key terms: lipid, carbohydrate, protein, carbon, oxygen, metabolism, catabolism, anabolism. GlucoseRibose Saturated fatty acid Amino acid

6 Outcomes 3: Identify a range of biologically important molecules and describe the importance of carbon. 5: Draw the structure of a range of biologically important molecules. 7: Construct accurate models of biological molecules. Key terms: lipid, carbohydrate, protein, carbon, oxygen, metabolism, catabolism, anabolism.

7 Outcomes 3: Identify a range of biologically important molecules and describe the importance of carbon. 5: Draw the structure of a range of biologically important molecules. 7: Construct accurate models of biological molecules. Key terms: lipid, carbohydrate, protein, carbon, oxygen, metabolism, catabolism, anabolism. What is metabolism on a cellular level?

8 Outcomes 3: Identify a range of biologically important molecules and describe the importance of carbon. 5: Draw the structure of a range of biologically important molecules. 7: Construct accurate models of biological molecules. Key terms: lipid, carbohydrate, protein, carbon, oxygen, metabolism, catabolism, anabolism. The web of enzyme controlled reactions

9 Outcomes 3: Identify a range of biologically important molecules and describe the importance of carbon. 5: Draw the structure of a range of biologically important molecules. 7: Construct accurate models of biological molecules. Key terms: lipid, carbohydrate, protein, carbon, oxygen, metabolism, catabolism, anabolism. What is metabolism on a cellular level? AnabolismCatabolism What is it Examples

10 Outcomes 3: Identify a range of biologically important molecules and describe the importance of carbon. 5: Draw the structure of a range of biologically important molecules. 7: Construct accurate models of biological molecules. Key terms: lipid, carbohydrate, protein, carbon, oxygen, metabolism, catabolism, anabolism. What is metabolism on a cellular level? AnabolismCatabolism What is itThe synthesis of complex molecules from simpler molecules including the formation of macromolecules from monomers by condensation reactions. The breakdown of complex molecules into simpler molecules including the hydrolysis of macromolecules into monomers.

11 Outcomes 3: Identify a range of biologically important molecules and describe the importance of carbon. 5: Draw the structure of a range of biologically important molecules. 7: Construct accurate models of biological molecules. Key terms: lipid, carbohydrate, protein, carbon, oxygen, metabolism, catabolism, anabolism. Draw me……….

12 Outcomes 3: Identify a range of biologically important molecules and describe the importance of carbon. 5: Draw the structure of a range of biologically important molecules. 7: Construct accurate models of biological molecules. Key terms: lipid, carbohydrate, protein, carbon, oxygen, metabolism, catabolism, anabolism. Draw me……….

13 Outcomes 3: Identify a range of biologically important molecules and describe the importance of carbon. 5: Draw the structure of a range of biologically important molecules. 7: Construct accurate models of biological molecules. Key terms: lipid, carbohydrate, protein, carbon, oxygen, metabolism, catabolism, anabolism. Draw me……….

14 Outcomes 3: Identify a range of biologically important molecules and describe the importance of carbon. 5: Draw the structure of a range of biologically important molecules. 7: Construct accurate models of biological molecules. Key terms: lipid, carbohydrate, protein, carbon, oxygen, metabolism, catabolism, anabolism. Draw me……….

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