Postlab quiz 8

Question 1

Digestion involves this

Answer 1

breaking down food products so they can be absorbed by the body and be utilized to build and repair our own body systems

Question 2

The digestive system consists of this tube

Answer 2

alumentary canal

Question 3

The alumentray canal begins here and ends here

Answer 3

mouth

anus

Question 4

T/F: the contents of the alumentary canal is considered inside the body

Answer 4

F

Question 5

Three salivary glands

Answer 5

parotid gland
sublingual gland
submandibular gland

Question 6

This is the largest organ in the body and is considered a gland

Answer 6

liver

Question 7

Two functions of the pancreas

Answer 7

exocrine

endocrine

Question 8

The exocrine function of the pancreas is associated with this

Answer 8

digestion

Question 9

The endocrine function of the pancrease is associated with this

Answer 9

regulation of blood sugar levels

Question 10

Abdominal glands of the digestive tract

Answer 10

liver

pancreas

Question 11

The role of the oral cavity

Answer 11

use teeth, tongue, and salvary secretions to masticate food, and prepare it for swallowing

Question 12

Pathway of swallowed food

Answer 12

Pharynx
esophagus
stomach
small intestine
large intestin
anus

Question 13

most digestive activity takes place here

Answer 13

small intestine

Question 14

This prepares the food/wastes for defecation

Answer 14

large intestine

Question 15

Enzymes in the digestive tract do this

Answer 15

assist in all the reactions that reduce molecues to the smallest size so they can be absorbed

Question 16

Enzymes are this type of molecule

Answer 16

protein

Question 17

The active sites on an enzyme have this

Answer 17

specificity

Question 18

Formula associated with enzyme slide

Answer 18

A+B (reactant substrates)—>(enzyme)—->C+D (products)

Question 19

T/F: Enzymes have a specific optimal temperature

Answer 19

T, a certain temperature will be the best for enzyme activity (remember slide)

Question 20

These have an effect on enzyme activity

Answer 20

Temperature
pH
substrate concentration

Question 21

Pepsin is formed here and has this optimal pH

Answer 21

stomach

2 (acidic)

Question 22

salivary amylase is formed here and has this optimal pH

Answer 22

oral cavity

7 (neutral)

Question 23

trypsin is formed here and has this optimal pH

Answer 23

small intestine

9 (basic)

Question 24

T/F: Enzymes only work in one pH environment

Answer 24

F

Question 25

Explain reaction rate vs substrate concentration when an enzyme is present

Answer 25

Reaction rate increases slowly until a saturation point which becomes the maximum rate of reaction given a set number of enzymes
Gentle uphill slope that flattens out.

Question 26

Structures in the digestive canal speed digestion by doing this

Answer 26

increasing surface area

Question 27

Structures of the small intestine that increase surface area

Answer 27

Plicae circularis
villi
microvilli

Question 28

In the stomach this increases surface area

Answer 28

gastric rugae

Question 29

The villi of the small intestine are covered in this

Answer 29

brush boarder

Question 30

Enzymes are imbedded here in the small intestine

Answer 30

Microvilli

Question 31

Peristalsis does this

Answer 31

Through coordinated muscle movements or peristaltic waves, food is moved through the alumentary canal

Question 32

Peristaltic waves consists of contractions of these types of muscles

Answer 32

circular

Question 33

This is moved by peristaltic waves

Answer 33

bolus

Question 34

Food is moved before, or after the peristaltic wave

Answer 34

before, or in front of

Question 35

Three enzymes we will look at in lab

Answer 35

amylase
pepsinogen (pepsin)
lipase

Question 36

Secreded from, substrate, optimal pH, and products: Amylase (ptyalin)

Answer 36

Pancrease,
salivary glands
startch
6.8 maltose and dextrin

Question 37

Secreded from, substrate, optimal pH, and products: Pepsinogen (pepsin)

Answer 37

chief cells
protein
1.6-2.4
shorter polypeptides

Question 38

Secreded from, substrate, optimal pH, and products: Lipase

Answer 38

pancreas
triglycerides
8.0
fatty acids and monoglycerides

Question 39

Maltose is this type of molecule

Answer 39

two-chain sugar

Question 40

The gastric gland of the stomach consists of these parts (bottom to top)

Answer 40

Chief cell
parietal cell
mucous cell

Question 41

Two layers of the stomach

Answer 41

mucosa

submucosa

Question 42

Parietal cells secrete this

Answer 42

HCl

intrinsic factor

Question 43

This occurs if the mucous layer of the stomach is compromised

Answer 43

ulcer formation

Question 44

This is the only critical secretion of the stomach, and does this

Answer 44

intrinsic factor

protects Vit. B12 from being digested

Question 45

Vit. B12 is responsible for this

Answer 45

maturation of red blood cells

Question 46

Condition that occurs when B12 is not absorbed

Answer 46

peinecious anemia

Question 47

Enzyme pathway of the stomach

Answer 47

pepsinogen is converted to pepsin in the presence of HCl

Pepsin interacts with ingested proteins and breaks them down into short peptides

Question 48

Secretions into the small intestine come from these organs

Answer 48

liver

pancreas

Question 49

Main role of the liver is this

Answer 49

secreting bile salts that emulsify fat

Question 50

The pancreas secretes these, what do the various secretions do

Answer 50

Pancreatic lipase, breaks down emulsified fat
Pancreatic colipase, assits in breakdown of fat
Trypsin, breaks down protein
Pancreatic amylase, breaks down starch to glucose
sodium bicarbonate, raises pH to about 7.8

Question 51

Within the villi of the SI there are two types of vessels, what are they

Answer 51

Capillaries

lacteal

Question 52

These are absorbed into the capillaries of the SI

Answer 52

simple sugars and amino acids

Question 53

The lacteal is responsible for this

Answer 53

absorbing fats

Question 54

Pathway of lymph from SI villi to main lymph system

Answer 54

lacteal
lymph vessel
thoracic duct

Question 55

Step 1: fat digestion in the SI

Answer 55

emulsification of fat droplets by bile salts secreted from the liver/gallbladder through the bile duct

Question 56

Step 2: fat digestion in the SI

Answer 56

Hydrolysis of triglycerides in emulsified fat droplets into fatty acids and monoglycerides by lipase

Question 57

Step 3: fat digestion in the SI

Answer 57

Dissolving of fatty acids and monoglycerides into micelles to produce “mixed micelles”

Question 58

Absorption of fat in the SI: pathway

Answer 58

Fatty acids and monoglycerides enter the epithelius villi.
Reconstitution of the FA and MG into triglycerides inside the cell.
Apoprotein attaches to triglyceride to cause formation of chylomicrons.
Chylomicrons are exocytosed into the lacteal.

Question 59

What protein will we be testing in lab

Answer 59

egg white, and the effects of pepsin on it

Question 60

Another name for Amylase

Answer 60

ptyalin

Question 61

Two types of coordinated muscle contractions in the GI tract

Answer 61

peristalsis

segmentation

Question 62

The movement of digested materials across the mucosa of the digestive tract into the blood-stream occurs through this

Answer 62

absorption

Question 63

What tests did we use to examine amylase (ptyalin) digestion on starch

Answer 63

Benedict’s test

Lugol’s (iodine) solution

Question 64

Benedict’s test, tests for this

Answer 64

maltose formation

Question 65

Lugol’s (iodine) solution tests for this

Answer 65

starch

Question 66

What is used to test for the presence of musin in saliva

Answer 66

When mixed with a 1% acetic acid solution a precipitate will form indication the presence of music

Question 67

what type of molecule is mucin

Answer 67

glycoprotein

Question 68

List the rating system for lugol’s solution, and what is it testing for

Answer 68

presence of starch (lack of breakdown)
Reddish brown (less amount of starch) to dark purple (no starch digestion)
(+++), (++), (+), (-)
Most to least digestion

Question 69

List the rating system for Benedict’s test, and what is it testing for

Answer 69

presence of maltose (breakdown of starch)
(+++) = red
(++) = orange-yellow
(+) = green
(-) = blue
Red = most starch converted to maltose
Blue = maltose has not been found

Question 70

Function of HCl in the stomach

Answer 70

activates pepsin
produces stomach pH of about 2
denaturation of proteins

Question 71

Infection of this or overuse of these can lead to peptic ulcers

Answer 71

helicobacter pylori

NSAIDs (nonsteroidal anti-inflammatory drugs)

Question 72

Grading scale for protein diegestion

Answer 72

(+++) = most digestion

++), (+), (-

Question 73

Why is pancreatic lipase ineffective by itself

Answer 73

it is a water soluble enzyme trying to act on large lipid droplets

Question 74

What helps pancreatic lipase breakdown lipids

Answer 74

bile salts

Question 75

Bile salts are this type of molecule

Answer 75

amphipathic

Question 76

This is needed to displace the bile salts to allow lipase activity within the bile salt coating

Answer 76

pancreatic colipase

Question 77

This is produced when dairy fat is digested

Answer 77

butyric acid

Question 78

Butyric acid is most easily recognized by this

Answer 78

rancid odor

Question 79

Fat digestion produces this

Answer 79

acid

Question 80

This color will show if digestion of fat takes place

Answer 80

pink

Question 81

this color will show if no fat digestion takes place

Answer 81

blue

Question 82

Trypsin does this and is found here

Answer 82

small intestine

breaks-down protein into shorter polypeptides

Question 83

Enzyme definition

Answer 83

biological catalyst, not changed during use

Active site has substrate specificity

Question 84

Review graphs/diagrams from class

Answer 84

…

Question 85

Lipids go from this to these in the presence of lypase

Answer 85

triglycerides

2 Fatty acids, 1 monoglyceride

Question 86

What is lactose intolerance

Answer 86

deficiency in the enzyme lactase which is responsible for the hydrolysis of the disaccharide lactose into glucose and galactose

Question 87

This happens to lactose in the GI tract of someone who is lactose intolerant

Answer 87

lactose cannot be absorbed as a disaccharide and will remain undigested and unabsorbed through the digestive tract

Question 88

Lactase deficiency generally develops in one of these three ways

Answer 88

Primary
secondary
congenital

Question 89

Lactase deficiency: primary

Answer 89

normal decline in lactase production that comes with age

Question 90

Lactase deficiency: secondary

Answer 90

result of injury or illness, for example:
crohn’s disease
celiac disease
or after surgery

Question 91

Lactase deficiency: congenital

Answer 91

the most rare form, infants can be born with a complete lack of lactase

Question 92

This can effect the sevarity of the symptoms of lactose intolerance

Answer 92

how much lactase the body makes

Question 93

Signs and symptoms of lactose intolerance

Answer 93

Bloating
pain or cramps in the lower belly
gurgling or rumbling sounds in the lower belly
gas
loose stools or diarrhea (sometimes foamy)
throwing up

Question 94

Symptoms usually begin within this time frame after eating this

Answer 94

30 min - 2 hours

eating or drinking milk or milk products

Question 95

Treatment for lactose intolerance

Answer 95

no cure
controling symptoms is up to the individual
Limit dairy consumption
eat/drink dairy with other foods
Take products that help individuals digest lactose
Supplement calcium from other sources

Question 96

product to help individuals digest lactose

Answer 96

Lactaid

Question 97

Dairy product that is generally easier to digest

Answer 97

yogurt

Question 98

Prognosis for lactose intolerance

Answer 98

Normal life if dairy intake is limited

many can also eat dairy symptom free with the use of medications/products

Question 99

Two types of metabolic reactions

Answer 99

anabolism (endergonic)

catabolism (exergonic)

Question 100

anabolism =

Answer 100

synthesis of larger molecules from smaller molecules
requires energy
endergonic

Question 101

catabolism

Answer 101

breakdown of larger molecules into smaller molecules
releases energy
exergonic

Question 102

Energy is gained form, and stored in this form

Answer 102

ATP

Adenosine triphospate

Question 103

Two types of cellular respiration

Answer 103

anaerobic respiration (does not require oxygen)
aerobic respiration (requires oxygen)

Question 104

Another word for anaerobic respiration

Answer 104

glycolysis

Question 105

T/F: aerobic respiration is considered the primitive type of respiration

Answer 105

F, anaerobic

Question 106

Formula for glycolysis

Answer 106

glucose -> 2 pyruvic acid + electron carriers

Question 107

In aerobic respiration pyruvic acid is converted into (full pathway)

Answer 107

acetyl CoA -> citric acid + electron carriers

Question 108

Citric acid enters into this cycle

Answer 108

krebs cycle

Question 109

All electron carriers enter this chain

Answer 109

electron transport chain

Question 110

This combines with acetyl CoA to from this in the krebs cycle

Answer 110

Oxaloacetic acid

citric acid

Question 111

These are formed during the krebs cycle (energy)

Answer 111

3 NADH
1 ATP
1 FADH2

Question 112

In the electron transport chain these are pumped into this space

Answer 112

hydrogen ions

intermembrane space

Question 113

This is needed to activate the hydrogen pumps

Answer 113

electron carriers

Question 114

These are imbedded in the inner membrane of the mitochondria and assist in the electron transport chain

Answer 114

enzyme systems

Question 115

As electrons move from one enzyme system to the next this occurs

Answer 115

hydrogen ions are pumped into the intermembrane space

Question 116

These two things are used to produce ATP in the electron transport chain

Answer 116

High H+ concentration
ATP Synthase
(ADP + Pi = ATP)

Question 117

This much ATP is produced through aerobic respiration

Answer 117

30

Question 118

This many ATP are produce by the krebs cycle and glycolysis

Answer 118

4

Question 119

This many ATP are produce by the electron transport chain

Answer 119

26

Question 120

Acetyl CoA can be converted into this four things

Answer 120

Citric acid (krebs cycle)
fatty acids
ketone bodies
cholesterol

Question 121

Energy source preference: brain

Answer 121

glucose

Question 122

Energy source preference: skeletal muscles (resting)

Answer 122

Fatty acids

Question 123

Energy source preference: liver

Answer 123

fatty acids

Question 124

Energy source preference: Heart

Answer 124

fatty acids

Question 125

Insulin facilitates this

Answer 125

uptake of glucose into cells from the blood

Question 126

Insulin increase does this

Answer 126

reduces blood sugar levels

increases uptake of glucose into cells

Question 127

Two types of cells in the pancreatic islets

Answer 127

alpha cells

beta cells

Question 128

Beta cells produce this

Answer 128

insulin

Question 129

alpha cells produce this

Answer 129

glucagon

Question 130

Insulin surge happens at this time

Answer 130

just after eating

Question 131

Starving in terms of physiology occurs at this time

Answer 131

approx 4 hours after eating

Question 132

Glucagon surge happens at this time

Answer 132

starvation

Question 133

When blood glucose levels go down this occurs

Answer 133

alpha cells secrete more glucagon (reduced insulin secretion)
reduces cellualar uptake of glucose
increases glycogenolysis and gluconeogenesis
blood glucose levels increase

Question 134

glycogenolysis

Answer 134

glycogen is broken down and glucose is released into the blood

Question 135

gluconeogenesis

Answer 135

conversion of non-carbohydrates into glucose

Question 136

Both insulin and glucagon have this effect on blood glucose

Answer 136

negative

Question 137

How is insulin secreted

Answer 137

Stimulus: increase in blood glucose
GLUT2 receptor (on beta cell) allows glucose into the cell
Leads to insulin being released into the blood

Question 138

You are considered diabetic if you have a blood glucose level above this about 2 hours after eating

Answer 138

200 mg/dl

Question 139

Review blood glucose/ plasma insulin slide from the podcast

Answer 139

…

Question 140

When plasma insulin levels do not increase after a meal the person is said to have this type of diabetes

Answer 140

Type 1

Question 141

Metabolism as he relates to glucose after absorption of a meal

Answer 141

Glucose (+)
Insulin (+), glucagon (-)
Insulin/glucagon ratio (+)
anabolic formation of glycogen, fat, and protein
Blood glucose, amino acids, fatty acids, and ketone bodies (-)

Question 142

Metabolism as it relates to glucose after fasting

Answer 142

glucose (-)
insulin (-) glucagon (+)
insulin/glucagon ratio (-)
catabolic hydrolysis of glycogen, fat, and protein + gluconeogenesis and ketogenesis
Blood glucose, amino acids
fatty acids, and ketone bodies (+)

Question 143

Type 1 diabetes is caused by the reduction of this, is this type of disease

Answer 143

beta cells

auto-immune

Question 144

type 1 diabetes: age of onset, development of symptoms, percent of diabetic population, development of ketoacidosis, associating with obesity, beta cells of islets, insulin secretion, autoantibodies to islet cells, associated with particular MHC antigens, treatment

Answer 144

under 20
rapid
about 10%
common
rare
destroyed
decreased
present
yes
insulin injections

Question 145

Type 2 diabetes: age of onset, development of symptoms, percent of diabetic population, development of ketoacidosis, associating with obesity, beta cells of islets, insulin secretion, autoantibodies to islet cells, associated with particular MHC antigens, treatment

Answer 145

over 40
slow
about 90%
rare
common
not destroyed
normal or increased
absent
unclear
diet and exerciser: oral stimulators of insulin sensitivity

Question 146

Review glucose and insulin graphs towards end of post cast

Answer 146

…

Question 147

the most severe type 2 diabetics may need this

Answer 147

insulin

Question 148

What do me measure to determine the resting metabolic rate of a human (indirect)

Answer 148

O2 consumption