Nutrition and Energy for Life PDF

Summary

This document is Chapter 22 from the textbook "Chemistry For Today", discussing Nutrition and Energy for Life. It covers topics such as learning objectives, macronutrients, micronutrients, vitamins, and minerals, as well as the related activities in the body.

Full Transcript

Chapter 22
Nutrition and Energy for Life

Seager, Slabaugh, Hansen, General, Organic, and Biochemistry, Tenth Edition. © 2022 Cengage. All Rights Reserved. May not be scanned,
copied or duplicated, or posted to a publicly accessible website, in whole or in part. 1
 Learning Objectives (1 of 2)

Describe the difference between macronutrients and micronutrients in terms of
amounts required and their functions in the body
Describe the primary functions in the body of each macronutrient
Distinguish between and classify vitamins as water-soluble or fat-soluble on the
basis of name and behavior in the body
List the primary function in the body for each major mineral
Describe the major steps in the flow of energy in the biosphere

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 Learning Objectives (2 of 2)

Differentiate among metabolism, anabolism, and catabolism
Outline the three stages in the extraction of energy from food
Explain how ATP plays a central role in the production and use of cellular
energy
Explain the role of coenzymes in the common catabolic pathway

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 Nutrition and Energy
Macronutrients: Substances that are needed by the body in relatively large
amounts
Include carbohydrates, lipids, and proteins
Micronutrients: Substances that are needed by the body only in small
amounts
Some are utilized in enzymes
Classified as either vitamins or minerals
Other essential nutrients
Water - Constitutes 45%–75% of the human body mass
Fiber - Prevents or relieves constipation by absorbing water and softening the stool for easier
elimination

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 Nutrition Labeling and Education Act, 1990

Brought changes to the regulations that define what is required on a food label

Daily Values (DVs): Reference values developed by the Food and Drug
Administration (FDA) specifically for use on food labels
Reference Daily Intakes (RDIs): Standards for protein, vitamins, and minerals used on food
labels

Daily Reference Values (DRVs): Standards for nutrients and food components, such as fat
and fiber, that have important relationships with health

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 FDA and USDA
The Food and Drug Administration (FDA)
Finalized the new Nutrition Facts label for packaged foods, which enables consumers to
make better informed food choices

Uses 2000 calories as a standard for energy intake in calculating DRVs

1 nutritional calorie is equivalent to 1 kcal of energy

Reviews and revises the guidelines every five years

The U.S. Department of Agriculture (USDA)
Issued the MyPlate food guide to replace the MyPyramid posters with new recommendations

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Figure 22.2 - An Example of a Food Label

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Figure 22.3 - The Food Guide, MyPlate

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 Carbohydrates

Main dietary source of energy

Provide useful materials for the synthesis of cell and tissue components

Considered to be fattening
Excess calories are the result of high-calorie foods eaten with the carbohydrates

Example - Bread is eaten with butter, a high-energy lipid

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 Classification of Dietary Carbohydrates
Simple carbohydrates
Include monosaccharides and disaccharides, commonly called sugars
Complex carbohydrates
Include the polysaccharides amylose and amylopectin, which are collectively called starch
Cellulose serves a non nutritive role as fiber as it cannot be digested by humans

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 Lipids
About 95% of lipids in the body and in foods are triglycerides
Concentrated sources of energy
Provide more than twice the energy of an equal mass of carbohydrate
Contain some fat-soluble vitamins and help carry them through the body
Include essential fatty acids, which cannot be synthesized in the body and must come from
the diet
Include polyunsaturated linoleic and linolenic acids

Improve the texture of foods and absorb and retain flavors
Prolong satiety as they are digested more slowly than other foods

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Figure 22.6 - Fatty Acid Composition of
Common Food Fats

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 Dietary Lipids and Health

Research indicates a correlation between consumption of too much fat and the
wrong type of fat and obesity and cardiovascular disease
Moderate amount of fat is needed in a diet
Many people consume more fat than required

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 Proteins
Only macronutrients with an established RDI
Used in the body to aid in:
Production of new tissue as the body grows
Maintenance and repair of cells
Production of enzymes, hormones, and other important nitrogen-containing compounds of the body
Supply of energy (4 calories/gram)
Broken down to individual amino acids that are absorbed into the body's amino acid
pool
Classified as complete proteins if they contain all the essential amino acids in the
proportions needed by the body

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 Table 22.1 - The RDI for Protein

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Table 22.2 - The Essential Amino Acids

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Figure 22.7 - Protein Content of Several
Foods

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 Figure 22.4 - Diet Comparison

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 Vitamins
Organic compounds that cannot be produced by the body in the amounts needed for good
health
Water-soluble vitamins
Highly polar in nature
Function as coenzymes, except vitamin C
Excess is excreted through the kidneys
Fat-soluble vitamins
Have nonpolar molecular structures
Function like hormones
Excess accumulation in body tissues can lead to toxic effects

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 Table 22.3 - Vitamin Sources, Functions, and
Deficiency Conditions (1 of 2)
Vitamin Dietary Sources Functions Deficiency Conditions
Water-soluble
B1 (thiamin) Bread, beans, nuts, milk, peas, pork, Coenzyme in Beriberi: nausea, severe
rice bran decarboxylation exhaustion, paralysis
reactions
B2 (riboflavin) Milk, meat, eggs, dark green Forms the coenzymes FMN Dermatitis (skin problems)
vegetables, bread, beans, peas and FAD, which are
hydrogen transporters
Niacin Meat, whole grains, Forms the coenzyme NAD+, Pellagra: weak muscles,
poultry, fish which is a hydride transporter no appetite, diarrhea, dermatitis
B6 (pyridoxine) Meat, whole grains, poultry, fish Coenzyme form carries Dermatitis, nervous disorders
amino and carboxyl groups
B12 (cobalamin) Meat, fish, eggs, milk Coenzyme in amino acid Rare except in vegetarians;
Metabolism pernicious anemia

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 Table 22.3 - Vitamin Sources, Functions, and
Deficiency Conditions (2 of 2)
Folic acid Leafy green vegetables, peas, beans Coenzyme in methyl group transfers Anemia
Pantothenic acid All plants and animals, nuts; whole- Part of coenzyme A, acyl group carrier Anemia
grain cereals
Biotin Found widely; egg yolk, liver, yeast, Coenzyme form used in fatty acid Dermatitis, muscle Weakness
nuts synthesis
C (ascorbic acid) Citrus fruits, tomatoes, green pepper, Synthesis of collagen for connective Scurvy: tender tissues; weak, bleeding
strawberries, leafy green Vegetables tissue gums; swollen joints

Fat-soluble
A (retinol) Eggs, butter, cheese, dark green and Synthesis of visual Inflamed eye membranes,
deep orange vegetables Pigments night blindness, scaliness of skin
D (calciferol) Fish-liver oils, fortified milk Regulation of calcium and phosphorus Rickets (malformation of the bones)
Metabolism
E (tocopherol) Whole-grain cereals, margarine, Prevention of oxidation of vitamin A Breakage of red blood
vegetable oil and fatty acids cells
K Cabbage, potatoes, peas, leafy green Synthesis of blood-clotting substances Blood-clotting disorders
vegetables

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 Minerals
Metals or nonmetals used in the body in the form of ions or compounds
Major minerals: Found in the body in quantities greater than 5 g
Examples

Ca and P - Primary inorganic structural components of bones and teeth
Na, K, Cl, and Mg - Ions distributed throughout the body’s fluids

Trace minerals: Found in the body in quantities less than 5 g
Examples - Fe, Mn, Cu, and I
Components of vitamins, enzymes, hormones, or specialized proteins

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Figure 22.10 - Minerals in a 60-Kg Person

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 Table 22.4 - Major and Trace Mineral Sources,
Functions, and Deficiency Conditions (1 of 2)
Mineral Dietary Sources Functions Deficiency Conditions
Major minerals
Calcium Dairy foods, dark green vegetables Bone and teeth formation, blood Stunted growth, rickets, weak
clotting, nerve impulse transmission and brittle bones
Chlorine Table salt, seafood, meat HCl in gastric juice, acid–base balance Muscle cramps, apathy, excessive
bleeding, reduced appetite
Magnesium Whole-grain cereals, meat, nuts, Activation of enzymes, protein Inhibited growth, weakness, spasms
milk, legumes synthesis
Phosphorus Milk, cheese, meat, fish, grains, Enzyme component, acid–base Weakness, calcium loss, weak bones
legumes, nuts balance, bone and tooth formation
Potassium Meat, milk, many fruits, cereals, Acid–base and water balance, nerve Muscle weakness, paralysis
legumes function
Sodium Most foods except fruit Acid–base and water balance, nerve Muscle cramps, apathy, reduced
function appetite
Sulfur Protein foods Component of proteins Deficiencies are very rare

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 Table 22.4 - Major and Trace Mineral Sources,
Functions, and Deficiency Conditions (2 of 2)
Trace minerals
Arsenica Many foods Growth and reproduction Poor growth and reproduction
Cobalt Meat, liver, dairy foods Component of vitamin B12 Pernicious anemia (vitamindeficiency symptom)
Copper Drinking water, liver, grains, legumes, nuts Component of numerous enzymes, Anemia, fragility of arteries, low appetite, and inhibited growth
hemoglobin formation

Chromium Fats, vegetable oils, grains, meat Enhances insulin action Reduced ability to metabolize glucose
Fluorine Drinking water, seafood, onions, spinach Maintenance of bones and teeth Higher frequency of tooth decay
Iodine Iodized salt, fish, dairy products Component of thyroid hormones Hypothyroidism, goiter
Iron Liver, lean meat, whole grains, dark green vegetables Component of enzymes and hemoglobin Anemia
Manganese Grains, beet greens, legumes, fruit Component of enzymes Deficiencies are rare
Molybdenum Legumes, cereals, organ meats, dark green vegetables Component of enzymes Deficiencies are rare
Nickel Many foods Needed for health of numerous tissues Organ damage, deficiencies are rare
Selenium Grains, meat, poultry, milk Component of enzymes Deficiencies are rare
Silicona Many foods Bone calcification Poor bone development, deficiencies are rare
Tina Many foods Needed for growth Poor growth
Vanadiuma Many foods Growth, bone development, reproduction Poor growth, bone development, and reproduction
Zinc Milk, liver, shellfish, wheat bran Component of numerous enzymes Poor growth, lack of sexual maturation, loss of appetite, abnormal
glucose tolerance

a
Need and deficiency symptoms determined for animals, probable in humans, but not yet recognized.

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 Energy in the Biosphere (1 of 2)
The sun is the ultimate source of energy used in all biological processes
Enormous energy output results from the fusion of hydrogen atoms into helium atoms

4H  nuclear
 fusion
 He + energy

Portion of the liberated energy reaches the Earth’s surface and is absorbed by
chlorophyll pigments in the plants
Photosynthesis converts CO2 and H2O into glucose, and then into starch, triglycerides, and
other storage forms of energy

6CO 2  6H 2 O + energy  photosynthesis
   C6 H12 O6  6O 2
glucose

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 Energy in the Biosphere (2 of 2)

Energy stored in plants is obtained by all animals directly or indirectly
Cellular respiration
Plants and animals combine energy-rich compounds with oxygen from the air to produce CO 2 and
H2O and release energy

Glucose and other + O 2  respiration
   CO 2 + H 2 O + energy released
storage forms of energy

Portion of energy released is captured within cells in the form of adenosine triphosphate (ATP)
Remainder of the energy is liberated as heat

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Figure 22.11 - Energy Flow in the Biosphere

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 Carbon Cycle
Respiration process is the reverse of the photosynthetic process
Some of Earth’s carbon compounds are repeatedly recycled by living organisms

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 Metabolism
Sum of all reactions involved in maintaining a living cell
Categories
Catabolism: All reactions that lead to the breakdown of biomolecules
Reactions release energy
Anabolism: All reactions involved in the synthesis of biomolecules
Reactions require energy

Metabolic pathway: Sequence of reactions used to produce one product or
accomplish one process
Examples - Citric acid cycle and electron transport cha

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 Catabolism of Food (1 of 2)
Stage I - Large, complex molecules are digested into simpler ones via hydrolysis

proteins  hydrolysis
 amino acids
disaccharides and polysaccharides  hydrolysis
 monosaccharides
fats and oils  hydrolysis
 fatty acids + glycerol

Stage II - Small molecules are broken down into simpler units, primarily the two-
carbon acetyl portion of acetyl coenzyme A (acetyl CoA)

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 Catabolism of Food (2 of 2)
Stage III - Common catabolic pathway
Reactions of the citric acid cycle plus those of the electron transport chain and oxidative
phosphorylation
Purpose is to convert chemical energy in foods to ATP molecules

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Figure 22.13 - Three Stages in the Extraction
of Energy from Food

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 Structure of ATP

Adenosine portion consists of a heterocyclic base, adenine, bonded to ribose
Triphosphate portion is bonded to the ribose to give ATP
ATP molecule has a charge of –4
At the cell pH of 7.4, all protons of the triphosphate group are ionized

ATP is complexed with Mg2+ in a 1:1 ratio
Net charge of complex is –2

Triphosphate end is essential in the transfer of biochemical energy

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Figure 22.16 - The Structure of ATP

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 Hydrolysis of ATP in Water (1 of 2)
Results in the transfer of a phosphoryl group (—PO32–) from ATP to water

Products are adenosine diphosphate (ADP) and an inorganic phosphate, Pi

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 Hydrolysis of ATP in Water (2 of 2)
Accompanied by the release of free energy (ΔG), which is used in cellular
processes that require input of energy
ATP + H 2 O ADP + Pi + H + G    7.3 kcal/mol

ΔG has a positive value when energy is absorbed and a negative value when energy is
released
Represented G when measured under standard conditions
Represented by G when measured at body conditions
ATP is a high-energy compound
Liberates a great amount of free energy on hydrolysis

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Figure 22.17 - Schematic Representation of
the Lowering of Energy

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Table 22.6 - Hydrolases of Some ATP-Related
Compounds

Reaction ΔG°9 (kcal/mol)
ATP + H2O ⟶ ADP + Pi +H+ −7.3
ATP + H2O ⟶ AMP + PPi + 2H+ −10.9
PPi + H2O ⟶ 2Pi −4.6
ADP + H2O ⟶ AMP + Pi + H+ −7.3

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 The ATP–ADP Cycle

Plays a central role in linking energy production with energy utilization

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 Mitochondria
Cellular organelles where reactions
of the common catabolic pathway
occur
Known as cellular power stations
Contain both inner and outer
membranes
Folds of the inner membrane are called
cristae
Gel-filled space that surrounds the cristae
is called the matrix

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 Coenzyme A (CoA) (1 of 2)

Central compound in metabolism and is a part of acetyl CoA
Derived from the B vitamin pantothenic acid (B5)
Contains:
Phosphate derivative of ADP
b-mercaptoethylamine
Reactive sulfhydryl group (—SH)

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 Coenzyme A (CoA) (2 of 2)

Transfers acyl groups
Acyl groups are linked to CoA via the sulfur atom in a thioester bond

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 Nicotinamide Adenine Dinucleotide (NAD+)
(1 of 3)
Derivative of ADP and the vitamin
nicotinamide
Reactive site is located in the
nicotinamide portion

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 Nicotinamide Adenine Dinucleotide (NAD+)
(2 of 3)
Acts as an electron acceptor
Nicotinamide ring accepts two electrons and one proton during oxidation of a substrate,
which forms the reduced coenzyme NADH

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Nicotinamide Adenine Dinucleotide (NAD+)
(3 of 3)
General reaction:

Concise manner of representing the general reaction:

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 Flavin Adenine Dinucleotide (FAD) (1 of 2)

Derived from ADP and the vitamin
riboflavin
Reactive site is located within the
riboflavin ring system

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 Flavin Adenine Dinucleotide (FAD) (2 of 2)
Substrates of enzymes that use FAD as the coenzyme give up two electrons
FAD accepts both the H atoms

Involved in the reactions in which a —CH2—CH2— portion of the substrate is
oxidized to a double bond

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