Food Science & Nutrition/Supporting Sciences

Question 1

Which fruits are best stored at room temperature?

Answer 1

Dried fruit
Avocados
Bananas
Pears
Tomatoes

Question 2

What is the difference between climacteric and non-climacteric fruits? Give examples of each.

Answer 2

Climacteric fruits = ripen post-harvest
- peach, pear, banana, apple, tomato

Non-climacteric fruits = ripen before harvest
- grapes, melon, citrus

Question 3

How are chlorophyll, carotenoids, flavonoids and flavones affected by changes in pH?

Answer 3

Chlorophyll
- Insoluble in water
- Green + acid → olive green d/t pheophytin
- Green + alkaline → light green d/t chlorophyllin (mushy veggies)

Carotenoids (least affected by changes in pH)
- yellow/orange
- Insoluble in water
- Little effect in acid or alkaline solution

Flavonoids
- Soluble in water
- Anthocyanins (red/blue/purple)
- red/blue/purple + acid → pink/red
- red/blue/purple + alkaline → purple/blue
- Red cabbage in vinegar becomes bright red
- Lycopene is found in tomatoes, watermelons, and apricots (anything red). May reduce prostate cancer risk

Flavones (anthoxanthins)
- Soluble in water
- Colorless in acid (bleaching effect)
- Yellow in alkaline or when cooked in an aluminum pan (flavones chelate aluminum)

Question 4

What is the difference between a coulis and a compote?

Answer 4

Coulis: thin puree of fruit/veggie + sugar + water used as a sauce

Compote: fruit cooked (stewed) in syrup

Question 5

What happens to potatoes during storage?

Answer 5

Potatoes have phenolic compounds that cause color changes in raw, peeled or bruised potatoes.

Potato exposed to light during storage → green color under skin (d/t chlorophyll); may also have solanine, a natural toxicant

Starch changes to sugar during storage → old potatoes taste sweeter, cook to a darker brown (Maillard reaction), and are softer in texture

Question 6

What is the difference between Maillard Browning and Enzymatic Browning?

Answer 6

Maillard: chemical reaction between an AA and a reducing sugar, usually requiring the addition of heat.
- E.g. toasting bread until brown

Enzymatic Browning: polyphenol oxidase catalyzes the oxidation of phenols in the fruit forming quinones. The quinones can polymerize to form melanin, which causes brown pigments.
- E.g. browning of fruits/veggies

Question 7

What are the can sizes/net weight/measure etc. for fruits and veggies?

Answer 7

10: 6/case 6 lbs 9 oz. 13 cups 20-25 srvngs

#3: 12/case 46 oz. 5.75 cups 12-15 srvngs
#2.5: 24/case 1 lb 13 oz 3.5 cups. 6-8 srvngs
#2: 24/case 1 lb 4 oz. 2.5 cups 4-6 srvngs
#300: 24/case 14-16 oz. 1.75 cups 3-4 srvngs

Question 8

What is the difference between vacuum-packing meat and modified atmosphere packaging?

Answer 8

Vacuum-packing (anaerobic) aka sous vide:
- extends storage life

MAP:
- prolongs shelf life
- oxygen removed, replaced with nitrogen and CO2
- slows respiration –> prevents deterioration

Question 9

What are some examples of dry heat cooking?

Answer 9

BBQ, grilling, broiling, frying, searing, roasting, stir frying, baking

Question 10

What are some examples of moist heat cooking?

Answer 10

Braising, simmering, boiling, stewing, steaming, poaching

Question 11

Which 6 cuts of meat are best for braising?

Answer 11

chuck, brisket
bottom round
short ribs
flank steak
leg of lamb

Question 12

Which cuts of meat are best for stewing?

Answer 12

chuck roast
chuck shoulder
short ribs
round roast
shank

Question 13

What are the 3 types of fermented milks?

Answer 13

Cultured buttermilk
- lactic acid bacteria + skimmed/partly skim milk
- when replacing regular milk with buttermilk, increase the baking soda

Sweet acidophilus milk
- skim milk + lactobacillus acidophilus bacteria (reduces lactose)

Kefir
- fermented by lactobacillus kefir (reduces lactose)

Question 14

What is the difference between hydrolytic rancidity and oxidative rancidity?

Answer 14

Hydrolytic rancidity
- uptake of water –> flavor changes in butter (saturated fat)

Oxidative rancidity
- uptake of oxygen at a double bond –> changes in unsaturated fat

Question 15

What is the fat content of each of the 6 types of cream?

Answer 15

Heavy or thick: >36% fat
Medium: 30-36% fat
Whipped cream: 35% fat
Light or thin: 18-30% fat
Sour cream: >18% fat
Half and half: 10.5%+ fat

Question 16

List the wheat flours in order from most gluten and protein to least gluten and protein.

Answer 16

Durum flour (used for pasta)
Graham, whole wheat
Bread flour
All-purpose
Pastry
Cake flour

Question 17

What nutrients are wheat flours enriched with?

Answer 17

Fe, Folic acid, B1, B2, B3

Question 18

What is the difference between a shortened cake and a foam cake? Give examples of each.

Answer 18

Shortened cake: large amount of fat, uses chemical leavening
- layer cake = baking powder
- pound cake = air and steam

Foam cake: uses air as leavening
- angel cake = egg white foam, no dairy
- sponge cake = yolk foam and white foam
- chiffon cake = liquid yolks, egg white foam, baking powder, oil

Question 19

What is the reason a cake would come out yellow?

Answer 19

Too much baking soda

Question 20

Why would a cake come out hollow?

Answer 20

Too much sugar, fat and baking powder

Oven temp too low

Question 21

Why would a cake come out tough?

Answer 21

Too little sugar and fat

Too much mixing, flour and eggs

Question 22

Why would a cake come out coarse/dry?

Answer 22

Too much sugar and baking powder

Not enough mixing

Oven temp too low

Question 23

Why would a cake come out low in volume?

Answer 23

Improper levels of sugar and fat

Too little baking powder

Question 24

Why would a cake come out not leveled and unevenly shaped?

Answer 24

Fats not incorporated evenly

Question 25

List the liquid:flour ratio for the four types of batters/doughs with examples of each.

Answer 25

Pour batter - 1:1 = waffles
Drop batter - 1:2 = muffins
Soft dough - 1:3 = bread
Stiff dough - 1:4 = pie crust

Question 26

What happens when baking at high altitudes and how do you correct for it?

Answer 26

Decreased pressure –> gas expands faster –> steam forms earlier

May expand too much before oven heat has coagulated the protein and gelatinized starch to stabilize the structure

To correct: decrease baking powder, increase liquid

Question 27

List starches in order from most thickening ability to least effective thickening ability.

Answer 27

Potato
waxy corn
waxy rice
waxy sorghum
tapioca
wheat

Question 28

What is the difference between gelatinization and retrogradation?

Answer 28

Gelatinization: when heated starch swells, close to the boiling point
- E.g. sauces

Retrogradation: when chilled starch recrystallizes, becoming solid. Happens in starches with high amylose content (wheat, maize, rice, barley, potatoes)
- E.g. stale bread and old gravy

Question 29

What are the 3 crystal inhibitors?

Answer 29

Acid: sugar + acid –> inversion (hydrolysis) of sucrose –> invert sugar (glucose and fructose)

Fat: chocolate, milk

Protein: milk, egg whites, gelatin

Question 30

What is non-crystalline sugar and what are some examples?

Answer 30

amorphous, glasslike
- E.g. hard candies, brittles, chewy candy, gummy candies

Crystallization prevented by adding interfering substances OR by increasing sugar
Corn syrup retards crystallization → increasing viscosity, chewiness

Question 31

What is crystalline sugar and what are some examples?

Answer 31

Large crystals = rock candy
Small crystals = fondant, fudge

Question 32

What are some examples of emulsifiers and what foods are they used in?

Answer 32

Soy lecithin
Polysorbates
Egg yolks
Mono/diglycerides

Used in: salad dressings, PB, chocolate, margarine

Question 33

What are some examples of anti-caking agents? What foods are they used in?

Answer 33

calcium silicate
iron ammonium citrate
silicon dioxide

Used in: salt, baking powder, confectioner’s sugar

Question 34

What are some examples of thickeners, stabilizers, binders and texturizers? What foods are they used in?

Answer 34

Gelatin
Pectin
guar gum
carrageenan
xanthan gum
whey

Used in: dairy products, cakes, pudding/gelatin mixes, jams/jellies/sauces

Question 35

What are some examples of humectants? What foods are they used in?

Answer 35

glycerin, sorbitol

Used in: shredded coconut, marshmallows, soft candies, confections

Question 36

What are examples of flavor enhancers? What foods are they used in?

Answer 36

monosodium glutamate (MSG)
hydrolyzed soy protein
autolyzed yeast extract
disodium guanylate or inosinate

Used in: many processed foods

Question 37

What are some examples of preservatives? What foods are they used in?

Answer 37

ascorbic acid, citric acid
sodium benzoate, erythorbate, nitrate
calcium propionate, sorbate
potassium sorbate
BHA, BHT
tocopherols aka vitamin E

Used in: fruit sauces/jellies, beverages, cured meats, oils/margarines, snack foods, fruits/veggies, baked goods

Question 38

What are the 3 types of qualitative (subjective) food sensory evaluations?

Answer 38

Analytical: difference/discrimination tests measure ability to recognize small differences between items
- Paired comparison test = which one is saltier?
- Triangle = Three samples presented, two are alike. Which two are identical?
Between new and old products
- Ranking or scaling = Rank in order of preference

Affective: untrained panelists
- Hedonic rating = scale; face hedonic = smiling faces
- Paired preference = compares two samples for a specific attribute
- Ranking test = paired preference with additional samples

Flavor profile method aka descriptive flavor analysis profile (DFAP)
- Trained panel analyzes/record aroma and flavor in detail

Question 39

What are 4 objective (physical) measurements of food sensory evaluation?

Answer 39

Penetrometer = tenderness/firmness

Viscosimeter (viscometer) = measures flow on an incline plane or on a rotational basis

Line-spread test = measures viscosity of things that flow on a flat surface

Specific gravity = compares lightness of products; weight of a given sample volume/weight of same volume in water

Question 40

Phytochemicals are compounds produced by plants (as a way to protect themselves from viral/bacterial/fungal infections) as well as being eaten by insects. What are some examples?

Answer 40

Indols (found in cruciferous veggies)
- may decrease the risk of breast cancer
- detoxify cancer causing agents

Isoflavones (found in soybeans)
- decrease elevated cholesterol levels

Lycopene (found in red foods like tomatoes)
- may reduce prostate cancer risk

Question 41

What do low kcal, low fat, low sodium, gluten-free and organic mean on a food label?

Answer 41

Low calories: 40 calories or less per serving
Low fat: 3 g or less per serving
Low sodium: 140 mg or less per serving
Gluten-free: <20 ppm
Organic: at least 95% organic ingredients

Question 42

What is the difference between a health claim, qualified health claim and a structure function claim?

Answer 42

Health Claim = based on authoritative statements from a scientific body of the US Gov or the National Academy of Sciences
- “a Ca rich diet may prevent osteoporosis”

Qualified Health Claim = emerging evidence of a relationship, but not conclusive. Requires a disclaimer.
- “scientific evidence suggests, but does not prove, that whole grains as part of a low saturated fat and low cholesterol diet, may reduce the risk of T2DM”

Structure Function Claim = describes the role of a nutrient on the structure or function of the human body without FDA approval
- “fiber maintains bowel regularity”

Question 43

What is the difference between BMR and RMR?

Answer 43

BMR: measures oxygen consumed and CO2 produced
- Measured in the AM when at rest
- Measured by PBI aka protein bound iodine which measures activity of thyroid gland. Measures level of thyroxine produced
- When PBI is elevated, BMR is elevated
- Increased by exercise

RMR: resting metabolic rate; energy expenditure measured under similar conditions, after a short rest and controlled intake of caffeine, alcohol
- More frequently used than BMR
- Mifflin predicts within 10% of indirect calorimetry

Question 44

What is the difference between direct and indirect calorimetry?

Answer 44

Direct = measures heat produced in respiration chamber (limited usefulness)

Indirect = measures oxygen consumed and CO2 excreted using a portable machine
- Practical way of measuring which nutrients are being used for energy and determining caloric needs)
- Useful for athletes, ill individuals, burned patients
- RQ (respiratory quotient): ratio of CO2 given off to that of oxygen consumed
Important in respiratory disease.
Depends on fuel mixture being metabolized
CHO: 1, Pro: 0.82, Fat: 0.7, Mixed: 0.85
If you have a pt with COPD, increase their fat and decrease their carbs (lower RQ).
Overfeeding → increased RQ and increases lipogenesis

Question 45

What are the atomic elements that compose CHO, protein and fat?

Answer 45

CHO: carbon, hydrogen, oxygen

Protein: C, H, O, N (16%), sulfur (Cysteine and methionine)

Fat: Carbon, hydrogen, oxygen

Question 46

What are the four types of CHO?

Answer 46

Monosaccharides (simple sugars)
- Glucose, fructose, galactose

Disaccharides
- Sucrose (glucose + fructose)
- Lactose (galactose + glucose)
- Maltose (glucose + glucose)

Polysaccharides (complex sugars)
- Starch (glucose chains)
- Cellulose = adds bulk, resistant to amylase
- Pectin = thickener; nondigestible
- Glycogen = animal starch, stored in muscle and liver
- Dextrin = intermediate product of starch breakdown

Sorbitol (alcohol from glucose)
- Absorbed more slowly than glucose via passive diffusion
- Converted into fructose
- Excess may cause diarrhea

Question 47

List the CHO from most sweet to least sweet.

Answer 47

Fructose → invert sugar → sucrose → glucose → sorbitol → mannitol → galactose → maltose → lactose

Question 48

What are the 3 functions of CHO?

Answer 48

Energy

Protein-sparing action = allows most of protein to be used for tissue synthesis

Regulation of Fat Metabolism = carb restriction → ketosis

Question 49

What is the difference between essential AAs and conditionally essential AAs? List examples of each.

Answer 49

Essential = body can’t make them (TV TILL MPH)
- tryptophan, valine, threonine, isoleucine, lysine, leucine, methionine, phenylalanine, histidine

Conditionally essential = essential during catabolic stress/illness (GGASP COT)
- glycine, glutamine, arginine, serine, proline, cysteine, ornathine, tyrosine

Question 50

What is the difference between conjugated and derived proteins?

Answer 50

Conjugated
- Simple + non-protein substance e.g. Lipoprotein

Derived
- Fragments from simple & conjugated e.g. Peptide

Question 51

What AAs are soybeans, legumes and gelatin low in/lack?

Answer 51

**Soybeans low in methionine, but equivalent in protein quality to animal protein.

**Legumes low in methionine, cystine & tryptophan

**Gelatin low in methionine, lysine and has NO tryptophan

Question 52

What are the 3 functions of protein?

Answer 52

Tissue synthesis
Maintains growth
Regulates body processes

Question 53

What is the most polyunsaturated fat? What is the most unsaturated fat?

Answer 53

Safflower - most polyuns; Canola - most unsatur.

Question 54

omega 3 vs omega 6: function, deficiency symptoms, sources?

Answer 54

Omega 3
- Reduces TG, inflammation
- Deficiency → neuro changes, numbness, blurred vision
- Inhibits VLDL synthesis, little effect on total chol.
- Found in walnuts, chia seeds, herring, sardines, oysters, flax seeds, caviar, cod liver oil

Omega 6
- Builds fetal nervous system
- Deficiency → petechiae and eczema
- Omega 6:3 ratio is important
- Found in soybeans, corn, meat, fish, poultry, eggs, safflower and sunflower oils

Question 55

What happens when:
omega 6 replaces CHO?
omega 6 replaces saturated fat?
omega 3 replaces high CHO?

Answer 55

LDL decrease, HDL increase
TC and HDL decrease
TG decrease, TC no change

Question 56

What is the difference between compound and derived fat?

Answer 56

Compound
- Simple + other component e.g. Phospholipid

Derived
- Produced via hydrolysis or enzymatic breakdown e.g. FA, glycerol, steroid

Question 57

What are the 3 functions of fat?

Answer 57

Energy
- Less oxygen, more carbon than CHO so provides more energy (more C atoms for oxidation)

Insulation and padding

Depresses gastric secretion so delays emptying

Question 58

List fats in order from most saturated to least.

Answer 58

Coconut oil → palm kernel → cocoa butter → butter → palm oil → canola

Question 59

List fats in order from most monounsaturated to least.

Answer 59

Olive oil → canola → peanut → sunflower → coconut (MCT source)

Question 60

List fats in order from most polyunsaturated to least

Answer 60

Safflower → corn → soybean → cottonseed → palm kernel

Question 61

What is a winterized oil? Give 3 examples.

Answer 61

Winterized oil = won’t crystallize when cold; clear (not cloudy)

Corn, soy, cottonseed oils are winterized

Question 62

What health problems may be indicated when ECW increases in relation to ICW?

Answer 62

Acute Inflammation
- Body sends additional blood flow to the damaged area (temporary increase)

Renal Disease
- Kidney filters blood, removes toxins, regulates BP and blood pH, etc
- So when kidneys fail, their bodies have more Na than the kidneys can filter out → ECW increase (edema)

Question 63

How much insensible water loss does the body incur per day?

Answer 63

0.8-1.2 L/day

Question 64

What is the equation for mEq? What are the AW and valence numbers for Na, K and Ca?

Answer 64

mEq = (mg/atomic weight) x Valence

Na+: AW 23, Valence 1
K+: AW 39, Valence 1
Ca2+: AW 40, Valence 2

Question 65

What are normal pH, HCO3, and pCO2 values?

Answer 65

pH = 7.4
HCO3 = 24-28
pCO2 = 35-45

Question 66

Respiratory Acidosis: causes and compensation?

Answer 66

Causes
- CO2 retention by lungs
- Hypoventilation
- Emphysema

Compensation
- Kidneys increase absorption of base (bicarbonate)

Question 67

Respiratory Alkalosis: causes and compensation?

Answer 67

Causes
- Loss of CO2 and H2O (low blood levels of CO2)
- Hyperventilation
- Anxiety, severe exercise

Compensation
- Kidneys increase excretion of base (bicarbonate)

Question 68

Metabolic Acidosis: causes and compensation?

Answer 68

Causes
- Low HCO3 = Kidneys excrete excess base; uremia, diarrhea
- High H+ = Increase H production or retention by kidney; Uncontrolled diabetes; Starvation; High fat/low CHO diet

Compensation
- Increase respiration to excrete CO2
- Hyperventilation

Question 69

Metabolic Alkalosis: causes and compensation?

Answer 69

Causes
- High HCO3 = Abnormal retention of base; Increased alkali diuretics; Vomiting/dehydration
- Low H+ = Loss of stomach acid; Diuretics; Loss of chloride

Compensation
- Decrease in respiration to retain CO2
- Hypoventilation

Question 70

What are the four types of nonnutritive sweeteners?

Answer 70

Equal = Aspartame
Stevia in the Raw = Stevia Extract
Sweet n Low = Saccharin
Splenda = Sucralose

Question 71

What are the nutrient needs for the elderly?
Kcal, protein, fluid, etc.

Answer 71

Kcal needs decrease, protein needs remain the same (1 g/kg)

Often lack calcium and iron (decreased absorption d/t decreased HCl)

Constipation d/t decreased gastric motility, decreased HCl secretion in stomach

Fluids = 25-30 ml/kg

Folate-rich foods, supplements of B6 and B12 may be needed

Diet high in antioxidants may delay cataracts

MOST VULNERABLE to vitamin A toxicity (increased liver storage, decreased clearance from blood)

Question 72

Explain the summary of the digestion process including which enzymes act where.

Answer 72

SEE PIC IN GOOGLE DOC NOTES

Question 73

Gastrin: site of synthesis and functions?

Answer 73

Site of synthesis:
- Produced by the stomach
- Released in the pyloric antrum of the stomach, duodenum & pancreas

Function: stimulates gastric secretions and motility

Question 74

CCK (cholecystokinin): site of synthesis and functions?

Answer 74

site of synthesis:
- small intestine
- released from the duodenum when fat enters

Functions:
- contracts gallbladder, releasing bile
- stimulates pancreatic secretion

Question 75

Secretin: site of synthesis and functions?

Answer 75

Site of synthesis:
- duodenum

Functions:
- Stimulates flow of pancreatic juice (bicarbonate) and water into the duodenum
- Inhibits gastric acid secretion (gastrin) and thus, GI motility

Question 76

GLP-1 (glucagon-like peptide 1) & GIP (glucose-dependent insulinotropic polypeptide):
site of synthesis and functions?

Answer 76

Site of synthesis:
- small and large intestine
- released from intestine in presence of glucose and fat

Functions:
- stimulate insulin synthesis and release

Question 77

Explain the different elements of mechanical digestions/muscular activity.

Answer 77

Mastication: produces bolus (mass of masticated food)

Rhythmic contractions of esophagus
- Force food to the stomach → mixed with gastric juice → reduced to chyme (acidic)

Gastric emptying
- Usually takes between 2-6 hrs
- Carb and protein empties at about the same rate from the stomach, high fat and complex carbs (soluble fibers) slow gastric emptying

Chyme → duodenum → mix with fluids and bicarbonate ions (from pancreas) that neutralize the acid

Peristalsis = rhythmic movements of small intestine

Question 78

Explain bacterial digestion. Where does it take place?

Answer 78

Water, salts, and vitamins synthesized by bacteria absorbed in the large intestine → used by GI mucosal cells

Colonic salvage = anaerobic fermentation and absorption of end-products of CHO, fiber and AA breakdown

Malabsorbed CHO and fiber → gasses + SCFA (acetate, butyrate, propionate, lactate) → stimulate water and sodium absorption in the colon and provide substrate for energy production

Question 79

Which AA is the most glucogenic?

Answer 79

Alanine

Question 80

List 5 hormones that control BG level and how do they work?

Answer 80

Insulin
- stimulates uptake of glucose and AA into the cells
- stimulates the synthesis of glycogen by increasing glucose uptake in the liver
- promotes lipogenesis
- inhibits gluconeogenesis

Glucagon
- stimulates the release of FAs from TG
- stimulates glycogen breakdown
- stimulates gluconeogenesis

Glucocorticoids
- protein –> glucose

Epinephrine (adrenal medulla)
- Stimulates sympathetic NS
- Stimulates glycogenolysis (glycogen → glucose)
- Decreases release of insulin from pancreas during catabolic stress

Growth hormone ACTH (adrenocorticotropic)
- insulin antagonist

Question 81

Explain the process of glycolysis and the TCA cycle.

Answer 81

SEE INMAN CHART
pg. IN 24

Question 82

What is the main substrate for energy production within the Kreb’s cycle?

Answer 82

Pyruvate

Question 83

What happens if there is not enough oxaloacetate coming in from CHO for the TCA cycle?

Answer 83

FAs will be used and produce ketones as a byproduct

Question 84

List 3 ketone bodies.

Answer 84

acetoacetic acid, acetone, beta-hydroxybutyric acid

Question 85

How much ATP does full oxidation of 1 glucose molecule yield?

Answer 85

38 ATP

Question 86

Where does gluconeogenesis occur?

Answer 86

In the liver

Question 87

Where and when does glycogenesis occur?

Answer 87

in the liver and muscle during rest, following the Cori cycle. It will be activated by insulin in response to elevated glucose.

Question 88

What is the formula for nitrogen balance? What does a positive and negative balance indicate?

Answer 88

(protein intake (g)/6.25) - (UUN + 4)

+ = net gain in body protein (infant, teenager, pregnancy, healing)
- = erosion of body protein (inadequate intake)

Question 89

What is the difference between biologic value vs net protein utilization vs PDCAAS?

Answer 89

BV aka biologic value: uses N balance to determine fraction of absorbed N kept for growth and maintenance
- Eggs BV = 100, so 100% of N absorbed is retained

NPU aka net protein utilization: measures amount of protein actually used
- (N intake - N output)/N intake

Protein Digestibility Corrected Amino Acid Score (PDCAAS): estimates % of protein in each food category that’s actually digested
- Animal 97%, plant proteins 70-90%

Question 90

Describe the protein catabolism process. What vitamin is involved?

Answer 90

See google doc.

Pyridoxine is involved

Question 91

Which hormones are involved in protein anabolism and catabolism?

Answer 91

Pituitary growth hormone, thyroid hormone, insulin, testosterone → anabolism

Adrenal steroids (glucocorticoids): protein catabolism aka protein → glucose; stimulates gluconeogenesis

Question 92

How are mono/diglycerides/LCFAs absorbed vs glycerol/SCFAs/MCFAs/some phospholipids?

Answer 92

Absorbed directly into portal blood: glycerol (water-soluble), SCFAs & MCFAs (<12 carbons), some phospholipids

Combined w/ bile salts to form micelles: Mono-, diglycerides, LCFAs
- Bound to protein to form lipoproteins (chylomicron) → intestinal mucosa → travel through lymph → thoracic duct → blood

Question 93

What 2 places does lipogenesis occur?

Answer 93

Adipose (most active site): FA + glycerol →TG

Liver (synthesizes fat, but shouldn’t store it)

Question 94

What hormones are involved in fat anabolism and catabolism?

Answer 94

Lipogenesis (anabolism): promoted by insulin

Lipolysis (catabolism): promoted by glucagon
- glucocorticoids, thyroxine, epinephrine, ACTH all increase fat mobilization rate

Question 95

What is absorbed in the stomach?

Answer 95

Water
Alcohol
Minerals: I, Fl

Question 96

What nutrients are absorbed in the duodenum?

Answer 96

Vitamins: B1,2,7,9

Minerals: Ca, Fe, Cu, Zn

Question 97

What nutrients are absorbed in the jejunum?

Answer 97

Monosaccharides
AAs, small peptides
Lipids
Water

Vitamins: B1,2,5,6,7,9, C, ADEK

Minerals: Na, Ca, K, Mg, P, Fe, Zn, Cu, Molybdenum

Question 98

What nutrients are absorbed in the ileum?

Answer 98

Bile salts/acids
Water

Vitamins: B12

Minerals: Ca, Mg, Na, K, Cl

Question 99

What nutrients are absorbed in the colon?

Answer 99

Water
SCFAs

Vitamins: K, B1,2,3,5,7,9

Minerals: Na, K, Cl

Question 100

Which mechanism of transport (active vs simple diffusion vs facilitated diffusion) do fructose, glucose, and galactose use?

Answer 100

Fructose = facilitated diffusion (passive)

Glucose & galactose = active transport with Na+

Question 101

Which mechanism of transport (active vs simple diffusion vs facilitated diffusion) do AAs, di&tripeptides, and lipids use?

Answer 101

AAs, di&tripeptides = active transport

Lipids = simple diffusion via micelles

Question 102

Which mechanism of transport (active transport vs simple diffusion vs facilitated diffusion) do fat-soluble and water-soluble vitamins use?

Answer 102

Fat soluble vitamins (A, D, E, K) - taken up by being incorporated into micelles (simple)

Water soluble vitamins (B and C) - taken up by simple diffusion

B12 and intrinsic factor - taken up by active transport and requires receptor-mediated endocytosis

Question 103

Which mechanism of transport (active vs simple vs passive) do Na, Cl, I, Ca, Fe, K, and Mg use?

Answer 103

Na+ absorbed by active transport via Na/K ATPase pumps

Cl, I, and nitrate follow Na passively

Ca absorbed via active transport, regulated by Parathyroid and vitamin D

Fe, K, Mg absorbed via active transport

Question 104

What are the factors that aid in the absorption of vitamin A, D, riboflavin, B12, iron and folate?

Answer 104

Vitamin A - bile salts, pancreatic lipase, fat

Vitamin D - hydroxylated in liver, then in kidney; needs bile salts, acidity of chime; accompanies Ca and P absorption

Riboflavin - Phosphorus

B12 - ileum, stomach secretions (HCl, intrinsic factor)

Iron - HCl, calcium (binds oxalates)

Folate - zinc dependent, cleaves polyglutamate to monoglutamate
- Folic acid in fortified foods = monoglutamate