BackComprehensive Study Notes: Proteins, Vitamins, Minerals, and Weight Management
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Proteins and Amino Acids
Protein Structure
Proteins are complex macromolecules composed of amino acids linked by peptide bonds. Their structure is organized into four levels:
Primary structure: Linear sequence of amino acids.
Secondary structure: Local folding into alpha-helices and beta-sheets.
Tertiary structure: Three-dimensional folding driven by side chain interactions.
Quaternary structure: Association of multiple polypeptide chains.
Bond between amino acids: Peptide bonds form between the amino group of one amino acid and the carboxyl group of another.
Protein Functions in the Body
Structural: Collagen in connective tissues, keratin in hair and nails.
Enzymatic: Catalyze biochemical reactions (e.g., digestive enzymes).
Transport: Hemoglobin transports oxygen; albumin transports nutrients.
Hormonal: Insulin and glucagon regulate blood glucose.
Immune: Antibodies defend against pathogens.
Energy: Used as an energy source when necessary (4 kcal/g).
Food Sources of Protein
Highest sources: Meat, poultry, fish, eggs, dairy products, legumes, nuts, and seeds.
Protein Digestion and Absorption
Begins in the stomach with pepsin and hydrochloric acid.
Continues in the small intestine with pancreatic proteases.
Amino acids are absorbed into the bloodstream via active transport.
Essential vs Nonessential Amino Acids
Essential amino acids: Cannot be synthesized by the body; must be obtained from diet (9 total).
Nonessential amino acids: Can be synthesized by the body (11 total).
What Makes Protein Unique?
Proteins contain nitrogen, unlike carbohydrates and fats.
Complete vs Incomplete Proteins
Complete proteins: Contain all essential amino acids in adequate amounts (e.g., animal proteins, soy).
Incomplete proteins: Lack one or more essential amino acids (e.g., most plant proteins).
Complementary Proteins
Combining two or more incomplete protein sources to provide all essential amino acids (e.g., rice and beans).
Limiting Amino Acids
The essential amino acid in shortest supply in a food protein, limiting protein synthesis.
Denaturation
Structural alteration of proteins due to heat, acid, or agitation, resulting in loss of function.
Nitrogen Balance
Balanced: Nitrogen intake equals output (healthy adults).
Positive: Intake exceeds output (growth, pregnancy, recovery).
Negative: Output exceeds intake (illness, injury, malnutrition).
Recent Research on Protein Intake
Distributing protein intake evenly across meals may optimize muscle protein synthesis.
Protein-Energy Malnutrition
Marasmus: Severe energy and protein deficiency; symptoms include wasting and stunted growth.
Kwashiorkor: Protein deficiency with adequate energy; symptoms include edema, fatty liver, and skin changes.
Plant-Based Diets
Benefits: Lower risk of heart disease, hypertension, type 2 diabetes, and certain cancers.
Potential deficiencies: Vitamin B12, iron, calcium, zinc, omega-3 fatty acids.
Types of Vegetarians
Type | Foods Consumed |
|---|---|
Vegan | Excludes all animal products |
Lacto-vegetarian | Includes dairy, excludes eggs and meat |
Ovo-vegetarian | Includes eggs, excludes dairy and meat |
Lacto-ovo vegetarian | Includes dairy and eggs, excludes meat |
Pescatarian | Includes fish, excludes other meats |
Flexitarian | Primarily plant-based, occasionally includes meat |
Vitamins
Water-Soluble vs Fat-Soluble Vitamins
Water-soluble: B vitamins, vitamin C; not stored extensively, low toxicity risk, excreted in urine.
Fat-soluble: Vitamins A, D, E, K; stored in fat tissues, higher toxicity risk, require fat for absorption.
Provitamin
A compound that can be converted into an active vitamin (e.g., beta-carotene to vitamin A).
Bioavailability
The proportion of a nutrient absorbed and utilized by the body (e.g., heme iron is more bioavailable than non-heme iron).
Free Radicals and Antioxidants
Free radicals: Unstable molecules that can damage cells.
Antioxidants: Neutralize free radicals (e.g., vitamins C, E, and beta-carotene).
Oxidative stress: Imbalance between free radicals and antioxidants, leading to cell damage.
Excess free radicals or inadequate antioxidants increase risk of chronic diseases.
Preserving Vitamin Content
Minimize cooking time, use less water, avoid high temperatures, and store foods properly.
General Functions and Sources
Water-soluble vitamins: Coenzymes in metabolism, support immune function.
B vitamins: Found in whole grains, meats, dairy, legumes, and leafy greens.
Selected Vitamins
Vitamin A: Vision, immune function; deficiency causes night blindness; toxicity causes liver damage; sources: retinol (animal), beta-carotene (plant).
Vitamin D: Bone health; sources: sunlight, fortified foods; deficiency in adults causes osteomalacia.
Vitamin E: Antioxidant; sources: nuts, seeds, oils; destroyed by heat and oxygen.
Vitamin K: Blood clotting; sources: leafy greens (K1), gut bacteria (K2).
Thiamin (B1): Energy metabolism; sources: whole grains, pork; deficiency causes beriberi.
Riboflavin (B2): Energy metabolism; sources: dairy, grains; destroyed by light.
Folate/Folic Acid: DNA synthesis; sources: leafy greens, fortified grains; deficiency causes neural tube defects; supplementation recommended in pregnancy.
Niacin (B3): Energy metabolism; sources: meats, grains; deficiency causes pellagra.
Vitamin B6: Amino acid metabolism; deficiency causes anemia; toxicity can cause nerve damage.
Vitamin B12: Nerve function; sources: animal foods; requires intrinsic factor for absorption.
Vitamin C: Collagen synthesis, antioxidant; sources: citrus fruits; deficiency causes scurvy; enhances iron absorption.
Pantothenic acid and biotin: Deficiency/toxicity rare.
Water and Minerals
Intracellular vs Extracellular Minerals
Intracellular: Potassium, magnesium, phosphate.
Extracellular: Sodium, chloride, calcium.
Fluid Needs
Determined by age, activity, environment, health status.
Tap vs Bottled Water
Both are generally safe; tap water is regulated by the EPA, bottled by the FDA.
Trace vs Major Minerals
Major: Needed in amounts >100 mg/day (e.g., calcium, phosphorus, potassium).
Trace: Needed in smaller amounts (e.g., iron, zinc, iodine).
Selected Minerals
Sodium: Fluid balance, nerve function; excess intake common; sources: processed foods.
Chloride: Major extracellular anion; maintains fluid balance.
Potassium: Fluid balance, muscle function; sources: fruits, vegetables; excess can cause heart issues.
Magnesium: Enzyme function; sources: nuts, whole grains; deficiency rare but possible.
Iodine: Thyroid hormone synthesis; sources: iodized salt, seafood; deficiency causes goiter.
Fluoride: Tooth enamel strength; sources: water, dental products; deficiency increases cavity risk.
Calcium: Bone health; sources: dairy, leafy greens; absorption interfered by oxalates/phytates; deficiency causes osteoporosis.
Phosphorus: Bone and cell membrane structure; sources: meat, dairy.
Zinc: Immune function; sources: meat, seafood; deficiency impairs immunity.
Iron: Oxygen transport; sources: heme (animal), non-heme (plant); deficiency causes anemia; toxicity can damage organs.
Iron Type | Source | Bioavailability |
|---|---|---|
Heme | Animal foods | High |
Non-heme | Plant foods | Lower |
Vitamin C enhances non-heme iron absorption.
Weight Management and Energy Balance
Obesity and Chronic Disease
Obesity increases risk for heart disease, type 2 diabetes, hypertension, and certain cancers.
Waist Circumference Guidelines
Women: >35 inches indicates increased risk.
Men: >40 inches indicates increased risk.
Body Mass Index (BMI)
Calculated as:
Limitations: Does not distinguish between muscle and fat, may misclassify athletes or elderly.
Mortality Risk and BMI
Both underweight and obese categories are associated with increased mortality risk.
Body Fat Distribution
Subcutaneous fat: Under the skin; less health risk.
Visceral fat: Around organs; higher risk for metabolic diseases.
Apple shape: More visceral fat; higher risk.
Pear shape: More subcutaneous fat; lower risk.
Body Fat Percentage
Women naturally have higher body fat % than men due to reproductive needs.
Metabolically Healthy
Having normal metabolic markers (e.g., blood pressure, glucose) despite higher body weight.
Energy Expenditure
Basal metabolic rate (BMR): Energy for basic functions.
Thermic effect of food (TEF): Energy for digestion.
Physical activity: Energy for movement.
Factors Affecting Metabolic Rate
Controllable: Physical activity, muscle mass, diet.
Non-controllable: Age, genetics, sex, hormones.
Measuring Body Fat
Method | Pros | Cons |
|---|---|---|
Skinfold calipers | Inexpensive, quick | Requires skill, less accurate |
Bioelectrical impedance | Easy, non-invasive | Affected by hydration |
DEXA scan | Very accurate | Expensive, limited access |
Hydrostatic weighing | Accurate | Uncomfortable, not widely available |
Appetite vs Hunger
Appetite: Psychological desire to eat.
Hunger: Physiological need for food.
Hormonal Regulation
Ghrelin: Stimulates hunger.
Leptin, peptide YY: Promote fullness (satiety).
Gene-Environment Interaction
Genetics and environmental factors (e.g., food availability, lifestyle) both influence obesity risk.
Calorie Deficit for Weight Loss
To lose 1 pound of body fat, a deficit of approximately 3,500 kcal is needed.
