MCP

Question 1

For a D sugar in the alpha conformer, the anomeric hydroxyl is (up/down)

Answer 1

down

Question 2

A linear polymer of glucose is called

Answer 2

amylose

Question 3

Amylose consists of ______ residues in a _____ linkages

Answer 3

glucose (polypeptide, multiple maltose)

α1,4

Question 4

Amylopectin consists of _____ residues in a _____ linkages and _____ branches

Answer 4

glucose
α1,4
α1,6

Question 5

Lactose consists of _____ residues in a _____ linkages

Answer 5

galactose and glucose

β1,4

Question 6

sucrose consists of _____ residues in a _____ linkages

Answer 6

glucose and fructose

α1,2

Question 7

Cleave internal glycosidic bonds

Answer 7

Endoglycosidase

Question 8

Cleave terminal glycosidic bonds

Answer 8

Exoglycosidase

Question 9

Cleave disaccharide bonds

Answer 9

Disacharidase

Question 10

Glucose disaccharide with α1,4 linkage

Answer 10

maltose

Question 11

Glucose disaccharide with α1,6 linkage

Answer 11

isomaltose

Question 12

Galactose-glucose disaccharide with β1,4 linkage

Answer 12

lactose

Question 13

Glucose-fructose disaccharide with α1,2 linkage

Answer 13

sucrose

Question 14

A deficiency in _____ leads to Beriberi

Answer 14

TPP aka Thiamine aka Vit B1

Question 15

TPP acts as a ________

Answer 15

Carbanion

Question 16

In which of the 4 steps of oxidation of pyruvate to Acetyl CoA is acetyl CoA made?

Answer 16

Step 3

Question 17

Dihydrolipoyl dehydrogenase reforms what prosthetic group?

Answer 17

Lipoamide

Question 18

What is the site of action of arsenic (arsenite) poisoning?

Answer 18

Dihydrolipoamide (affects regeneration of lipoamide- E3)

Question 19

Citrate synthetase works through what type of reaction?

Answer 19

Condensation and hydrolysis of the thioester

Acetyl CoA + OAA –> Citryl CoA –> Citrate + CoA

Question 20

Which hydrolysis step has a Gibbs free energy of -7.5 kcal/mol?

Answer 20

citrate synthetase

Question 21

Aconitase is involved in what type of reaction?

Answer 21

dehydration and hydration

Question 22

How many protons are pumped by complex I?

Answer 22

4H+

Question 23

How many protons are pumped by complex Q?

Answer 23

4H+

Question 24

How many protons are pumped by complex IV?

Answer 24

2H+

Question 25

How many protons can FMN carry?

Answer 25

2H+ (FMNH2)

Question 26

How many protons/electrons can ubiquinone carry?

Answer 26

2H+/2e-

Question 27

How many electrons can heme of cytochrome C carry?

Answer 27

1e-

Question 28

Describe the premise of Mitchell’s chemiosmotic theory

Answer 28

Electrochemical gradient is required for ATP synthesis

Question 29

e- carriers in the transport chain are arranged in (increasing/decreasing) affinity for e-

Answer 29

increasing

Question 30

What is the mobile carrier of H+/e- in the Q cycle across the bi-lipid membrane

Answer 30

Ubiquinone

Question 31

Who accepts electrons from the NADH dehydrogenase complex?

Answer 31

Ubiqinone

Question 32

The sites on F1 of ATP synthase are (cooperative/non-cooperative)

Answer 32

highly cooperative

Question 33

If ADP in the mitochondria becomes depleted, the electrochemical gradient (increases/decreases)

Answer 33

increases

Question 34

How can ADP modulate respiratory control?

Answer 34

decreasing ADP limits reagents and slows respiration

Question 35

How does ADP enter the mitochondria?

Answer 35

by an ATP translocase (an antiporter)

Question 36

how does Pi enter the mitochondria?

Answer 36

by an H+ translocase (a symporter)

Question 37

The steps of glycolysis (and the corresponding enzymes) that are rate limiting are __, __, and __

Answer 37

1. Hexokinase
2. Phosphofructokinase
3. Pyruvate kinase

Question 38

The enzyme PFK can be allosterically inhibited with high ____ OR ____ concentrations

Answer 38

[ATP] or

[F2,6BP]

Question 39

Low blood glucose causes (increased/decreased) F2,6BP which stimulates gluconeogenesis

Answer 39

decreased

Question 40

The bifunctional enzyme (BFE) with sites PFK-2 and FBPase-2 controls interconversion between ___ and ___

Answer 40

F6P and

F2,6BP

Question 41

High [F2,6BP] (increases/decrease) the rate of glycolysis

Answer 41

increases

Question 42

High [F2,6BP] (increases/decrease) the rate of gluconeogenesis

Answer 42

decreases

Question 43

Increased insulin causes a (increased/decreased) level in the gluconeogenic enzyme PEPCK

Answer 43

decrease

Question 44

In glycogen synthesis, excess G1P is converted to _____ before the branching enzyme adds it to a Glycogen chain

Answer 44

UDP-gluose

Question 45

Epinephrine acts on liver cells to increase cAMP and increase glycogen (degradation/synthesis)

Answer 45

degradation

Question 46

Increased [cAMP] and increased intracellular Ca2+ lead to increased glycogen (degradation/synthesis)

Answer 46

degredation

Question 47

Gucagon receptors can be found on (liver/muscle) cells

Answer 47

liver cells only

Question 48

Epinephrin at a muscle cell β receptor will increase (cAMP/Ca2+) leading to glycogen degredation

Answer 48

cAMP

Question 49

Insulin at a muscle cell (increases/decreases) glycogen synthesis

Answer 49

increases glucose uptake and glycogen synthesis

Question 50

In glycogen degradation, first the debranching enzyme takes apart glycogen, then a phopahte is added by _____ _____ to make G1P

Answer 50

glycogen phosphorylase

Question 51

When blood glucose is low, phosphorylase will be in the (phosphorylated/dephosphorylated) and will be in the active R confirmation

Answer 51

phosphorylated

Question 52

When blood glucose is high, phosphorylase will be in the (phosphorylated/dephosphorylated) and will be in the inactive T conformation

Answer 52

dephosphorylated

Question 53

NADH and Acetyl-CoA (activate/inactivate) the E1 of the pyruvate dehydrogenase complex

Answer 53

activate

Question 54

Pyruvate and ADP (activate/inactivate) the E1 of the pyruvate dehydrogenase complex

Answer 54

inactivate

Question 55

What is the structure of Palmitic acid?

Answer 55

C=16 D.B.=0

Question 56

What is the structure of Palmitoleic acid?

Answer 56

C=16 D.B.=1

Question 57

What is the structure of Stearic acid?

Answer 57

C=18 D.B.=0

Question 58

What is the structure of Oleic acid?

Answer 58

C=18 D.B.=1

Question 59

What is the structure of Linoleic acid?

Answer 59

C=18 D.B.=2

Question 60

What is the structure of Linolenic acid?

Answer 60

C=18 D.B.=3

Question 61

What is the structure of Arachidonic acid?

Answer 61

C=20 D.B.=4

Question 62

What is the structure of Myristic acid?

Answer 62

C=14 D.B.=0

Question 63

The Brain (can/cannot) use fatty acids as a fuel source.

Answer 63

cannot

Question 64

Most fatty acids are hydrolyzed by the enzyme _____ ____ in the duodenum

Answer 64

Pancreatic lipase

Question 65

The products of Pancreatic lipase are are two ______ and one _____

Answer 65

two non-esterified fatty acids (NEFAs)

One 2-Monoacyl glycerol (2-MAG)

Question 66

Bile salts do (digestion/absorption)

Answer 66

Both digestion and absorption

Question 67

Excessive fat in the stool is called ______

Answer 67

Steatorrhea

Question 68

Which requires pancreatic lipase? (LCFA/MCFA/SCFA)

Answer 68

LCFA

Question 69

Triglyceride formation is done by adding 2 LCFAs to 2-MAG by the enzyme _______

Answer 69

Acyltransferase

Question 70

The principle marker protein for nascent chylomicrons is _____

Answer 70

Apo-B48

Question 71

The major protein located int the liver that converts VLDL to LDL is ______

Answer 71

hepatic lipase

Question 72

What is the difference between VLDLs and Chylomicrons?

Answer 72

Chylomicrons: dietary fats, move from intestine to tissue
VLDL: endogenous fats transported from liver to tissue

Question 73

Insulin promotes (release/removal) of lipoprotein lipase from adipocytes and muscle

Answer 73

release (pull in fats)

Question 74

Chylomicrons go primarily to (Liver/muscle+heart/adipocytes)

Answer 74

Liver and adipocytes

Question 75

VLDL goes primarily to (Liver/muscle+heart/adipocytes)

Answer 75

muscle+heart and adipocytes

Question 76

A cofactor of pancreatic lipase that allows the lipase to anchor itself to the lipid-water interface is called _____

Answer 76

colipase

Question 77

Unloading of free fatty acids form VLDL is interrupted by a deficiency in the enzyme ______

Answer 77

Lipoprotein lipase

Question 78

The component of VLDL and chylomicrons that allows LPL recognition is ______

Answer 78

ApoCII

Question 79

Albumin carried bound (NEFAs/TGs)

Answer 79

NEFA (non-esterified fatty acids)

Question 80

Lipoproteins carry (NEFAs/TGs)

Answer 80

TGs

Question 81

Mixed micelles contain ____ and ____

Answer 81

bile salts and fatty acids (NEFAs and 2-MAG)

Question 82

The most abundant amino acids in serum are _____ and _____

Answer 82

Alanine and glutamine

Question 83

List the 10 essential Amino Acids

Answer 83

PVT TIM HaLL
Phenylalanine
Valine
Threonine
Tryptophan
Isoleucine
Methionine
Histadine
arginine
Lysine
Leucine

Question 84

Cystine becomes essential if _____ is low

Answer 84

Methionine

Question 85

Tyrosine becomes essential if _____ is low

Answer 85

phenylalanine

tyrosine is derived from phenylalanine

Question 86

Absorption of amino acids takes place in ______

Answer 86

the small intestine (throughout)

Question 87

A defect in transport of neutral and aromatic A.A.s that leads to pellegra symptoms is called _____ disease

Answer 87

Hartnup’s

Question 88

A defect in transport of Basic amino acids and cystine that can lead to UTI due to insoluble cystine crystals is called _______

Answer 88

Cystinuria

Question 89

The rate of muscle breakdown can be measured by urine ________ levels

Answer 89

3-methyl histadine

Question 90

The absence of lysine (an essential A.A.) that leads to an inability to synthesize proteins results in a syndrome called _______

Answer 90

kwashiorkor

Question 91

α-ketogluterate + NH4 ______ +NH4 Glutamine

Answer 91

Glutamate

Question 92

Pyridoxal phosphate (b6) is an essential co-factor for all ______ reactions

Answer 92

transamination

Question 93

Glutamate dehydrogenase is accelerated by ____ and ____ and inhibited by higher energy ____ and ____

Answer 93

ADP and GDP

ATP and GTP

Question 94

Enzymes
Arginine succinate synthase
Arginosuccinate lyase and 
Arginase
live in the (cytosol/mitochondria)

Answer 94

cytosol

Question 95

What enzyme does this?

α-ketogluterate + NH4+ + energy –> Glutamate

Answer 95

glutamate dehydrogenase located in mitochondria

Question 96

What enzyme does this?

Aspartate + α-ketogluterate Glutamate + Oxaloacetate

Answer 96

Aspartate transaminase (AST)

Question 97

What enzyme does this?

Alanine + α-ketogluterate pyruvate + glutamate

Answer 97

Alanine aminotransferase (ALT)

Question 98

What enzyme does this?

NH4+ + CO2 + 2ATP –> Carbamoyl phospate

Answer 98

Carbamoyl phospate synthase

Question 99

What enzyme does this?

Glutamine + H2O –> Glutamate + NH4+

Answer 99

Glutaminase

Question 100

What enzyme does this?

Glutamate + NH4+ –> Glutamine

Answer 100

Glutamate synthase

Question 101

Urea splits off Arginine in the (cytosol/mitochondria)

Answer 101

cytosol

Question 102

The urea cycle uses how many high energy phosphate bonds?

Answer 102

4

Question 103

Hartnup’s disease can cause the symptoms of a niacin deficiency called _____

Answer 103

Pellagra

Question 104

The most abundant Amino acids in cells are ______ and _____

Answer 104

glutamate and glutamine

Question 105

The transporter that moves sodium and glucose across the brush boarder is called _____

Answer 105

SLGT1

sodium linked glucose transporter

Question 106

With Glucose-Galactose Malabosorption, the defective gene is ______

Answer 106

SGLT 1

Question 107

With Glucose-Galactose Malabosorption, the only sugar that can be metabolized is ______

Answer 107

fructose

therfore a fructose only diet is required

Question 108

With a fatty meal, it is important to reduce total acid with ____ secretion and to slow digestion with ____ secretion

Answer 108

GIP (reduce gastric acid)

CCK (sow motility, stimulate pancreas and gallbladder)

Question 109

Amino acids whose carbon skeletons are degraded to pyruvate, α-ketoglutarate, succinyl-CoA, fumarate, or oxaloacetate are called ______

Answer 109

Glucogenic amino acids

Question 110

Amino acids whose carbon skeletons are broken down to acetyl-CoA or acetoacetate are called _____

Answer 110

Ketogenic

Question 111

Which amino acid can be formed from pyruvate by a transamination reaction?

Answer 111

alanine

Question 112

Which amino acid can be formed from OAA by a transamination reaction?

Answer 112

aspartate

Question 113

Which amino acid can be formed by amidation of aspartate?

Answer 113

asparagine

Question 114

Which amino acid can be formed by the reductive amination of an a-keto?

Answer 114

glutamate

Question 115

Which amino acid can be formed by amidation of glutamate?

Answer 115

glutamine

Question 116

Which amino acid is formed during the urea cycle?

Answer 116

arginine

Question 117

Which amino acid can be formed in two steps from glutamate?

Answer 117

proline

Question 118

Which amino acid is formed in three steps from 3-phosphoglycerate, an intermediate in glycolysis?

Answer 118

serine

Question 119

Which amino acid can be formed from serine in a reversible reaction by serine hydroxymethyltransferase?

Answer 119

glycine

Question 120

Which amino acid can be formed from serine and methionine?

Answer 120

cysteine

Question 121

Which amino acid can be formed from phenylalanine?

Answer 121

tyrosine

Question 122

Three carbon amino acids are converted to what?

Answer 122

pyruvate

Question 123

Threonine and glycine are converted to what?

Answer 123

pyruvate

Question 124

Four-carbon amino acids are converted to what?

Answer 124

OAA

Question 125

Glutamine, histidine, arginine, and proline are converted to what?

Answer 125

glutamate, which is then converted to a-ketoglutarate

Question 126

A defect in branched-chain keto acid dehydrogenase causes what?

Answer 126

Maple syrup disease

Question 127

Valine, leucine, and isoleucine are all converted to what?

Answer 127

a-keto acid

Question 128

Which three amino acids are associated with Maple syrup disease?

Answer 128

valine, leucine, and isoleucine

Question 129

Phenylalanine and tyrosine are converted to what?

Answer 129

acetoacetyl CoA

Question 130

Tryptophan is associated with which neurotransmitter?

Answer 130

serotonin

Question 131

Is lysine ketogenic or glucogenic?

Answer 131

Ketogenic

Question 132

Histidine is converted to histamine by the enzyme ______

Answer 132

Histidine decarboxylase

Question 133

The only true ketogenic amino acids, the only on that can ONLY be ketogenic is _____

Answer 133

lysine

Question 134

“Three Carbon” amino acids are converted to _____

Answer 134

pyruvate

Question 135

“Four Carbon” amino acids are converted to ______

Answer 135

oxaloacetate

Question 136

“Five Carbon” amino acids are converted to glutamate, which is then converted to ______

Answer 136

α-ketogluterate

alpha-

Question 137

Maple syrup urine disease is caused by a defect in the enzyme _____

Answer 137

branched-chain keto acid dehydrogenase

buildup of keto acids

Question 138

What three amino acids build up in thier keto form in maple syrup urine disease?

Answer 138

1. Valine
2. Isoleucine
3. Leucine

Question 139

PKU, phenylketonuria is a genetic disorder with the inability to hydroxylize _______ to _____

Answer 139

phenylalanine

tyrosine

Question 140

Atypical PKU with can develop with a defect in the enzyme _______ _______

Answer 140

dihydrobiopterin reductase

Question 141

The defective enzyme in alkaptonuria is ______

Answer 141

Homogentisic Acid 1,2-deoxygenase

Question 142

What disorder leads to a deposit of black color in the bones and cartilage?

Answer 142

Alkaptonuria

Question 143

Tryptophan is the precursor of the neurotransmitter _______

Answer 143

Serotonin

Question 144

The three common ways for adding an NH3 is by:

Answer 144

1) transamination
2) Aspartate –> fumarate
3) Glutamine –> glutamate

Question 145

Using ornithine transaminase and others, arginine can be converted to ________

Answer 145

glutamic acid (glutamate)

Question 146

Catabolic enzymes are (active/inactive) when phosphorylated

Answer 146

active

Question 147

Anabolic enzymes are (active/inactive) when phosphorylated

Answer 147

inactive

Question 148

Epinephrine is (catabolic/anabolic)

Answer 148

catabolic

Question 149

When blood sugar is high and insulin is released, Pyruvate dehydrogenase (E1) is (active/inactive)

Answer 149

active

Question 150

Ketone body formation occurs in which organ?

Answer 150

the liver

Question 151

Insulin release (promotes/inhibits) LPL release

Answer 151

promotes

Question 152

Ketone bodies (can/cannot) be used by the brain

Answer 152

can (in the starved state)

Question 153

Over the course of days of fasting, total urinary nitrogen (increases/decreases)

Answer 153

decreases

Question 154

Conversion of NEFA to fatty acyl-CoA is done by the enzyme ______

Answer 154

thiokinase (aka acyl-CoA synthetase)

Question 155

Transfer of a fatty acyl-CoA to glycerol-3-phosphate (G3P) is catalyzed by the enzyme ______

Answer 155

acyl transferase

Question 156

Fatty acids are released form TGs by cleavage of ester bonds by enzymes called ______

Answer 156

esterases

Question 157

In fat mobilization, The first step of converting TGs to FAs is done by the enzyme ____

Answer 157

adipose triglyceride lipase

Question 158

Hormone sensitive lipase is phosphorylated to the more active form by ______ in response to _____

Answer 158

cAMP-dependent protein kinase

catecholamines

Question 159

During fat metabolism, free FAs are generated and conjugated with ______ to be released into serum

Answer 159

albumin

Question 160

Phosphorylation of _____ allows access to TGs in a lipid droplet

Answer 160

perilipins

Question 161

Essential fatty acids have double bonds at positions ω __ and ω___

Answer 161

ω3 and ω6

Question 162

Which fatty acids are essential:
Palmitoleic
Oleic
Linoleic
Linolenic

Answer 162

Linoleic ω6

Linolenic ω3

Question 163

Thiokinase activates a fatty acid to fatty acyl CoA in the (mitochondria/cytoplasm)

Answer 163

cytoplasm

Question 164

Fatty acids are moved into the mitochondria by the shuttling molecule ______

Answer 164

carnitine

Question 165

Entry of LCFAs into the mitochondria is a control point in metabolism regulated by the molecule _______, this first product of FA biosynthesis

Answer 165

malonyl-CoA

Question 166

In beta oxidation, if you encounter a β,γ double bond it will cost you _____ in energy

Answer 166

1 FADH2 = 2 ATP

Question 167

In beta oxidation, if you encounter a β,γ double bond with a Δ4 double bond it will cost you _____ in energy

Answer 167

1 FADH2 = 2 ATP for the β,γ
and 1 NADPH = 3 ATP
Total of 5 ATP

Question 168

What is the purpose of ketone body metabolism?

Answer 168

During starvation, when glucose supplies dwindle, the liver can make ketone bodies that are usable by the brain. Consider them water soluble FAs

Question 169

What is the primary fuel product of ketone body metabolism that the brain can use?

Answer 169

β-hydroxybutyrate

Question 170

Can the liver use ketone bodies for fuel?

Answer 170

No! it just produces them.

Lacks 3-ketoacyl-CoA transferase

Question 171

To make ketone bodies, the liver uses the enzyme _____

Answer 171

HMG Co-synthase and HMG Co-lyase

Question 172

Runaway lipolysis can lead to ketone body overproduction leading to ______ and possibly death

Answer 172

ketoacidosis

Question 173

Which enzyme converts diacylglycerol (DAG) to glycerol-3 phosphate (G3P), which is the backbone of TGs

Answer 173

glycerol kinase

Question 174

Using the Cori cycle, lactate in the liver can be converted back to ______

Answer 174

glucose

Question 175

Parkinson’s patients have a death of dopamine producing cells and can be given _____, which is soluble across the BBB

Answer 175

DOPA

Question 176

From what amino acid are the following derived? 
dopamine
--->norepinephrine
--->epinephrine
melanin and 
thyroxine

Answer 176

Tyrosine

Question 177

What important biological compounds are derived from Tyrosine?

Answer 177

dopamine
--->norepinephrine
--->epinephrine
melanin and 
thyroxine

Question 178

Monoamine oxidase inhibitors (MOA) are drugs used to treat depression because they prevent the degradation of _______

Answer 178

Catechols such as dopamine

derived from tyrosine

Question 179

A lack of tryptophan can lead to a ______ deficiency, which will manifest as pellagra

Answer 179

niacin

Question 180

Dermatitis, Dementia, Diarrhea, and Death are all symptoms of _______

Answer 180

Pellegra

Question 181

Glutamate –> GABA and
Histadine –> Histamine
DOPA –> Dopamine
are both decarboxylations next to an amine group and both enzymes require ______

Answer 181

pyridoxal phosphate

Question 182

To convert folic acid to the more useful tetrahydrofolic acid, the enzyme _____ is used

Answer 182

dihydrofolic acid reductase

Question 183

Serine + THF _______

Answer 183

glycine

Question 184

A folate deficiency during pregnancy can lead to the congenital malformation or _______

Answer 184

spina bifida

Question 185

Two anti-cancer drugs that inhibit dihydrofolate reductase are _____ and _____

Answer 185

Aminopterin and Methotrexate

Question 186

Deficiencies in THF and B12 (cobalamine) can lead to ______ anemia

Answer 186

pernicious (a type of megablastic)

Question 187

Converting phenylalanine –> tyrosine and then tyrosine –> DOPA and OH group is added each time. What enzyme is used?

Answer 187

Tetrahydrobiopterin

Question 188

In order to make epinephrine from norepinephrine, a methyl groups is donated from _______

Answer 188

SAM (S-adenosylmethionine)

Question 189

Methylmalonyl CoA, along with B12 are the precursors for _______

Answer 189

succinyl CoA

Question 190

Name the important compounds that get you form phenylalanine to Epinephrine

Answer 190

Phenylalanine –> Tyrosine –> DOPA –> Dopamine –> Norepinephrine –> Epinephrine

Question 191

Acetyl CoA is converted to Malonyl CoA by Acetyl CoA synthase and the cofactor _______

Answer 191

Biotin

Question 192

The rate limiting step for Fatty acid synthesis is the enzyme _______

Answer 192

Acetyl CoA Carboxylase

Question 193

What agent reduces the double bonds during fatty acid synthesis?

Answer 193

NADPH (this is what makes FA synthesis costly and the pentose phosphate shunt important)

Question 194

Desaturation of synthesized fatty acids is done by desaturase in the ______

Answer 194

ER

Question 195

Humans have three distinct desaturases, delta ___, ___ and ___

Answer 195

Δ5
Δ6
Δ9

Question 196

Name three eicosanoids derived from arachidonic acid:

Answer 196

1. Prostaglandins
2. Thromboxanes
3. Leukotriens

Question 197

What intermediate links the citric acid cycle and the urea cycle?

Answer 197

fumarate

Question 198

Insulin is (catabolic/anabolic)

Answer 198

anabolic

Question 199

Glucagon is (catabolic/anabolic)

Answer 199

catabolic

Question 200

Epinephrin is (catabolic/anabolic)

Answer 200

catabolic

Question 201

Type 1 diabetes can lead to excess ketone bodies known as _____

Answer 201

Ketonuria

Question 202

Cortisol and epinephrin have similar metabolic effects, but cortisol increases and epinephrine decreases ________

Answer 202

glycogen synthesis

Question 203

What two drugs can inhibit IMP synthesis?

Answer 203

Azaserine

Sulfonamides

Question 204

In the formation of (purines/pyrimidines) the first step is formation of carbamoyl phosphate

Answer 204

Pyrimidines

Question 205

Enzymes that use glutamine as an NH3 donor can be inhibited by ______

Answer 205

Azaserine

Question 206

Ribonucleotide reductase is inhibited by the chemotherapeutic agent ______

Answer 206

Hydroxyurea

Question 207

The predominant lipids in cell membranes are ______

Answer 207

Glycerophospholipids

Question 208

How do you calculate REE?

Answer 208

male: 900 + 10w
female: 700 + 7w

Question 209

How do you calculate BMI?

Answer 209

BMI = (weight in kg) / (height in meters)^2

Question 210

1 kg of adipose tissue is how much fat? how much water?

Answer 210

850 g fat

150 g water

Question 211

List “the big 8” fatty acids

Answer 211

MPPSOLLA
Myristic
Palmitic
Palmitoleic
Stearic
Oleic
Linoleic
Linolenic
Arachidonic