Enzymes PDF
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Uploaded by ReadyZirconium6823
Manarat Al Farouk
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Summary
This document provides a detailed overview of enzymes; their roles in breaking down and building up molecules, effects of temperature and pH on enzyme activity, and examples in seed germination. It includes detailed information about enzyme function and examples of different enzymes.
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## Enzymes ### Function of Enzymes - **Enzymes** can break down **substrates.** - **Starch + Water** → **Maltose** - **Maltose + Water** → **Glucose** - **Protein + Water** → **Amino acid** - **Lipids + Water** → **Glycerol + 3 fatty acids** - Enzymes can build up large molecules f...
## Enzymes ### Function of Enzymes - **Enzymes** can break down **substrates.** - **Starch + Water** → **Maltose** - **Maltose + Water** → **Glucose** - **Protein + Water** → **Amino acid** - **Lipids + Water** → **Glycerol + 3 fatty acids** - Enzymes can build up large molecules from smaller ones. - **Glucose + Glucose** → **Maltose** - **Glucose + Glucose + Glucose + Glucose** → **Glycogen** (in animal cells) - **Starch** (in plant cells) ### Role of Enzymes in Chemical Reactions 1. **Enzymes** can **be reused** 2. **Enzymes** **lower the activation energy** ### Effect of Temperature on Enzyme Activity * **Describe:** * Enzyme activity (rate of reaction) increases until it reaches the optimal temperature * Beyond the optimal temperature, enzyme activity decreases and eventually reaches zero * **Explain:** * **a.** At low temperatures, the molecules have low kinetic energy and collide less frequently, resulting in slower reactions. * **b.** As the temperature increases, the kinetic energy of the molecules increases, resulting in more frequent collisions and faster reactions. * **c.** At the optimal temperature, the enzyme reaches its peak activity. * **d.** At temperatures above the optimal, the enzyme begins to denature, losing its shape and function. This is due to the breaking of the weak bonds that hold the enzyme together. ### Denaturation - Enzymes lose the shape of their active site. - Substrates cannot fit and bind to the active site. - Enzymes cannot perform their function. ### Effect of pH on Enzyme Activity - **pH** is a measure of the concentration of hydrogen ions (H+) in a solution. - **Acidic pH:** pH lower then 7. - **Alkaline pH:** pH higher than 7. - **Neutral pH:** pH of 7 - **Each** enzyme works best at a **specific pH**. ### Effect of pH on Enzyme Activity - Enzyme activity is highest at the optimal pH, where the active site of the enzyme has the correct shape for the substrate to bind. - As the pH moves away from the optimal, the enzyme activity decreases due to changes in the shape of the active site. - At extreme pH values, the enzyme can become denatured, losing its function completely. ### Examples of Enzyme Activity at Different pH - **Pepsin** (enzyme in stomach) works best at an acidic pH (pH 1.5). - **Amylase** (enzyme in saliva) works best at a neutral pH (pH 7). - **Lipase** (enzyme in small intestine) works best at an alkaline pH (pH 8). ### The Role of Enzymes in Seed Germination - **Seed germination** is the process by which a seed develops into a new plant. - **Dry broad bean:** - **Testa:** The outer covering of the seed, which is impermeable to water. - **Micropyle:** A small pore in the testa through which water enters the seed. - **Cotyledon:** The first leaves of the plant, which store food reserves. - **Starch, protein, lipid, and enzymes** are stored in the cotyledons. - **Plumule:** The shoot tip of the plant - **Radicle:** The root tip of the plant #### Steps of Seed Germination 1. **Absorption of water:** - Water enters the seed through the micropyle and activates the enzymes. 2. **Amylase breaks down starch to Maltose:** - This is a **hydrolysis** reaction, where water molecules are used to break down the starch molecule into smaller maltose molecules. 3. **Maltose is converted to glucose:** - The maltose molecules are then converted to glucose molecules through another hydrolysis reaction. 4. **Glucose diffuses into the cells of the embryo:** - The glucose provides the energy needed for the embryo to grow. 5. **Respiration and energy release:** - The embryo uses the glucose as fuel for respiration, which releases energy for growth and development. 6. **Phloem transports small water-soluble molecules such as glucose and amino acids from the source (cotyledon) to sink (cells of the embryo)** - The phloem is a type of vascular tissue in plants that transports food and nutrients. ### Protease breaks down protein to amino acid, to be used by the embryo cells in growth. ### Investigations 1. **Starch + drops of iodine solution (yellow) → color becomes blue-black** - Iodine solution is a reagent that turns blue-black in the presence of starch. 2. **Effect of Amylase on Starch:** - **Procedure:** - Prepare a solution of amylase in a buffer solution (to maintain a constant pH). - Add a few drops of iodine solution to a few test tubes. - Add a measured amount of starch solution to each test tube. - Add a few drops of the amylase solution to one of the test tubes. - Leave the test tubes at room temperature. - Observe the color change in the test tubes at different times. - **Results:** - The test tube containing amylase will show a gradual change in color from blue-black to light blue, and eventually to a yellow-brown color. - The test tube without amylase will remain blue-black. - **Analysis:** - The amylase breaks down the starch into smaller sugar molecules, which do not react with iodine solution. - The change in color indicates the breakdown of starch by amylase. ### Effect of Catalase on H<sub>2</sub>O<sub>2</sub> - **Procedure:** - Place a potato disc in a test tube containing hydrogen peroxide (H<sub>2</sub>O<sub>2</sub>). - Observe the formation of bubbles. - **Results:** - Bubbles of oxygen gas (O<sub>2</sub>) are produced. - The disc floats to the surface due to the production of oxygen gas. - **Analysis:** - **Catalase** is an enzyme that catalyzes the decomposition of hydrogen peroxide into water and oxygen. - The faster the bubbles form, the more active the catalase. - Hydrogen peroxide (H<sub>2</sub>O<sub>2</sub>) is a toxic byproduct of cellular metabolism, so it is important to break it down.