Chapter 24) Metabolism and Nutrition

Question 1

Nutrition

Answer 1

• Nutritent) A substance in food the body uses for growth, maintenace, and repair.
• Major Nutirents (Macronutrients)
  
  • Buld of ingested food
  • Carbs, Lipids and Proteins.
• Other Nutrients (micronutrients)
  
  • Required in smaller ammounts
  • Vitamins and minerals
• Water is important but not a nutrinent
• Food Gorups) Fruits, Vegtables, Grains, Protein, Dairy
• Essential Nutrients) nutrients that cannot be syntasized by the liver
  
  • Around 40 molecules
  • Non-essential nutrients viral to life as well.

Question 2

Proteins

Answer 2

• Complete Protiens
  
  • Meet all the bodys protein requirments
  • Eggs, Milk, Fish and most meats
• Incomplete proteins
  
  • Nuts, Legumes, Beans, Cereals are protein rich but incomplete because they don’t contin all proteins needed for building
  • can be complete if ingested together.
• All or None Rule) All amino acids need to be present to build a specific protein. If one is missing protein may not be built.
  
  • Amino Acids are not stored.

Question 3

Vitamins

Answer 3

• Two Types
• Water-Soluable Vitamina
  
  • B complex and C are absorbed with water
  • B12 requires intrensic factor
  • Any not used are excreted from the body within one hour; issues with accumulation are rare
• Fat-soluable Vitamins
  
  • A, D, E. and K absorbed with lipid digestion products
  • Sored in the body, except for vitamin K

Question 4

Metabolism

Answer 4

• Metabolism) Biochemical reactions inside cells involving nutrients
• Two reactions
• Anabolism) synthesis of large molecules from small ones
  
  • ex) amino acids > Proteins
• Catabolsim) hydrolysis of complex strucures to simpler ones
  
  • Ex) Proteins > Amino Acids.
• three major Stages

1. Stage 1) Digestion and absorption in GI tract
   
   • moves nutrients into blood then the tissue cells
2. Stage 2) Occurs in the Cytoplasm of Tissue Cells
   
   • Nutrients are build into lipids, proteins or glycogen by anabolic pathways or broken into smaller fragemnts by catabolic pathways
   • Many end up as Pyruvic acid, a metabolic intemediate
3. Stage 3) Occurs in Mitohondria
   
   • Almost completely catabolic; requiures O2 and comlete breakdown of all stage 2 products.
   • Most are converted into acetal CoA > CO2, ATP

Question 5

Cellular Respiration

Answer 5

• Group of catabolic reacations collecively called cellular respiration
  
  • Glycolysis
  • Citric Acid cycle
  • Oxidative phosphorylation
• Catabolism of fuel from food is captured in the form of ATP in cells
  
  • as ATP is hydrolyzed, Enymes shift high energy phosphate to other molecules (phospholrilztion)
• Phosphorylated molecules activated to preform cellular functions
  
  • Goal > Trap chemical enrgy in ATP
  • Energy is also stored in glycogen and fats
  • Oxidation of Food for Fuel.

Question 6

Carb Metabolism

Answer 6

• oxidation of Glucose
  
  • CH12O6 + 6O2 > 6H20 + 6CO2 + 32ATP + Heat
• Requires work of three pathways

Question 7

Glycolysis

Answer 7

• Glycolysis) “Sugar Splitting” (Glycotic pathway)
  
  • 10 step pathway
  • Convert glucose to two pyruvic acid
  • All steps are fully reversable except for the first (can be converted back to gluose)
  • Reaction keeps intercellular glucoce concentration low > continued glucose entry rrwuired
• Anerobic) occurs with or without the presence of O2
• Final Products of Glycolysis
  
  • 2 Pyruvic Acid (C3H4O3)
  • 2 NADH + H⁺
  • Net gain of 2 ATP (2 in 4 out)
• NAD⁺ Must be present to acccept H+ atoms for glycolysis to continue
  
  • NAD+ supply limited; NADH must dontate H+ to become NADH+ and for glycolysic to continue
  • O2 Present) Occurs in midochondria in Eletron transport chain (ETC)
  • No O2 present) NADH gives H+ to pyrivic acid and it becomes Latic Acid.
• Fate of Latic Acid

Question 8

Role of NADH/ production of Latic Acid

Answer 8

• NAD+ Must be present to acccept H+ atoms for glycolysis to continue
  
  • NAD+ supply limited; NADH must dontate H+ to become NADH+ and for glycolysic to continue
  • O2 Present) Occurs in midochondria in Eletron transport chain (ETC)
  • No O2 present) NADH gives H+ to pyrivic acid and it becomes Latic Acid.
• Fate of Latic Acid
  
  • Some laves cell > liver
  • May be converted to Glucose-6-Phosphate for storage
  • May be de-phosphorlyated and release glucose to the blood.

Question 9

Transitional Phase) Citric Acid Cycle (Krebs Cycle)

Answer 9

• Occurs in Mitochondrial Matrix
• Fueled by pyruvic acid from glycolysis and fatty acids from fat breakdown.
• Transitional Phase
  
  • Occurs between glycolysis and Citric Acid Cycle
  • Converts Pyruvic Acid to Acetyl CoA (Coenzyme A)
  • Forms Molecule of CO2 and NADH
• Products of Each Turn of The Citric Acid Cycle
  
  • 1 glucose > 2 Pyruvic acid > 2 turns of Krebs cycle
  • Final Producets) 6NADH, 2FADH₂, 4CO₂, 2ATP,

Question 10

Electron Transport Chain and Oxidative Phosphorlation

Answer 10

• None of the reactions in the citric acid cycle use oxygen diretly
• ELectron Transport Chain) Carries out final catabolic reactions in mitochondrial membrane
  
  • Reduced coenzymes produced in citric acid cycle are the substrates for the electron transfer chain
  • Pathways are coupleled and aerobic (oxygen required)_
• Overview
  
  • NADH + H+ and FADH₂ (From glycolysis and Krebs Cycle) deliver H+ atoms
  • H+ combines with O2 to form water
  • Energy releases harnessed > Turned into ATP via Oxidative Phosphorlization

Question 11

Summary of ATP prodution

Answer 11

• Complete Oxifation of 1 Glucose
  
  • Glycolysis + Krebs Cycle + Electron Transport Produces Co2, H20, and 32 molecules of ATP.
  • Net result is about 30 ATP because of energy required to move NADH+ H+

Question 13

Glycogenesis, Glycogenolysis, and Glucogenesis

Answer 13

• Glycolysis) Converts Glucose to Pyruvic Acid.
• Glycogenisis) Polymerizes glucose to form glycogen
  
  • Liver and Skeletal mucles
• Glycogenolysis) Hydrolyzes glycogen to glucose monomers
  
  • hepatocytes and some kindey and intestinal cells
• Gluconeogenisis) Forms glucose from noncarb precursors
  
  • Formed in liver from glycerol and amino acids when blood glucose drops
  • Protects agains hypoglycemia.

Question 14

Lipid Metabolism

Answer 14

• Greater Energy yield from glucose or proteins catabolism
• Chylomicrons) products of fat digestion transported in the lymph
  
  • Hydrolyzed by endothelial enxymes into Fatty Acids and GLycerol
• Only Triglycerides are oxidixed for energy
• Two building blocks oxidized seperatly

1. Glycerol Pathway
   
   • Glycerol > Glyceraldhyde-3Phosphate (same as glycolysis)
   • Enters the Krebs Cycle
   • Yeilds about 1/2 the ATP of glucose (15 ATP per glycerol)
2. Fatty Acid Pathway
   
   • Pathway in which fatty acids are broken.
   • Turns fatty acids into Acytel CoA

Question 15

Lypogenisis

Answer 15

• Diatary Glycerol and Fatty Acids not needed for energy > Stored as Triglerecided
• Tryglyceride Synthesis (Lipogenesis)
  
  • Occurs when cellular ATP and glucose levels are high
• Glucose easily converted to fat because acetyl CoA
  
  • Is intermediate in glucose catabolism
  • Starting point for Fatty Acid Synthesis

Question 16

Lypolysis

Answer 16

• Stored Fat broken > Glycerol and Fatty Acids for Fuel
  
  • Done by liver, cardiac muscle, and resting skeletal muscle
• Converted to Glucose if Carbs Deficent
  
  • Ability of acetyl CoA to enter citric acid cycle depends on ammount of intermdiate carbohydrayes if glucose is deficent
  • Intermediates are conveted to glucose to feed brain and stop aceytal CoA
• Ketogenesis) Excess Acetyl CoA is converted to ketone bodies (ketones) which are relesed into the blood
• Ketosis) accumulation of ketones in blood

Question 17

Protein Metabolism

Answer 17

• Proteins have a limited life span and must be broken down and replaced before they detiorate
• Amino acids recyleled into a new protein or diffrent compound
• Protein not stored in the body
  
  • Excess amino acids are oxidized for energy or converted to fat for storage
• Amino Acids form most anabolic nutrients
  
  • Form all proteins and bulk of macromolecules
• Hormonally Controlled (Growth Hormone, Thyroxine, Sex hormones)
• Requires complete Set for Protein Syntesis
  
  • “All or Nothing”
  • Essential amino acids reuqired in diet, nonessential acids can be synthesized in the liver

Question 18

Catabolic-Anabolic Steady State of the Body

Answer 18

• Blood Concentrations of Energy sources equalized between
  
  • absorbptive state or fed state
  • postabsorptive or fasting state.
• Absorptiive state laste about four hours after eating begins
  
  • absorption of nutrients
• Postabsorbatie State) GI tract is empty and body reserves are broken down to supply energy.

Question 19

Absorbative State

Answer 19

• Anabolism exceeds Catabolism
  
  • Nutrients are beins stored
• Carbohydrates) mostly GLucose
  
  • glucose converted to glycogen or fat in liver
  • Synthesized fat/ proteins relesed to blood as very low density lypoproteins
• Tryglucerides) Lipoprotein lipase catalyzes lipids od chylomicrons in mucle and fat tissue
  
  • Most glycerol/fattyacids are converted to triglycerides for storage
  • Triglycerides used by adipose tissue, liver, and muscle as primary energy soruce.
• Amino Acids) Excess Amino Acids deaminated and used for ATP synthesis or stored as fat in liver
  
  • most used in protein synthesis.
• Hormonal Control) Primarily controlled by Insulin; Emhnces
  
  • Diffucion of glucose into cells
  • Glucose Oxidation for Energy
  • Glycogen and Triglyceride formation
  • Active transport of amino acids into tissue cells
  • Protein Synthesis
  • Inhibits Glucose release from Liver / Gluconeogenesis.

Question 20

Postabsorbative State

Answer 20

• Maintains Blood glucose between meals
  
  • Makes glucose avaible to the blood
  • Promotes use of fats for energy (saves glucose for organs that need it._
• Where does postabsortavive blood glucose come from?
  
  • Glycogenolysis in liver and skeletal muscle
  • Lipolysis in adipose tissue and liver
  • Catabolism of celllar protein when glycogen and fat are nearly exhauseted.
• Hormonal Control) triggerd by reduced insulin release as blood glucose drops
  
  • Glucogen) tells liver and adipose to promote glycogenolysis gluconeogenesis.
  • Lypolysis in adipose tissue
• Amino Acids raise both insulin and glucogen
  
  • done to make sure there are propper glucose levels.

Question 21

Metabolic Role of the Liver

Answer 21

• Hepatocytes
  
  • about 500 metabolic funtions
  • Process nearly every class of nutrient
  • Play major role in regulating choleterol levels
  • Stores vitamens and minerals
  • Metabolize alchol, drugs, hormones and bilirubin
• Cholesterol
  
  • Structural basis of bole salts, steroid hormones and vitamin D
  • Major component of plasma membranes
  • 15 % of blood cholesterol is injested; rest is made in liver

Question 22

Cholesterol Tranport) Lipoproteins

Answer 22

• Lipoportieins
  
  • transport cholesterol and triglycerides in the blood
  • Regulate lipid entry/exit at target cells
  • contain triglycerides, phospolipids, cholesterol and protein
  • higher density of lipids > lower density overall
  • higher density of protein > higher density
• Types of Transport lipoproteins
  
  • HDLs (high density) highest protein content
    
    • Transport excess cholesterol from peripheral tissue to liver and become part of bile
    • provide cholesterol to steroid producing organs.
  • LDLs (low density) Cholesterol-rich
    
    • tranposr chilesterol to pheripheral tissues for membranes, srorage, or gomone synthsis
  • VLDLs (Very low density) mostly triglycerides
    
    • Transport triglycerides from liver to peripheral tissues
  • Chylomicrons) Lowest denstiy

Question 23

Recomended Cholesterol Levels

Answer 23

• Total cholesterol = 200mg/dl or less
  
  • Greater leves linked to atherosclerosis
• High HDL though to protect against heart desiess
• High LDL) Cholesterol deposits in vessels

Question 24

Trans Fats

Answer 24

• Healty oils with added H+; forced to be solid
• Worse effect on chlolesteol levels than saturated fats
  
  • Increase LDL’s and reduce HDL’s
    *

Question 25

Obesity

Answer 25

• Body Mass Index) formula for determining obesity based on height and weight
  
  • Wt (lb) x 705/(height in inches)²
  • Considered overweight if BMI 25-30
  • Obese if greater than 30

Question 26

Metabolic Rate and Heat Production

Answer 26

• Metabolic Rate) Total heat produced by chemical reactions / mechanical work of the body
• Basal Metabolic Rate (BMR)
  
  • reflects energy body needs to perform its essential activties
  • Influenced by body surface area, age, gender, temp, stress, thyroxine
  • Decresed with age; higher in males
  • Increases with stress or temp
• Total Metabolic Rate (TMR)
  
  • Rate of kilocalorie consumption needed to fuel all activities
  • Increases with actvitie and food ingestion

Question 27

Regulation Of Body Temp

Answer 27

• Reflects balance between heat procution and loss
• At rest liver, heart, brain, kindeys and endocrine organs generate the most heat
• during activity skeletam mucle heat increases dramtically
• 96.6
  
  • Increased temp denatures proteins and supresses nuerons
• Insensible Heat Loss) acompanies water loss
  
  • 10% of heat production
• Sensible heat loss) due to body tempratue rising

Question 28

Heat-Promoting Mechanisms

Answer 28

• Constiction of cutaniois blood vessels
• Shivering
• Increased Metabolic Rate
  
  • epinepherine and norepinephiren
  • chemical thermogenisis (nonshiveing)
• Enhanced thyroxine release (infant)
• Behavioral modification
  
  • more clothes
  • drinking hot
  • Changing posture
  • Increasing activity

Question 29

Heat Loss mechanisms

Answer 29

• Dilation of Cutaneous blood vessels
• Enhnanced sweating
• Voluntaty measures
  
  • moving inside
  • wearing light clothes
    *