Introductory Concepts

Question 1

What is a distinguishing factor of Protein in Comparison to the other macronutrients?

Answer 1

Contains Nitrogen

Question 2

Protein is a major ______ and _______ component of all cells

Answer 2

functional and structural

Question 3

Protein in the human body is used for

Answer 3

1) All enzymes
2) Membrane components and carriers
3) Blood transport molecules
4) Intracellular matrices
5) Muscle, bone, skin, hair, fingernails
6) Keratin, collagen
7) Some hormones

Question 4

The largest energy store in the body is ________.

Answer 4

Fat

Question 5

The components of the body listed from highest to lowest is:

Answer 5

Body and Water Minerals –> Fat –> Protein –> Glycogen

Question 6

Does fat or protein provide more energy?

Answer 6

Fat

Question 7

What is the bioavailability in days of protein?

Answer 7

13 days

Question 8

Can you use up all of your protein stores?

Answer 8

No, you would die

Question 9

Humans eat protein, but need ________

Answer 9

amino acids

Question 10

How many amino acids are there?

Answer 10

hundreds

Question 11

α-amino acids except for proline (α-imino)

Answer 11

1) 20 with cognate tRNA

2) tRNA for selenocysteine

Question 12

What is post transcription?

Answer 12

Adding a hydroxy or methyl group after the AA becomes apart of the chain

Question 13

Most of our amino acids are what kind of amino acids?

Answer 13

α-AA

Question 14

Non-Protein α-AA’s (6)

Answer 14

Ornithine
Citruline
Homocysteine
Hydroxylysine
Hydroxyproline
3-methyl-histidine

Question 15

Not an α-AA

Answer 15

Taurine

beta-alanine

Question 16

Protein contains ______ % Nitrogen by weight

Answer 16

16%

Question 17

Weigh ratio of protein/nitrogen (p/n)

Answer 17

6.25

Question 18

100g protein = 16g nitrogen
100/16 = 6.25
So,

Nitrogen (g) x 6.25 = _________

Answer 18

Grams of Protein

Question 19

Amino acids are linked together via ______ to form _____

Answer 19

Peptide Bonds(linkages), Peptide Chains

Question 20

Protein Structure can be

Answer 20

Primary

Secondary

Question 21

A Secondary Protein Structure forms a ______ ______

Answer 21

double helix

Question 22

Why does a helical structure form?

Answer 22

The hydrogen bonds are not very strong, so it results in a winding structure

Question 23

The Amino end is also called the __ - _____ ____ and is on the ______ side

Answer 23

N-terminal end, left

H3N+

Question 24

The Carboxyl end is also called the __ - _____ ____ and is on the ______ side

Answer 24

C-terminal end, Right

COOH
C=0
=0-

Question 25

The total effect of AA’s is ______

Answer 25

neutral

Question 26

Peptide bonds form between….

Answer 26

Carboxyl group of one AA and the Amino group of another AA

Question 27

__ - Amino acids are of nutritional significance

Answer 27

L

Question 28

Indispensable (essential) AA’s

Answer 28

Need to attain from diet

Isoleucine (Ile)
Leucine (Leu)
Lysine (Lys)
Methionine (Met)
Phenylalanine (Phe)
Threonine (Thr)
Tryptophan (Trp)
Valine (Val)
Histidine*(His)

Question 29

Dispensable (non-essential)

Answer 29

Can be synthesized in the body

Alanine (Ala), 
Arginine (Arg), 
Aspartic acid (Asp) 
Asparagine (Asn)
Glutamic acid (Glu)
Glytamine (Gln)
Glycine (Gly) 
Proline (Pro)
Serine (Ser)

Question 30

Conditionally dispensable

Answer 30

Synthesis may be limited under special physiological conditions

Cysteine (Cys)
Tyrosine (Tyr)

Question 31

Hadaad Notes

Answer 31

Structural formulas of the 21 common α-amino acids.

The α-amino acids all have a carboxyl group, an amino group, and a differentiating functional group attached to the α-carbon.

The generic structure of amino acids is shown in the upper left corner with the differentiating functional group marked by R.

The functional group for each amino acid is shown below. Amino acids have been grouped by functional class.

Proline is actually an imino acid because of its cyclic structure involving its nitrogen (N).

Question 32

What is the structure of Amino Acids

Answer 32

1) α-amino group (NH2)
2) α-carboxyl (COOH)
3) Side Chain (R)

Question 33

Neutral (non-polar AA)

4

Answer 33

Glycine (Gly) (3 sections) - Alanine (Ala)

Serine (Ser) - Threonine (Thr): Both have an OH group, but Thr has an extra branch

Glycine is the simplest

Threonine = secondary alcohol because the main CHCH has two branches coming off of it

Question 34

Neutral non-polar Branched AA)

3

Answer 34

BCAA’s: serve as an energy source for muscle, all essential

Isoleucine (Ile): 5 carbon chain, not a “V” branch

Valine (Val): If turn your head on teh side it forms a “V” shape, but also has a NH2, 3 carbon chain

Leucine: Almost the same as Valine, but its downward branch has an NH3, 4 carbon chain

Question 35

Sulfer Amino Acids

2

Answer 35

Contain a Sulfer!

Cysteine (Cys): Conditional, “HS” on the amino end

Methionine (Met): Secondary thiol, S is sandwiched between CH3 and CH2CH2CH

Question 36

Aromatic Amino Acids (Phenols)

Answer 36

Contain a Benzene ring structure (C6H5OH) .The molecule consists of a phenyl group (−C6H5) bonded to a hydroxyl group (−OH)

Phenylalanine (Phe):

Tyrosine (Tyr): Same as Phe, but has a hydroxyl group

Question 37

Phe and Tyr have what kind of ring?

Answer 37

Phenol Ring

Question 38

Aromatic Amino Acids: Tryptophan (Trp)

Answer 38

Indole ring (double ring)

Question 39

Aromatic Amino Acids: Histidine (His)

Answer 39

• Imidazole ring
• One ring present with two double bonds

Formula (CH)2N(NH)CH

Question 40

What are all of the Aromatic AA’s?

4

Answer 40

Phe
Tyr
Trp
His

Question 41

Basic Amino Acids

2

Answer 41

When put in water they become more Basic

Lysine (Lys):

  - primary amine
  - straight chain with one NH2 downward branch

Arginine (Arg):
- Has a guanidino group
- H2N – C –NH
(downward form C is a = NH2+)

Question 42

Body Protein Reserves

Answer 42

Skeletal muscle:	43%
Skin:			15%
Blood:			15%
Viscera (liver, kidneys) organs:10%
Rest in brain, lung, heart, etc

Question 43

50 % of total protein in the body is in the following forms:

Answer 43

1) Collagen
2) Myosin and actin
3) Hemoglobin

Question 44

Collagen

Answer 44

Structure of connective tissue of skin & bone

Question 45

Myosin and Actin

Answer 45

Proteins in muscle

Question 46

Hemoglobin

Answer 46

Blood

Question 47

Acidic amino acids and their amides

Answer 47

• Glutamic acid (glutamate) is longer than Aspartic acid (aspartate)
• Glutamate –> Glutamine
• Aspartate –> Asparagine

This occurs when the acid form takes up an amino group

• Acidic amino acids have 2 carboxyl groups, one at each end

Question 48

What is protein turnover?

Answer 48

• Body proteins are constantly being synthesized and then degraded
• In healthy adults, the total amount of protein in the body remains constant
• The rate of protein synthesis sufficient to replace the protein that is degraded is protein turnover
• Plasma proteins and most intracellular proteins are rapidly degraded (1/2 life = hours to days). Extracellular structural proteins such as collagen are metabolically stable and have half-lives of years.

EXTRA:
Albumin, Transferrin have a short half life and are broken down faster
- Proteins in muscle may have a longer half life
- Protein turnover mostly happens in visceral
Turnover = about 250g per day

Question 49

Amino Acid Pool

Answer 49

1) The free amino acids distributed throughout the body
- Intracellular
- Extracellular: Blood, fluid between cell

2) The amino acid pool contains about 90 - 100 g of amino acids

Question 50

How much protein is digested and absorbed per day?

Answer 50

• Protein intake (dietary) = 90 g (70-100g)
• Secreted protein or endogenous (from body to gut) = 70 g (35-200g)
• Absorbed = 150 g
• Fecal loss = 10 g (6-12g)

Question 51

What two types of cells does the stomach contain?

Answer 51

Secrete Chief cells and Parietal (oxyntic) cells

Question 52

What do chief cells secrete in the stomach?

Answer 52

pepsinogen, which is an inactive form: zymogen

Question 53

What do parietal (oxyntic) cells secrete in the stomach?

Answer 53

HCl  (pH 2-3)
  - Denatures protein
    - Kills microorganisms
    - Activates pepsinogen --> pepsin (active form(
Intrinsic factor

Question 54

What percent of protein digestion occurs in the stomach

Answer 54

about 10-20%

• Results in oligopeptides, polypeptides and amino acids

Question 55

Most protein digestion results from the action of

Answer 55

pancreatic proteolytic enzymes

Hadaad Notes:
The proteolytic enzymes are all secreted in an inactive form, to prevent auto-digestion, and are activated in the lumen of the gut: by HCl in the case of stomach pepsinogen and by enteropeptidase and trypsin in the case of the pancreatic enzymes.

Question 56

What stimulates the pancreas to secrete its enzymes?

Answer 56

The intestinal endocrine cells secrete:

Cholecystokinin (CCK) and Secretin

     -CCK and secretin stimulate the pancreas to secrete -   
     the protein digesting enzymes. However, the   -   
     pancreatic enzymes are secreted as zymogens 
      (inactive forms) such as trypsinogen, 
      chmotrypsinogen, proelastase, procarboxypeptidase, 
      etc.

Question 57

How are the pancreatic enzymes activated?

Answer 57

CCK stimulates the mucosal epithelial cells to secrete enteropeptidase which which activates trypsinogen to trypsin. The other pancreatic enzymes are activated by trypsin

Question 58

Brush border enzymes (intestinal peptidases)

    The intestinal brush border has: \_\_\_\_\_, \_\_\_\_\_, \_\_\_\_

Answer 58

Dipeptidases
Tripeptidases, and
Aminopeptidases

Question 59

Brush border enzymes (intestinal peptidases)

    Absorption of peptides and whole proteins

Answer 59

Rare

Question 60

Brush border enzymes (intestinal peptidases)

 \_\_\_\_\_\_ peptides may be absorbed intact and hydrolyzed within intestinal cell

Answer 60

Small

Question 61

Action of Peptidases: Endopeptidases

Answer 61

Hydrolyze bond (cleave) in the middle of the chiain

Question 62

Action of Peptidases: Exopeptidases

Answer 62

Hydrolyze bond (cleave) at the terminal end of the chain, either at the Aminopeptidase end of the caboxypeptidase end

Question 63

Transport (absorption) of amino acids: Transport systems

What are amino acid transporters?

Answer 63

Membrane bound proteins that recognize different amino acids and move them into and out of cells

Question 64

Transport (absorption) of amino acids: Transport systems

The ______ _______ and ______ _______have common transport systems

Answer 64

Small intestine and Kidney Tubules

Question 65

What are the two types of Transport Systems?

Answer 65

1) Sodium independent

2) Sodium dependent
-Co-transport (secondary active transport) of amino acids
and peptides

Question 66

Hadaads Notes on: Transport and absorption of amino acids and peptides

1) How are amino acids mostly absorbed?
2) How are Di-peptides and tri-peptides transported?
3) How are some large peptides or protein can be carried across the cell

Answer 66

1) By sodium dependent co-transporters.
2) By a H+ ion dependent co-transporter

3) Transcytosis
- This is particularly true in babies and is a mechanism
whereby the immunoglobulins in mothers milk can be
transfered to the child.

Question 67

About how much protein is degraded (broken down) per day?

Answer 67

250-300g per day

The proteins that are broken down are typically the ones that are damaged or not needed anymore

Question 68

Why is protein degradation (breakdown) important?

Answer 68

1) Cell growth
2) Adaptation to different physiological conditions
3) Elimination of abnormal or damaged protein
4) Normal functioning of the immune system

Question 69

What are the two pathways of Protein degradation?

Answer 69

Lysosome and Ubiquitin-proteasome pathways

Question 70

Lysosome pathways

1) Energy ________
2) Contains acidic ______
3) Breaks down ______

Answer 70

1) indepedent
2) enzymes
3) proteins

Lysosomes have digestive enzymes in them which take damaged/bad proteins and digests them. AA’s are produces and goes to cytoplasm of cell

Question 71

Where does protein degradation happen?

Answer 71

Inside the cell (intracellular)

Question 72

UBP Pathways

1) Energy ________
2) Notes

Answer 72

1) dependent
2) Damaged or unneeded proteins are marked for destruction by covalent attachment to a small protein called ubiquitin.
- Polyubiquinated proteins are degraded by intracellular proteosomes
- This system degrades abnormal proteins, normal proteins and proteins of the endoplasmic reticulum

Question 73

What is UBP pathway activated (+) by? (2)

Answer 73

1) Fasting (not eating)

2) Hormones

Question 74

What is UBP pathway activated (-) by? (2)

Answer 74

1) Feeding and increased protein intake

2 )Hormones (insulin, growth factors)

Question 75

What hormones activate (+) UBP Pathways?

Answer 75

glucagon, glucocorticoids, thyroxin

Question 76

What hormones activate (-) UBP Pathways?

Answer 76

insulin, growth factors

Question 77

What are the Physiological roles of dietary proteins and amino acids? (4)

Answer 77

1) Protein synthesis

2) Synthesis of nitrogen containing molecules
- Dispensable amino acids
- Enzymes, nucleic acids, hormones, neurotransmitters,
etc.

3) Provide energy (ATP) from “carbon skeleton”
- Oxidation of “carbon skeletons” to: energy + CO2 +
H2O
- Amino group is excreted as urea and ammonia

4) Provide amino acids for conversion to:
- Acetyl CoA –> fats and sterols
- Carbohydrate intermediates –> glycogen

Question 78

Amino Acids can also be broken down and used for _______.

Answer 78

Energy

Extra: Amino Acids are used not only for synthesis, but also for energy (ATP) from the carbon skeleton

Question 79

What does the breakdown of Amino Acids begin with?

What types of reactions follow? (3)

Answer 79

The removal of the amine group mainly by the following types of reactions:

1) Transamination (all tissues)
2) Oxidative Deamination
3) Synthesis and hydrolysis of gluatamine

Question 80

Transamination

Answer 80

Transamination (all tissues)  the funneling of amino groups to glutamate

 -Enzymes are called transaminases (also called   
  aminotransferases)

 - Transaminases use pyridoxal phosphate (PLP) as    
   cofactor

  - The keto acid α-ketoglutarate accepts amino groups      
  from most amino acids to produce glutamate

Question 81

Transamination Hadaad Notes

Answer 81

Transamination (or aminotransfer) is a chemical reaction between two molecules. One is an amino acid, which contains an amine (NH2) group. The other is a keto acid, which contains a keto (=O) group. In transamination, the NH2 group on one molecule is exchanged with the =O group on the other molecule. The amino acid becomes a keto acid, and the keto acid becomes an amino acid.
Transamination in biochemistry is accomplished by enzymes called transaminases or aminotransferases. This process is an important step in the synthesis of some non-essential amino acids (amino acids that can be synthesized de novo by the organism). Transamination reactions use the coenzyme PLP, and has been shown to be a kinetically perfect reaction. The product of transamination reactions depend on the availability of alpha-keto acids. The products usually are either alanine, aspartate or glutamate, since their corresponding alpha-keto acids are produced through metabolism of fuels.

Question 82

What happens in oxidative deamination?

Answer 82

Enzyme glutamate dehydrogenase converts glutamate to α-ketoglutarate and ammonia

Question 83

What happens in the Synthesis and hydrolysis of glutamine?

Answer 83

Enzyme glutaminase hydrolyzes glutamine to produce glutamic acid and ammonia

Question 84

What are the 2 important transamination reactions?

Answer 84

1) Reaction catalyzed by ALANINE TRANSAMINASE (ALT)

2) Reaction catalyzed by ASPARTATE TRANSAMINASE (ASP)

Question 85

Alanine Transaminase Reaction (ALT)

The enzyme ____________ catalyzes the transfer of the amino group of alanine to ________ resulting in the formation of ________ and ________ .

Is this reaction reversible?

Answer 85

1) alanine transaminase
2) α-ketoglutarate
3) pyruvate and glutamate

Yes, The reaction is reversible, but during amino acid catabolism, the enzyme functions in the direction of glutamate synthesis. Thus glutamate, acts as a collector of nitrogen from alanine.

Question 86

Aspartate transaminase (AST)

Aspartate transaminase transfers amino groups from glutamate to _______ to form ________,

Asparate is used as a source of nitrogen in the ___ cycle

Answer 86

1) oxaloacetate
2) aspartate
3) urea

Question 87

ALT

Answer 87

Alanine –> α-ketoglutarate = pyruvate and glutamate

Question 88

In ALT, glutamate acts as a collector of _____ from alanine

Answer 88

nitrogen

Question 89

AST

Answer 89

Glutamate –> OAA –> Aspartate = Nitrogen used in urea cycle

Question 90

Amino form: Alanine

Answer 90

Keto form: Pyruvate

Question 91

Amino form: Aspartic Acid

Answer 91

Keto form: OAA

Question 92

Amino form: Glutamic Acid

Answer 92

Keto form: α-ketoglutarate

Question 93

Amino form: Leucine (BCAA)

Answer 93

Keto form: α-ketoisocaproic acid (BCAA keto-acid)

Question 94

What is removed in Oxidative Deamination?

Answer 94

Amino group

Question 95

Where does Oxidative Deamination occur?

Answer 95

Liver and Kidney

Question 96

What catalyzes Oxidative Deamination?

Answer 96

glutamate dehydrogenase

Question 97

What is released as a result of Oxidative Deamination?

Answer 97

Ammonia (NH3)

• Amino group is removed entirely as ammonia

Question 98

What must be present for Oxidative Deamination to happen?

Answer 98

NAD, thus it requires energy

Question 99

What are the end products of Oxidative Deamination?

Answer 99

α-ketoglutarate and ammonia

Question 100

Synthesis and hydrolysis of gluatmine is the removal of ______ ____ __

Answer 100

Amino acid Nitrogen (N)

Question 101

What enzyme synthesizes glutamine (Gln)

Answer 101

glutamine synthetase

Question 102

What does glutamine synthetase do?

Answer 102

Adds ammonia to glutamate = glutamine

Question 103

Where does the synthesis of glutamine occur?

Answer 103

Most tissues

Question 104

Where does the hydrolysis of Glutamine (Gln) occur?

Answer 104

Liver

Question 105

What enzyme is used for the hydrolysis of Glutamine (Gln)

Answer 105

glutaminase

Question 106

What does glutaminase do?

Answer 106

Coverts Glutamine –> glutamate + free ammonia

Question 107

How is Glutamine degraded back to glutamate?

Answer 107

Liberation of the amide-N to release ammonia by a different enzymatic pathway (glutaminase). NH3, ammonia.

Question 108

In the Urea cycle, What is the major disposal form of NH3

Answer 108

Urea

Question 109

In the Urea cycle, Where is NH3 generated (via glutamate dehydrogenase)?

Answer 109

Mitochondria

Question 110

In the Urea cycle, Where does the first reaction of the Urea cycle take place?

Answer 110

Mitochondria

Question 111

In the Urea cycle, amino groups of many amino acids are transferred primarily to ____________

Answer 111

α-ketoglutarate (in skeletal muscle to pyruvate)

Question 112

In the Urea cycle, what 2 amino acids are transported via the blood to the liver, where they are deaminated to form ammonia

Answer 112

glutamate and alanine

Question 113

In the Urea cycle, Where do the 2 Urea N groups come from?

Answer 113

One comes from free NH3 (from oxidative deamination of glutamate)

One comes from aspartate (which got it from glutamate)

Question 114

In the Urea cycle, Glutamate is the primary source for the

Answer 114

Aspartate N

Question 115

In the Urea Cycle, glutamate is also an important source of the _________ into the cycle.

Answer 115

ammonia

Question 116

Approximate distribution of nitrogen in urine in human consuming 100 g of protein per day is

Answer 116

16g N

Question 117

If a person has 12.8g N (i.e. from Urea) per day, you multiply that by ________ to = g of _______

Answer 117

6.25, protein

Question 118

What are the 4 sources of ammonia? aka where does ammonia come from

Answer 118

1) Amino acids
- glutamate dehydrogenase

2) Glutamine and other amides
- glutaminase

3) Nucleic acids
4) Bacterial UREASE in intestine

Question 119

How is extra Nitrogen disposed? aka How do we get rid of ammonia from our bodies?

Answer 119

1) Formation of urea

2) Excretion by kidney as ammonia (acid-base balance)

Question 120

Define Glucogenic

Answer 120

Yield pyruvate or one of the intermediates of the citric acid cycle

Question 121

Define Ketogenic

Answer 121

Yield acetyl-CoA or intermediates of fatty acid oxidation

Question 122

What AA is purely ketogenic?

Answer 122

Leucine

Question 123

What AA’s are both ketogenic and glucogenic?

Answer 123

Ile, Lys, Phe, Tyr, Trp

Question 124

What AA’s are purely glucogenic?

Answer 124

alanine, serine, glycine, cysteine, aspartic acid, asparagine, glutamic acid, glutamine, arginine, histidine, valine, threonine, methionine, proline

Question 125

What is the intestinal tract lined with?

Answer 125

Continuous layer of epithelial cells

Question 126

What is the Is the largest lymphoid organ in the body (gut associated lymphoid tissue)?

Answer 126

Intestinal Tract

Question 127

What are the major fuels for the small intestinal mucosa?

Which 3?

Answer 127

Dietary AA’s

glutamine, glutamate, aspartate

Question 128

Dietary Amino Acids

Answer 128

1) Are major fuels for the small intestinal mucosa (glutamine, glutamate, aspartate)
2) Are substrates for synthesis of intestinal
3) Show trophic and cytoprotective effects on gut integrity
4) Show potential therapeutic applications

Question 129

In regards to proteins, the gut accounts for __- __% of whole-body protein synthesis

Answer 129

9-12%

Question 130

In regards to dietary amino acids

what are Are substrates for synthesis of intestinal
1) Proteins (gut accounts for 9-12% of whole-body
_______ synthesis

   2) Nitric oxide (\_\_\_\_\_\_\_)
  3) Polyamines (putrescine, spermidine, etc. (\_\_\_\_\_\_)
   4) Glycoproteins (\_\_\_\_\_\_\_) 
   5) Ornithine, citrulline, and arginine (from \_\_\_\_\_\_\_)

Answer 130

1) protein
2) arginine
3) from arginine
4) threonine, found in mucous
5) proline

Question 131

Glycoproteins are made up of ______ and ______

Answer 131

protein and sugar

Question 132

What is an example of a FAST protein that is digested and absorbed quickly

Answer 132

Whey

Question 133

What type of protein increases satiety?

Answer 133

Whey

Question 134

What kind of protein increases protein synthesis?

Answer 134

Whey

Question 135

What is an example of a SLOW proteins that is digested and absorbed more slowly

Answer 135

Caesein

Question 136

Which type of protein allows plasma concentrations of amino acids are maintained over a longer period of time

Answer 136

Caesein

Question 137

After protein is ingested, it is absorption from the small intestines into the _______ _________

Answer 137

Portal circulation

Question 138

Which organ is in charge of distribution and control of blood concentrations?

Answer 138

Liver

Question 139

After protein is ingested, utilization by cells for protein synthesis depend on what 3 things?

Answer 139

1) Quality of protein
2) Size of meals
3) Slow and fast proteins

Question 140

____ and _______ exert different effects on plasma amino acid profiles, gastrointestinal hormone secretion and appetite.

Answer 140

Casein and Whey

Question 141

Individuals consume less calories when they are preloaded with which type of protein? Casein or Whey?

Answer 141

Whey

Question 142

Circulating concentrations of the various amino acids reflect the composition of the proteins and amino acids consumed
in which state?

Answer 142

Postprandial state

Question 143

Which state does the following describe?

• The amino acid profile of blood is stable and characteristic of species
  - There is a net release of amino acids from muscle to
  plasma
  - There is uptake of amino acids by kidneys for
  gluconeogenesis and ammonia formation
• Conditions which results in changes in the concentrations of amino acids in blood
  - The neonatal period
  - Catabolic and disease conditions

Answer 143

Postabsorptive

Question 144

True of False: Different animals/humans have difference postabsorptive states rates/Postabsorptive states depend on the species

Answer 144

True

Question 145

AA in the Colon

Some proteins and amino acids escape digestion and absorption and end up in the ________.

Answer 145

Colon

• Are absorbed and metabolized by colonic cells
• Are metabolized by bacterial flora to produce ammonia, hydrogen sulfide, amines, short-chain fatty acids

Question 146

AA in the Colon

Bacterial flora also produce ammonia from urea catalyzed by bacterial _________

Answer 146

urease

Question 147

AA in the Colon

Are amino acids synthesized de novo by gut bacteria absorbed by humans?

Answer 147

Some evidence exists

Question 148

The following are all roles of what organ?

1) Monitors absorbed amino acids and adjusts rate of metabolism according to body needs
2) Increased protein intake results in higher activity of liver enzymes which metabolize amino acids. Liver breaks down most amino acids except branched chain.

3) There is a difference in the metabolism of dispensable versus indispensable amino acids by the liver depending on the diet
- There is a direct correlation between the amount of
protein in the diet and catabolism of dispensable amino
acids
- Indispensable amino acids catabolism increases only
when the diet provides substantial amounts of those
amino acids

Answer 148

Liver

Question 149

What explains the interaction between muscles and liver cells?

Answer 149

Skeletal muscle: The alanine cycle

Question 150

Skeletal muscle: The alanine cycle

The Skeletal muscle: The alanine cycle likes to oxidize which AA’s

Answer 150

BCAA’s: Ile, Leu, and Val

Question 151

Skeletal muscle: The alanine cycle

Does the release of amino acids from muscle reflect the amino acid profile of muscle?

Answer 151

No

Question 152

Skeletal muscle: The alanine cycle

What fraction of amino acids released from muscle are alanine and glutamine?

Answer 152

2/3rds

Question 153

Skeletal muscle: The alanine cycle

_______ 1st undergo transamination and then are oxidized in muscle tissue for energy

Answer 153

BCAA’s

Question 154

Skeletal muscle: The alanine cycle

The amino groups are carried from:
alanine –> ____ and
glutamine –> ______

Answer 154

alanine –> liver
- it is then changed to glucose for energy

glutamine –> gut

Question 155

Postabsorptive state means

Answer 155

after we have eaten

Question 156

Fasting means

Answer 156

we have not eaten for a while

Question 157

The brain uses what for energy?

Answer 157

Glucose

Question 158

In a postabsortive state there is more ___ and less ___

Answer 158

more glucose

less ketones

Question 159

In a fasting state the brain oxidizes more _____ and less ______

Answer 159

more ketones

less glucose

Question 160

Ketones come from the oxidation of Ketogenic AA’s, Glycerol, and _____

Answer 160

FFA’s

Question 161

Glycerol is the backbone of _____

Answer 161

Triglycerides

Question 162

The Gut loves to use glutamate and _____

Answer 162

glutamine

Question 163

Skeletal muscle

What are the two biomarkers for meat intake?

Answer 163

3-methyl histidine and 1-methyl histidine

• excreted in the urine
• bodybuilders produce more because of protein turnover
• these biomarkers result from muscle turnover and consumption of meat from the diet