Week 11- Unit 3

Question 1

The emulsified micelles containing, bile acids, monoglycerols, free fatty acids and cholesterol interact with the intestinal wall and are trasported in the blood in _______.

Answer 1

Cholymicrons

Question 2

Cholymicrons function to transports DIETARY ______ and ____ to the peripheral tissues.

Answer 2

lipids

cholesterol

Question 3

_____ and ______ are associated with cholymicrons and are integral for the functionality of these lipoproteins.

Answer 3

ApoB48

ApoCII

Question 4

After the lingual and gastric lipases digest the dietary triacylglycerols, _______ will emulsify the triglycerols, then ____ and ____ will break down the Triglycerols in the small intestine.

Answer 4

Bile salts

Pancreatic lipase

Colipase

Question 5

What does the action of pancreatic lipase and colipase do to the TG?

Answer 5

Breaks the TG into Free fatty acids and Monoacylglycerols (2-MG) in the small intestine

Question 6

What does the Micelle form do ?

Answer 6

facilitate the movement of FA and Monoacyglycerols into the intestinal epithelium

Question 7

What composes a Triglyceride?

Answer 7

Glycerol unit (3-C chain with hydrogens)
3 Fatty Acid Chains (Hydrocarbon chain)

Question 8

Bile salts are _______ compounds synthesized in the liver from _______. They act as detergents and bind to the fat.

Answer 8

Amphipathic (both hydrophilic and phobic properties)

Cholesterol

Question 9

Bile salts act as detergents that increase the _____ _____ of the Fats so that they are broken down easier during peristalsis action.

Answer 9

surface area

Question 10

Where is Pancreatic lipase and Colipase made?

Answer 10

Secreted from pancreas

Question 11

Pancreatic lipase and Colipase is secreted from the pancrease in response to the hormone _______.

Answer 11

Cholecystokinin

Question 12

At the same time Cholecystokinin is signaling to the pancreas , ______ (hormone) signals the release of ________.

Answer 12

Secretin

Bicarbonate

Question 13

What does the release of Bicarbonate into the intestine by Secretin do ?

Answer 13

increases intestinal pH to about 6 - more amenable to enzyme activity

Question 14

Initially , coating of bile salts ______ pancreatic lipase.

Answer 14

inhibits

Question 15

Colipase will bind to dietary fats and ______ the inhibition that the coating of bile salts causes on the action of pancreatic lipase.

Answer 15

relieve

Question 16

Once Colipase binds to dietary fats and the inhibition on pancreatic lipase is relieved, the Pancreatic lipase will digest dietary fats through _______.

Answer 16

Hydrolysis (into FA+Monoglycerol)

Question 17

What is the product of digestion of a trigyceride by Pancreatic lipase and Colipase?

Answer 17

2 Free Fatty Acids

2-Monoacyglycerol

Question 18

Micelles are packages that will contain what 4 things?

Answer 18

Cholesterol
Phospholipids
FFA
Monoacylglycerides

Question 19

Micelles are again emulsified by ______ _____.

Answer 19

Bile salts

Question 20

More than ___ of Bile salts are reabsorbed. They travel through the ______ circulation and return to the liver and redeposited in the gall bladder.

Answer 20

95%

Enterohepatic

Question 21

The micelle will interact with the ___ ____ villae. They can then diffuse into the intracellular space of the intestinal epithelial cells.

Answer 21

Brush Border

Question 22

After diffusion of lipid molecules enter the intestinal epithelial cells, where do they go first and what happens?

Answer 22

Smoooth ER

-FFA are repackaged into Triglycerides for transport in Cholymicrons

Question 23

In the Smooth ER of the intestinal cell, the FFA is combined with ATP to make FA-AMP and then interacts with what to make what product?

Answer 23

interacts with CoAsh

Product is FA-CoA

and AMP is release in creation of product

Question 24

What is the purpose of the FA-CoA?

Answer 24

It will create a condensation reaction acting on the 2-Monoacylglycerol (releasing CoAsh used as energy) to make:
Diacylglycerol

Question 25

What happens after Diacyglycerol is made in Smooth ER?

Answer 25

FA-CoA acts again on it and creates the :

Triacylglycerol molecule

Question 26

Chylomicron are composed of ?

Answer 26

Cholesterol in monolayer/cholesterol ester
Peripheral apoprotein
Apoprotein B48
Core of mainly non-polar lipids
Triacylgylerols
Monolayer of mainly amphipathic lipids (NOT Phospholipid BILAYER)

Question 27

Cholesterol Ester is a molecule that has been esterified by a ______ _____ chain.

Answer 27

Fatty acid chain

-keeps cholesterol in the hydrophobic core instead of the membrane of Cholymicron

Question 28

What is the largest component of a Chylomicron?

Answer 28

Triglycerides

Chylomicrons are largest of lipoprotein molecules

Question 29

What is the smallest component of a Chylomicron?

Answer 29

Cholesterol

Question 30

Where does ApoB-48 come from ?

Answer 30

Rough ER

Question 31

Where does the ApoB-48 and synthesized Trigycerides interact to create the Nascent Chylomicron?

Answer 31

Golgi Complex

Question 32

What enzyme is acting with ApoB-48 and Lipids and Triglycerides to form a larger and larger ApoB particle that goes to the Golgi for maturation and secretion as nascent chylomicron?

Answer 32

MTP or MTTP
-Microsomal Trigyceride Transfer Protein
(in the RER)- forming the phospholipid membrane too

Question 33

What is the Nascent Chylomicron secreted into?

Answer 33

Chyme then carried Lymph and then enter blood through thoracic duct

Question 34

In the maturation of the nascent Chylomicron to a mature chylomicron , where does it occur? what does it interact with that will drop off the 2 Apo proteins it needs?

Answer 34

In the blood

Interacts with HDL which is smaller and transfers its ApoCII and ApoE onto Chylomicron (essential for its function)

Question 35

In B-Apoprotein genes , they are translated into different proteins using what process?

Answer 35

mRNA editing (single nucleotide is changed)
-where a stop codon is introduced in a certain area to make different proteins (length of AA chain determines protein type ApoB-100 vs ApoB-48 for example)

Question 36

In the liver the B-Apoprotein gene is transcribed then translated fully to create the ApoB 100 protein for use, true or false?

Answer 36

True

Question 37

Where is the B-Apoprotein gene a subject of mRNA editing to make ApoB-48 that is needed for digestion?

Answer 37

the intestine (shorter protein than the one created in liver) - truncated protein

Question 38

What are the two Apo proteins that are required by Nascent chylomicron for maturation that are trasferred by HDL?

Answer 38

ApoCII
ApoE
(both donated by HDL in the Blood)

Question 39

ApoCII is required on the Chylomicron for interaction with what protein?

Answer 39

Lipoprotein Lipase

Question 40

what does Lipoprotein lipase do in the blood?

Answer 40

hydrolyses the Triglycerides in the blood into FA +Glycerol

Question 41

What is the purpose of the lipoprotein lipase hydrolyzing the Trigycerides in the mature Chylomicron in the blood?

Answer 41

FFA become available in the blood for uptake by either the Muscles or Adipose tissue

Question 42

What will the muscle use FFA for ?

Answer 42

Beta oxidation - generate energy

Question 43

What will the adipose do with FFA?

Answer 43

repackage them as Triglycerides as fuel storage

Question 44

What is Chylomicron called once it has delivered its Triglycerides in the blood to the lipoprotein lipase for breakdown?

Answer 44

Chylomicron remnant-

Question 45

What is chylomicron remnant taken up by (present in blood) ?
what receptor on liver interacts to uptake it?

Answer 45

liver

ApoE receptors

Question 46

Once the Chylomicron remnant is taken up in liver, what happens to it?

Answer 46

in liver as endocytic vesicle that is digested by Lysosomes

-then any extra FA, Cholesterol, AA or Glycerol is metabolized by liver

Question 47

In Chylomicron assembly which Aop Protein is transferred from HDL?

a. ApoB100
b. ApoB48
c. ApoCII
d. Apo A

Answer 47

ApoCII

Question 48

What is the significance of ApoB-48 ?

Answer 48

Designates something as a Chylomicron

-unique to chylomicrons

Question 49

How do insulin levels impact the transport of dietary TG?

Answer 49

• after meal Insulin is often elevated
• Insulin impacts process through Lipoprotein lipase activity by increasing its activity and increasing upatke of FFA in Adipose and Muscle

Question 50

Nascent chylomicrons interact with HDL particles and obtain what Apo Proteins?

Answer 50

ApoCII

ApoE

Question 51

Fatty acid synthesis takes place in the _______ in the _____ of cells.

Answer 51

Liver

Cytosol

Question 52

Fatty acid synthesis requires what two things?

Answer 52

AcetylCoA

NADPH

Question 53

Where does the NADPH come from that is required for Fatty acid synthesis?

Answer 53

PPP and Malate Dehydrogenase reaction

Question 54

AcetylCoA is generated in the mitochondria, it is then shuttled out as _____.

Answer 54

citrate- once in cytosol it is converted back to acetylCoA

Question 55

VLDL stands for ?

Answer 55

Very Low Density Lipoproteins

Question 56

How are fatty acids synthesized in the liver transported to the adipose for storage?

Answer 56

through action of VLDL particles - packaged and released from liver

Question 57

What do the VLDL that is released from liver contain for Apo protein?

Answer 57

ApoB100 and ApoCII

Question 58

What does VLDL interact with to hydrolyze the FA into stored TG?

Answer 58

LPL- Lipoprotein lipase on the capillaries (Chylomicrons interact with LPL too)

Question 59

Beta Oxidation of Fatty Acids takes place in ?

Answer 59

Mitochondria under low energy conditions

Question 60

The oxidation of Fatty acids in beta oxidation in the mitochondria will produce what that is accepted by the ETC?

Answer 60

AcetylCoA

NADH

Question 61

Under certain conditions, the acetylCoA snythesized from beta oxidation can be used to synthesize _____.

Answer 61

Ketones

Question 62

If blood glucose is high:
insulin is high
what is FA synthesis?
what is TG synthesis?
What is liver glycolysis?

Answer 62

FA synthesis is high

TG synthesis is high

Liver Glycolysis is high

Question 63

If blood glucose is low:
glucagon is high
What is Gluconeogenisis?
What is Lipolysis
What is liver glycolysis ?

Answer 63

Gluconeogenesis is high

Lipolysis is high

Liver Glycolysis is low

Question 64

In the liver:

after pyruvate is converted to AcetylCoA in the mitochondria it will interact with what to make what?

Answer 64

OAA to make Citrate

Question 65

After Citrate is synthesized in the mitochondria, it can be transported out in to the cytosol of liver cell and then what happens?

Answer 65

OAA is removed from Citrate and it is converted back into AcetylCoA

Question 66

What happens when you get AcetylCoA back in the liver cytosol during FA synthesis?

Answer 66

It interacts with Acetyl CoA carboxylase to make:

Malonyl CoA

Question 67

What does the Malonyl CoA do in Fatty acid synthesis?

Answer 67

it interacts with the Fatty acid synthase which will combine with NADPH (releasing NADP+) to create Palmitate

Question 68

What is the product of the Fatty acid synthase in the liver ?

Answer 68

Palmitate (C-16 Fatty acid)

Question 69

What is the GLUT transporter in liver cells that uptakes Glucose at the beginning of FA synthesis?

Answer 69

GLUT 2

Question 70

What happens to the Palmitate after made?

Answer 70

Activated to a Fatty AcylCoA

Question 71

What is the next step after the creation of Fatty AcylCoAs from Palmitate?

Answer 71

3 Fatty AcylCoA will interact with 1 Glycerol 3-Phosphate

-Creates Triacylglycerol

Question 72

What happens to the Triacylglycerol once created in liver cells during FA synthesis?

Answer 72

packaged with Apo-proteins, other lipids (phospholipids, cholesterol)
-creates a VLDL to be secreted into the blood

Question 73

Where does the AcetylCoA for FA synthesis in liver come from ?

Answer 73

Oxidation of Glucose

Question 74

Where does the NADPH come from that is used in FA synthesis in the liver?

Answer 74

PPP

Malate Dehydrogenase

Question 75

Elevated AcetylCoA will inhibit _____ and stimulate ______. Reciprocal regulation that facilitates citrate shuttling into the cytosol.

Answer 75

Pyruvate Dehydrogenase (makes AcetylCoA)

Pyruvate Carboxylase (makes OAA)

Question 76

What is the name of the enzyme that will cleave OAA from Citrate once it is in the cytosol to make AcetylCoA for FA synthesis in the liver?

Answer 76

Citrate Lyase

Question 77

What happens to the OAA after it is cleaved from Citrate in the liver cell cytosol?

Answer 77

It will interact with Cytosolic malate dehydrogenase enzyme and the energy from NADH (leaves as NAD+) to make Malate

Question 78

What happens after malate is made from the NADH+Cytosolic malate dehydrogenase acting on OAA?

Answer 78

The Malic Enzyme will act on Malate in combination with NADP+

• CO2 and NADPH is release
• Pyruvate is created

Question 79

What does malate convert to ?

Answer 79

Pyruvate

-byproducts of NADPH and CO2 created as well

Question 80

Insulin stimulates what two enzymes that are used in the cleavage cycle of Citrate to AcetylCoA in the cytosol ?

Answer 80

1. Malic enzyme

2. Citrate Lyase

Question 81

In the conversion of AcetylCoA to Malonyl CoA is done by what enzyme?

Answer 81

Acetyl CoA carboxylase

Question 82

What does the enzyme Acetyl CoA carboxylase require for acting on Acetyl CoA to make Malonyl CoA

Answer 82

Biotin
CO2
ATP (energy used and leaves as ADP+Pi)

Question 83

What is rate limiting step of FA synthesis in the liver?

Answer 83

AcetylCoA carboxylase

highly regulated

Question 84

What 3 ways is Acetyl CoA carboxylase regulated ?

Answer 84

1. Phosphorylation
2. Allosteric modification
3. Repression or induction of synthesis

Question 85

Where is the Acetyl CoA first attached to the FA synthase ?

Answer 85

Sulfhydryl group

-Phosphopantetheinyl Sulfhydryl Group

Question 86

What is the second sulfhydryl group that the initial AcetylCoA is transferred to after it initial attaches to Phosphopantetheinyl Sulfhydryl Group ?

Answer 86

cysteinyl sulfhydryl group

Question 87

What are the two sulfhydryl groups on the FA synthase?

Answer 87

1. Phosphopantetheinyl Sulfhydryl Group

2. Cysteinyl sulfhydryl

Question 88

What is the purpose of transferring the Acetyl CoA group to the Cysteinyl Sulfhydryl Group?

Answer 88

Frees up the Phosphopantetheinyl sulfhydryl group

Then Malonyl CoA can attach to it on the FA synthase

Question 89

What happens when both the Acetyl CoA and the Malonyl CoA groups are attached to the Sulfhydryl groups on the FA synthase ?

Answer 89

condensation reaction - allows for transfer of Acetyl CoA onto the Malonyl CoA group (starts elongation of FA chain)

Question 90

What happens after the Acetyl CoA and the Malonyl CoA are combined, what part of the Malonyl is released as what?

Answer 90

Carboxyl group (COO-) is released as CO2

Question 91

What is a keto group?

Answer 91

C=O

Question 92

What is an example of an alcohol group?

Answer 92

H-C-OH

Question 93

in the first NADPH requiring reaction in FA synthesis, what does the NADPH do ?

Answer 93

It will reduce the Keto group (C=) originally from the AcetylCoA to an Alcohol (HCOH)

Question 94

What happens after the first NADPH requiring reaction where the Keto group is reduced to an Alcohol ?

Answer 94

Dehydration reaction where the Alcohol (HCOH) next to the CH2 loses H2O to form double bond HC=CH

Question 95

What is the second NADPH requiring recaction and what does the NADPH do to the presently double bonded HC=CH ?

Answer 95

NADPH will reduce the double bond to form the elongated fatty acid chain (O=C-CH2-CH2-CH3)

Question 96

What happens to the elongated Fatty Acid chain after the second NADPH requiring reaction?

Answer 96

It can be transferred back to the Cysteinyl Sulfhydryl Group, then allowing new Acetyl CoA to join the free
Phosphopantetheinyl sulfhydryl group so process can repeat until Palmitate (C16) is created

Question 97

Where is Palmitate elongated or saturated ?

Answer 97

ER

Question 98

In Desaturation of Palmitate (C16), what are the 4 things that are required?

Answer 98

Oxygen
NADH
Cytochrome b5
Cytochrome reductase (FADH2)

Question 99

During desaturation of plamitate, the ______ will reduce Cytochrome b reductase (carrying _____).

Answer 99

NADH

FAD+

Question 100

The Cytochrome b reductase (FADH2) in the desatruation of Palmitate will reduce what?

Answer 100

Cytochrome b5 (Fe2+)

Question 101

What happens in desaturation of palmitate after the Cytochrome b 5 is reduced?

Answer 101

Interaction with Fatty Acyl CoA desaturase

• O2 and 2H+ are added in the mix
• 2H2O is released

Question 102

What is the enzyme that will release the 2H2O and create monosaturated fatty acyl CoA?

Answer 102

Fatty Acyl CoA desaturase

Question 103

What is the difference between the Saturated Fatty Acyl CoA and the Monosaturated Fatty Acyl CoA ?

Answer 103

Saturated has single bonds between Carbons

Monosaturated has one double bond between Carbons

Question 104

When can Palmitate be elongated?

Answer 104

After activation to palmitoyl CoA

Question 105

What is required for elongation of Palmitate (C16)?

Answer 105

Malonyl CoA and NADPH

Question 106

In elongation of Palmitate, the major reaction is the production of _________ (C18)

Answer 106

Stearyl-CoA (similar to fatty acid synthesis)

Question 107

In desaturation what is being oxidized ?

Answer 107

NADH

Saturated Fatty Acyl CoA

Question 108

The process of elongation or desaturation can take place with synthesized FA and _____ FA.

Answer 108

Dietary

Question 109

What is the example of a dietary FA that elongation and saturation can take place upon (essential FA)?

Answer 109

Linoleoyl CoA (polysaturated and called Omega 6)

Question 110

What will Linoleoyl CoA (Linoleic Acid-Omega 6) be converted to through elongation and desaturation?
What is that FA used for ?

Answer 110

Arachidonoyl CoA

used in prostaglandin synthesis

Question 111

What is the substance that is added during the process of FA elongation?

Answer 111

Malonyl CoA (ex: Linoleic Acid elongation)

Question 112

What are the general inputs and outputs during desaturation?

Answer 112

Input:
02+NADH+H

Output:
2H2O +NAD
(FA is oxidized)

Question 113

PPP and the conversion of Malate to Pyruvate will create?

Answer 113

NADPH

Question 114

What is the primary regulatory enzyme for FA synthesis in cytosol?

Answer 114

Acetyl CoA carboxylase

Question 115

How is Acetyl CoA regulated?

Answer 115

Through Phosphorlyation and dephosphorylation

Question 116

What is an activator of Acetyl CoA carboxylase?

Answer 116

Citrate

Question 117

What is an inhibitor of Acetyl CoA carboxylase ?

Answer 117

Palmitoyl CoA

Question 118

What happens when insulin levels are high to the Acetyl CoA Carboxylase?

Answer 118

High insulin levels will activate Phosphatase

-this will remove any phosphate from Acetyl CoA and activate it

Question 119

What enzyme will inactivate the Acetyl-CoA carboxylase?

Answer 119

AMP-activated protein kinase

-takes P from ATP to add to Acetyl CoA to inactivate it

Question 120

When will Acetyl-CoA carboxylase be inactivated?

Answer 120

when AMP is high (low energy levels)

-more beta oxidation needs to occur in mitochondria

Question 121

During FA synthesis, what product will play a role in inhibiting beta oxidation while FA synthesis is occuring?

Answer 121

Malonyl CoA

Question 122

When FA synthase is active, Malonyl CoA in cytosol will inhibit ________.

Answer 122

Carnitine Palmitoyltransferase I

Question 123

What is the purpose of inhibiting Carnitine Palmitoyltranferase I that is in the membrane of the mitochondria?

Answer 123

Prevents Beta Oxidation from occuring at the same time as FA synthesis

Question 124

Regulation of Acetyl CoA carboxylase takes place on several levels. When glucose is low, it will be ________ and ______.

Answer 124

phosphorylated

inactive

Question 125

What enzyme does the adipose tissue lack the the liver has that effects how you can get Glycerol-3 Phosphate ?

Answer 125

Liver has Glycerol Kinase

Adipose does not

Question 126

In the liver tissue, Glycerol kinase is important for creating Glycerol 3-P from.________ of _______.

Answer 126

Phosphorylation of Glycerol (only in liver)

Question 127

In the adipose, what is the only way to make Glycerol 3-P?

Answer 127

Through glycolysis

Question 128

Once the Glycerol 3-P is present , it reacts with ______ to form ________.

Answer 128

2 Fatty Acyl CoA’s

Phosphatidic Acid

Question 129

What happens to the phosphatidic acid in the FA synthesis pathway?

Answer 129

It is dephosphorylated to create Diacylglycerol

Question 130

What happens to the Diacylglycerol in the FA synthesis pathway?

Answer 130

After the Phosphate was removed then Diacylglycerol has a spot free

• 1 Fatty Acyl CoA attaches
• Forms Triacylglycerol (final product to be stored or exported in VLDL)

Question 131

Synthesis of VLDL particles takes place in the ______ and starts in the rough ____.

Answer 131

Liver

ER

Question 132

the VLDL is packaged in the ______ with the TG particles.

Answer 132

Golgi

Question 133

VLDL have a total percent TG _____ ____ a Chylomicron.

Answer 133

less than

Question 134

Protein concentration and Cholesterol level is ______ in VLDL as compared to Chylomicrons.

Answer 134

elevated

Question 135

VLDL has a phospholipid _______ and are _____ than chylomicrons.

Answer 135

monolayer

smaller

Question 136

The VLDL particles in the blood interact with ______ via the Apo protein _______ to hydrolyse TG into FA+Glycerol.

Answer 136

LPL (lipoprotein lipase)

ApoCII

Question 137

The FA that are released in the blood after interaction of VLDL with LPL will do what in the muscle vs. adipose?

Answer 137

Muscle: Oxidized

Adipose: Recombined to form TG

Question 138

What happens to the Glycerol that is released in the hydrolyzation of VLDL particles with LPL interaction in the blood?

Answer 138

Glycerol will be transported back to the liver

Question 139

During the fed state, glucose uptake by the adipose will increase, which will then increase _____ ______ production that is necessary for the backbone of TG.

Answer 139

Glycerol 3-Phosphate

Question 140

Insulin stimulates the activation of ______ ________.

Answer 140

Lipoprotein Lipase

Question 141

Once the FA and Glycerol are removed from the VLDL, it becomes ?
and then matures to ?

Answer 141

Intermediate Density Lipoprotein (IDL)

Low Density Lipoprotein (LDL)

Question 142

LDL will retain what Apo Protein that is necessary for its function? (cholesterol synthesis)

Answer 142

ApoB100

Question 143

Adipose can function as a _____ organ that releases hormones that impacts how you utilize fuels.

Answer 143

endocrine

Question 144

Adipose cells involve what two main hormones?

Answer 144

Leptin

Adiponectin

Question 145

Leptin is released from the adipose tissue as _______ _____.

Answer 145

TG increases

Question 146

______ signals through Jak-STAT receptor in the hypothalamus.

Answer 146

Leptin

Question 147

What hormone signals the cessation of eating?

Answer 147

Leptin on the Hypothalamus

Question 148

What does Leptin insensitivity do ?

Answer 148

still released, but not recognized

• contributes to obesity
• cessation of eating not instigated

Question 149

Adiponectin release _______ as the adipocyte gets _____.

Answer 149

decreases

larger

Question 150

Adiponectin activates ______ in skeletal muscle and liver. This will do what?

Answer 150

AMP-Kinase

Increase fatty acid beta oxidation (the Acetyl-CoA carboxylase is phosphorylated and inhibited by AMP kinase)

Question 151

What does activation of AMP-kinase do ?

Answer 151

inhibits FA synthesis

activates Beta oxidation

Question 152

In the case of obese individuals , it _____ the release of Adiponectin. This leads to the decrease in _____ of Fatty acids.

Answer 152

decreases

Question 153

What happens if release of Adiponectin is decreased and less oxidation of FA occurs?

Answer 153

Contributes to elevated Free Fatty Acids in the blood of obese individuals

Question 154

When the liver converts excess glucose into fatty acids (insulin is high):
Cytosolic acetyl CoA is converted to palmitate and the OAA is converted to pyruvate. True or False?

Answer 154

True

Question 155

When the liver converts excess glucose into fatty acids (insulin is high):
VLDL particles are synthesized in the liver. True or False?

Answer 155

True - due to TG be synthesized in liver from the new FFA

Question 156

In high levels of glucose, (high insulin), acetyl CoA and OAA form citrate that leaves the mitochondria. True or False?

Answer 156

True

Question 157

Under high levels of insulin, pyruvate dehydrogenase is dephosphorylated (activated- makes acetyl coA)?

Answer 157

True

Question 158

_____ can be a primary carrier for Fatty Acids (C16 Palmitate) in the blood.

Answer 158

Albumin

Question 159

The FA in blood can diffuse into the cells across the plasma membrane. true or false?

Answer 159

true

Question 160

In step one of Beta Oxidation, what must happen to the Fatty Acid (C16) for the cell to utilize it?

Answer 160

must be converted to Fatty Acyl CoA

• ATP used to attach CoA
• occurs in cytosol

Question 161

Fatty Acyl CoA is in the cytosol and ready to be transported into the mitochondria for _____ _____.

Answer 161

Beta oxidation

Question 162

The transfer of Fatty Acyl CoA into the mitochondria requires what two transport proteins ?

Answer 162

Carnitine palmitoyltransferase I and II

Question 163

what do the transporters that get the Fatty Acyl CoA into the mitochondria require?
What reaction will occur?

Answer 163

Carnitine

• reaction where Carnitine is attached to the Fatty Acyl CoA as the CoA is released
• Forms Fatty Acyl Carnitine

Question 164

What happens after the Fatty Acyl Carnitine is created?

Answer 164

it enters the mitochondrial matrix and CoA is reattached as the Carnitine is realsed
-Forms Fatty AcylCoA again

Question 165

Beta Oxidation will act on what molecule?

Answer 165

Fatty Acyl CoA

4 step process that results in remnant of Acetyl CoA

Question 166

Beta Oxidation requires ______ and will happen under aerobic conditions.

Answer 166

oxygen

Question 167

The acetyl CoA created by Beta Oxidation can enter the ______ cycle or it can be used to synthesize ______.

Answer 167

TCA

Ketone bodies

Question 168

In the conversion of FA to FA-CoA, ATP will contribute a high energy _____ to first make an enzyme bound _______ that will free a _______.

Answer 168

AMP

Fatty Acyl-AMP

Pyrophosphate

Question 169

The Fatty Acyl-AMP will then use the energy from AMP release to add _____ and make _____.

Answer 169

CoA

Fatty Acyl-CoA

Question 170

What is the enzyme that facilitates the creation of FA to FA-AMP to FA-CoA?

Answer 170

Fatty Acyl CoA Synthetase (located in many tissues and subcellular locations)

Question 171

Aceylation of FA to FA-CoA is necessary for utilization for Beta oxidation or synthesis, true or false?

Answer 171

true

Question 172

To get Fatty Acyl-CoA accross the outer MT membrane, ________ will transport it into the intermembrane space.

Answer 172

Translocase

Question 173

Once the FA-CoA is in the intermmebrane (cytosolic space) of MT membranes, what will occur?

Answer 173

Carnitine Palmitoyltransferase I (CPT I) will act on it adding the Carnitine and releasing the CoA
-converted to Fatty Acylcarnitine

Question 174

What happens to the Fatty Acylcarnitine to get it accross the inner MT membrane?

Answer 174

Carnitine Acylcarnitine translocase will transport it across the inner MT membrane (also can transport the Carnitine back into the cytosolic space)

Question 175

Once the Fatty Acylcarnitine is in the Matrix of the MT, what happens?

Answer 175

Carnitine Palmitoyltransferase II (CPT II) will act on it to release the Carnitine and then re-add the CoA to make :
Fatty Acyl-CoA - used in beta oxidation

Question 176

The CPT I and II are only required for the transport of ____ ____ FA and not what?

Answer 176

long chain FA

not for short chain or medium chain FA that can move more freely across membrane

Question 177

In step one of Beta Oxidation, what enzyme will facilitate the transfer of 2H to the FAD to make FAD(2H)?

Answer 177

Acetyl CoA- dehydrogenase

Question 178

In step one of Beta oxidation, where does the two H come from that AcetylCoA - Dehydrogenase will take?

Answer 178

The Beta and Alpha Carbons on Fatty Acyl-CoA
(alpha-#1 C next to CoA)
(beta-#2 C next to CoA)

Question 179

What happens to the FA-CoA once Acetyl CoA dehydrogenase acts on it?

Answer 179

Double bond is formed (2H is removed) between alpha and beta Carbons

Question 180

In step two of beta oxidation, _____ is added across the double bond of alpha and beta carbons.

Answer 180

H2O

Question 181

What happens when H2O is added across the double bond during beta oxidation?

Answer 181

Beta carbon: Hydroxyl group added (OH)

Alpha carbon: Hydrogen added

Question 182

What is the enzyme that will add the H2O to the double bond of FA-CoA in beta oxidation?

Answer 182

Enoyl CoA Hydratase

Question 183

What happens after the beta carbon has a hydroxyl group added and the alpha carbon has a hydrogen added?

Answer 183

The OH on the beta Carbon is changed to a keto group (O=C) and electron from the beta carbon is transferred to NAD to make NADH

Question 184

What enzyme will create the keto group on the Beta Carbon and transfer the electrons to the NAD to make NADH?

Answer 184

Beta-Hydroxy acyl-CoA dehydrogenase

Question 185

What happens in the fourth step of beta oxidation after the NADH was created in the previous step?

Answer 185

The bond between the Beta and Alpha Carbons is cleaved with the addition of CoASH

Question 186

What is the enzyme that will cleave the beta and alpha carbons and add CoASH?

Answer 186

Beta-Keto thiolase

Question 187

What happens after CoASH is added and the B-Keto Acyl CoA is cleaved ?

Answer 187

creates Fatty Acyl CoA + Acetyl CoA

-FA-CoA is recycled back to top of cycle again until the entire chain is oxidized

Question 188

There are ____ different types of Acyl CoA Dehydrogenases that depend on the length of the FA chain.and oxidize

Answer 188

4

• short
• medium
• long
• very long

Question 189

In Omega Oxidation , FA can be oxidized at the _____ carbon of the chain. In the first step the Methyl group (CH3) is oxidized to a ______ group.

Answer 189

Omega

Alcohol (HO-CH2)

Question 190

The alcohol in omega oxidation is converted to a ________ acid by _______.

Answer 190

Carboxylic

Dehydrogenases (the hydrogen is removed from the alcohol)

Question 191

The Dicarboxylic acid in omega oxidation can undergo ______ to produce soluable acids that can be excreted in the urine. This is clinically relevant.

Answer 191

Beta Oxidation

Question 192

Why is the excretion of soluable acids after beta oxidation of the dicarboxylic acid on a Omega C or FA clinically relevant?

Answer 192

Presence of Dicarboxylic acids in urine can be suggestive of deficiencies in beta oxidation

Question 193

The process of Omega oxidation is not regulated by feedback inhibition. True or false?

Answer 193

True

Question 194

The Omega oxidation pathway is primarily ________, and is primary active to reduce the level of insoluable FA in the cell .

Answer 194

microsomal

Question 195

If FA Beta oxidation is not occuring , and FA levels in the cell are elevated, then ______ ______ would be increased and you would find ______ in the urine.

Answer 195

Omega oxidation

Dicarboxylic acids

Question 196

What is the mechanism to release the Triacylglycerols in the Adipose tissue into FA for export to liver and skeletal muscle for oxidation ?

Answer 196

1. Glucagon binds receptor, increases cAMP
2. Protein kinase A activated
3. the kinase will activate Protein sensitive Lipase

Question 197

The protein sensitive Lipase in the Adipose tissue is ______ when it is phosphorylated.

Answer 197

Active

Question 198

What will Lipase break TG into?

Answer 198

3 FA
1 Glycerol
all for export out of the adipose

Question 199

Beta oxidation is a _____ energy yielding process.

Answer 199

High

Question 200

What can inhibit Beta oxidation (energy level function)?

Answer 200

as energy increases in form of NADH and FAD(2H)

-these inhibit Beta oxidation

Question 201

What will inhibit beta oxidation process by inhibiting Fatty Acyl CoA transport into the mitochondria?
what transporter is inhibited?

Answer 201

Malonyl CoA ( from FA synthesis)

CPT 1

Question 202

AMP-Kinase (muscle, liver) will regulate using phosphorylation of ______ _______ to inhibit it from continuing the FA synthesis process.

Answer 202

Acetyl CoA Carboxylase

-the kinase is active under low energy levels , allows for beta oxidation

Question 203

True or False:
In the fed state, insulin inhibits the release of FFA from adipose tissue and therefore limits substrate for Beta-oxidation.

Answer 203

True

Question 204

True or False:
In the fed state, insulin will cause dephosphorylation and activation of acetyl CoA carboxylase that produces malonyl CoA, an inhibitor of CPT 1?

Answer 204

True

Question 205

True or False:

If the ATP/ADP ration is low, AMP dependent protein kinase will phosphorylate and inactivate acetyl CoA carboxylase

Answer 205

True

Question 206

True or False:
IN the fasting state, the low insulin to glucagon ratio will result in the decrease of Malonyl CoA and activation of CPT 1?

Answer 206

True

Question 207

True or False:

In the fasting state, lipolysis is inhibited by phosphorylation of hormone sensitive lipase

Answer 207

False

• Phosphorylation of the hormone sensitive lipase will ACTIVATE
• allows it to free FFA and glycerols from TG

Question 208

What two forms of Ketones can Acetyl CoA be used to generate? (starvation, pathalogical states)

Answer 208

Acetoacetate

Beta-Hydroxybutyrate

Question 209

What are the two main Ketone bodies that can circulate and be used as a fuel source?

Answer 209

Acetoacetate

Beta-Hydroxybutyrate

Question 210

Skeletal muscle can use the 2 Ketone body types in what way?

Answer 210

reconverting to Acetyl-CoA then using for energy

Question 211

When will the brain use ketone bodies for energy?

Answer 211

extreme starvation conditions

Question 212

In ketone produciton, when Acetyl CoA levels are especially high ____ will condense 2 molecules of Acetyl CoA to make ______.

Answer 212

thiolase (normally cleavage of FA-CoA chain)

Acetoacetyl CoA (unfavored and only happens if Acetyl CoA levels are very high to force the reaction)

Question 213

In ketone synthesis , Acetoacetyl CoA will react with _______ to form ______.

Answer 213

Acetyl CoA

3-Hydroxy-3Methyl glutaryl CoA (HMG CoA)

Question 214

What is the enzyme that facilitates the reaction of Acetoacetyl CoA with another acetyl coA to create 3-hydroxy-3methyl glutaryl CoA?
Where does the energy come from?

Answer 214

HMG CoA synthase

thioester bond from Acetyl CoA
-CoASH is released

Question 215

HMG CoA (intermediate in Ketone synthesis) is also used in what other synthesis process?

Answer 215

Cholesterol synthesis

Question 216

What is the next enzyme used after HMG CoA Synthase?

Answer 216

HMG CoA Lyase

Question 217

What does HMG CoA lyase do ?

Answer 217

Cleaves the HMG-CoA into:

Acetoacetate +Acetyl CoA(released)

Question 218

True or False:

Acetoacetate from ketone synthesis can not enter the blood directly?

Answer 218

False- it can enter the blood directly

Question 219

What are the two optional fates of Acetoacetate in ketone synthesis?

Answer 219

enter blood directly

converted to Beta-hydroxybutyrate

Question 220

The conversion of Acetoaceate to Beta-hydroxybutyrate is normally at _______.

Answer 220

equilibrium

Question 221

What drives the conversion of Acetoacetate to Beta-hydroxybutyrate conversion in the cell?

Answer 221

Ratio of NADH to NAD

-when NADH is high, it will make more Beta-Hydroxybutyrate , when low then direction will reverse

Question 222

Acetoacetate can spontaneously be _______ and releases ______ and ______. This is released in the lungs.

Answer 222

Decarboxylated

Acetone
CO2

Question 223

During an extended fast (starvation), the following would be expected true or false?
After about 1 day, blood glucose levels would remain constant at the low end of the normal range.

Answer 223

True- many mechanisms for maintaining blood glucose levels

Question 224

During an extended fast (starvation), the following would be expected true or false?
Ketone bodies would rise to high concentrations over the first 20 days.

Answer 224

True- would happen over the first few days

Question 225

During an extended fast (starvation), the following would be expected true or false?
Blood FA would rise during the first 3 days and very little after that time

Answer 225

True- Lipolysis and oxidation are regulated by energy-lipolysis will not exceed rates of oxidation

Question 226

During an extended fast (starvation), the following would be expected true or false?
The use of blood ketone bodies by the brain would spare the use of blood glucose.

Answer 226

True- brain can switch to ketone bodies instead of glucose to help maintain blood glucose levels

Question 227

During an extended fast (starvation), the following would be expected true or false?
The liver would begin to use ketones for energy after 24 hours

Answer 227

False- liver can not use ketones for energy because it lacks the enzymes for converting ketones back into Acetyl CoA
-liver will be using FA instead of Ketones

Question 228

After 10 days of fasting, which ketone will increase dramatically in the blood ?

Answer 228

Beta-hydroxybutyrate

Question 229

What 3 things will remain stable after 10 days of fasting?

Answer 229

Glucose

FFA
Acetoacetate (increases but stabalizes at same level of FFA after 10 days)

Question 230

What timeline in fasting will ketones start to be utilized by the brain for energy?

Answer 230

days 10 to 20

-Beta-hydroxybutyrate will increase dramatically in blood levels from 0 to 10 and then stabalize after day 20

Question 231

What is the regulatory enzyme for FA synthesis?

Answer 231

AcetylCoA carboxylase

Question 232

What Apoprotein characterizes VLDL particles?

Answer 232

ApoB 100

Question 233

The first step in FA synthesis is the formation of _______ from acetyl CoA and Carbon Dioxide

Answer 233

Malonyl CoA

Question 234

Biotin is a required coFactor for what two enzymes?

Answer 234

Pyruvate carboxylase

Acetyl CoA carboxylase