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Question
i suggest you watch one video lecture, then complete the corresponding exercises in this worksheet. this will help you retain important information and let you know which points need to be reviewed.
if you have questions, write them down and bring them the lab meeting on wednesday.
macromolecules – part 1
- complete the table below by writing down the names of the monomers and polymers of
the four types of organic macromolecules
| macromolecule | monomer | polymer |
|---|---|---|
| carbohydrates | ||
| nucleic acids | ||
| proteins |
*remember that lipids are not true polymers; you can name the two types of molucule that
form triglycerides.
- list three different functions that lipids can have.
- both carbohydrates and lipids are made of the same elements: c, h and o. what are the
differences between them?
lauric acid
a fatty acid commonly found in coconut oil.
lauric acid chemical structure with carboxyl group and hydrocarbon chain labels
glucose
glucose chemical structure
Question 1: Completing the Table
To solve this, we recall the monomers and polymers (or component molecules for lipids) of each macromolecule:
| Macromolecule | Monomer/Component | Polymer/Structure |
|---|---|---|
| Carbohydrates | Monosaccharides (e.g., Glucose) | Polysaccharides (e.g., Starch, Glycogen) |
| Nucleic Acids | Nucleotides (sugar + phosphate + base) | DNA, RNA |
| Proteins | Amino Acids | Polypeptides (Proteins) |
Question 2: Lipid Functions
Lipids have multiple roles:
- Energy Storage: Triglycerides store long - term energy.
- Structural Component: Phospholipids form cell membranes.
- Insulation: Fat deposits insulate the body (e.g., in animals).
Question 3: Carbohydrate vs. Lipid Differences
- Ratio of Elements: Carbohydrates have a roughly 1:2:1 ratio of C:H:O (e.g., Glucose, \(C_6H_{12}O_6\)). Lipids have much less O relative to C and H (e.g., Lauric Acid has a long hydrocarbon chain with few O atoms).
- Energy Storage: Lipids store more energy per gram (about 9 kcal/g) than carbohydrates (about 4 kcal/g).
- Structure: Carbohydrates have more polar - hydroxyl groups (making them more soluble in water), while lipids (especially fats) are non - polar and hydrophobic.
Final Answers (for the table in Q1)
| Macromolecule | Monomer/Component | Polymer/Structure |
|---|---|---|
| Carbohydrates | Monosaccharides | Polysaccharides |
| Nucleic Acids | Nucleotides | DNA, RNA |
| Proteins | Amino Acids | Polypeptides (Proteins) |
(For Q2, the three functions can be energy storage, cell membrane structure, insulation. For Q3, the differences are in element ratio, energy storage per gram, and polarity/solubility.)
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Question 1: Completing the Table
To solve this, we recall the monomers and polymers (or component molecules for lipids) of each macromolecule:
| Macromolecule | Monomer/Component | Polymer/Structure |
|---|---|---|
| Carbohydrates | Monosaccharides (e.g., Glucose) | Polysaccharides (e.g., Starch, Glycogen) |
| Nucleic Acids | Nucleotides (sugar + phosphate + base) | DNA, RNA |
| Proteins | Amino Acids | Polypeptides (Proteins) |
Question 2: Lipid Functions
Lipids have multiple roles:
- Energy Storage: Triglycerides store long - term energy.
- Structural Component: Phospholipids form cell membranes.
- Insulation: Fat deposits insulate the body (e.g., in animals).
Question 3: Carbohydrate vs. Lipid Differences
- Ratio of Elements: Carbohydrates have a roughly 1:2:1 ratio of C:H:O (e.g., Glucose, \(C_6H_{12}O_6\)). Lipids have much less O relative to C and H (e.g., Lauric Acid has a long hydrocarbon chain with few O atoms).
- Energy Storage: Lipids store more energy per gram (about 9 kcal/g) than carbohydrates (about 4 kcal/g).
- Structure: Carbohydrates have more polar - hydroxyl groups (making them more soluble in water), while lipids (especially fats) are non - polar and hydrophobic.
Final Answers (for the table in Q1)
| Macromolecule | Monomer/Component | Polymer/Structure |
|---|---|---|
| Carbohydrates | Monosaccharides | Polysaccharides |
| Nucleic Acids | Nucleotides | DNA, RNA |
| Proteins | Amino Acids | Polypeptides (Proteins) |
(For Q2, the three functions can be energy storage, cell membrane structure, insulation. For Q3, the differences are in element ratio, energy storage per gram, and polarity/solubility.)