Textbook Question
Why is daily ingestion of vitamin C more critical than daily ingestion of vitamin A?
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Ch.19 Enzymes and Vitamins
McMurry8th EditionFundamentals of GOBISBN: 9780134015187
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Table of contents
- Ch.1 Matter and Measurements27
- Ch.2 Atoms and the Periodic Table20
- Ch.3 Ionic Compounds8
- Ch.4 Molecular Compounds23
- Ch.5 Classification & Balancing of Chemical Reactions12
- Ch.6 Chemical Reactions: Mole and Mass Relationships28
- Ch.7 Chemical Reactions: Energy, Rate and Equilibrium64
- Ch.8 Gases, Liquids and Solids24
- Ch.9 Solutions52
- Ch.10 Acids and Bases25
- Ch.11 Nuclear Chemistry22
- Ch.12 Introduction to Organic Chemistry: Alkanes57
- Ch.13 Alkenes, Alkynes, and Aromatic Compounds47
- Ch.14 Some Compounds with Oxygen, Sulfur, or a Halogen50
- Ch.15 Aldehydes and Ketones45
- Ch.16 Amines42
- Ch.17 Carboxylic Acids and Their Derivatives57
- Ch.18 Amino Acids and Proteins82
- Ch.19 Enzymes and Vitamins63
- Ch.20 Carbohydrates44
- Ch.21 The Generation of Biochemical Energy65
- Ch.22 Carbohydrate Metabolism45
- Ch.23 Lipids42
- Ch.24 Lipid Metabolism33
- Ch.25 Protein and Amino Acid Metabolism24
- Ch.26 Nucleic Acids and Protein Synthesis45
Chapter 19, Problem 81
What is the relationship between vitamin A and β-carotene?
Verified step by step guidance1
Vitamin A and β-carotene are chemically related. β-carotene is a precursor to vitamin A, meaning it can be converted into vitamin A in the body.
β-carotene is a type of carotenoid, which is a class of organic pigments found in plants. Its structure consists of a long chain of conjugated double bonds, making it highly unsaturated.
Vitamin A, also known as retinol, has a smaller structure compared to β-carotene. It contains a hydroxyl group (-OH) and a shorter hydrocarbon chain.
The conversion of β-carotene to vitamin A occurs in the liver and intestinal mucosa. Enzymes cleave β-carotene into two molecules of vitamin A (retinal), which can then be reduced to retinol or oxidized to retinoic acid.
This relationship is important because β-carotene serves as a dietary source of vitamin A, especially in plant-based diets, and is essential for vision, immune function, and skin health.
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Vitamin A
Vitamin A is a fat-soluble vitamin essential for various bodily functions, including vision, immune function, and skin health. It exists in several forms, with retinol being the most active form in the body. Vitamin A is crucial for the maintenance of healthy vision, particularly in low-light conditions, and plays a role in cellular communication and growth.
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1:10
Coenzyme A Example 4
β-Carotene
β-Carotene is a carotenoid, a type of pigment found in plants that gives fruits and vegetables their orange and yellow colors. It serves as a precursor to vitamin A, meaning the body can convert β-carotene into vitamin A as needed. This conversion is particularly important for individuals who may not consume enough direct sources of vitamin A, as it provides a dietary means to meet vitamin A requirements.
Conversion Process
The conversion of β-carotene to vitamin A occurs primarily in the intestines and liver, where enzymes cleave β-carotene into retinol. This process is influenced by several factors, including dietary fat intake, the presence of other nutrients, and individual metabolic differences. Understanding this conversion is essential for grasping how dietary sources of β-carotene can impact vitamin A levels in the body.
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Related Practice
Textbook Question
Why is it important that the macronutrients calcium and phosphorus be ingested in approximately equal amounts?
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Textbook Question
Look up the structures of vitamin C and vitamin E on the Web, and identify the functional groups in these vitamins.
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How can you distinguish between a competitive inhibitor and an uncompetitive inhibitor experimentally?
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Textbook Question
What is the activation energy for a reaction? Why is activation energy necessary?
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Textbook Question
How will changing the conditions in an enzymatic reaction affect the rate of that reaction? Explain why in each case.
f. Decreasing the amount of substrate by half
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