Lecture 28 - Amino Acids as Fuel Molecules Flashcards

1
Q

What does protein digestion involve?

A

Hydrolysis of peptide bonds, performed by several different proteases and peptidases

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2
Q

What do endopeptidases do?

A

attack (break) peptide bonds within the protein (peptide) polymer

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3
Q

What do exopeptidases do?

A

attack (break) the last peptide bond near the end of protein (peptide) polymer

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4
Q

What are some examples of Endopeptidases?

A

Pepsin, Trypsin, Chymotrypsin

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5
Q

What is endopeptidase specificity determined by?

A

adjacent amino acid side chains in protein substrate

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6
Q

What best describes how endopeptidases work?

A

Sequential (each round produces smaller peptides)

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7
Q

What are some examples of exopeptidases?

A

Carboxypeptidase, Aminopeptidase

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8
Q

What is the order in which proteases digest proteins?

A
  1. Pepsin
  2. Trypsin
  3. Chymotrypsin
  4. Carboxypeptidases
  5. Aminopeptidases
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9
Q

Where does a carboxypeptidase cut the peptide?

A

Near the carboxy-terminal residue

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10
Q

Where does an aminopeptidase cut the peptide?

A

Near the amino-terminal residue

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11
Q

What do exopeptidases release?

A

Amino acids, di- and tri- peptides

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12
Q

How are proteases produced?

A

As zymogens

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13
Q

Why are proteases produced as zymogens?

A

Need to prevent protease activity before reaching the
gastrointestinal tract

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14
Q

What are zymogen or proenzymes?

A

Proteases secreted as inactive forms

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15
Q

How are zymogens activated?

A

by cleavage of peptides from their structure

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16
Q

What is the autolytic activation of pepsinogen?

A

activation by the low stomach pH

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17
Q

What is the catalytic activation of pepsinogen?

A

When the activated pepsin interacts with pepsinogen, activating it

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18
Q

How is trypsinogen activated into trypsin?

A

Membrane-bound enterokinase (enteropeptidase)

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19
Q

How is chymotrypsinogen activated?

A

By trypsin, and chymotrypsin activating other chymotrypinogens

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20
Q

How are procarboxypeptidases activated into carboxypeptidases?

A

By interaction with Trypsin

21
Q

How much absorption is there of peptides 4 or more amino acids long?

A

Very little

22
Q

How are di, and tri peptides absorbed into the intestine?

A

By co transport with H+ ions via a membrane transporter

23
Q

How are absorbed di and tri peptides further digested?

A

After absorption they are further digested into individual amino acids by cytoplasmic peptidases

24
Q

How do the amino acids enter the blood?

A

They pass through a facilitative transporter into the interstitial fluid and then into the blood

25
Q

What mechanism is used for the absorption of amino acids in the small intestine?

A

Amino acids are absorbed via Na⁺-dependent transport into epithelial cells, where sodium and amino acids move together

26
Q

How is the concentration gradient for Na⁺ maintained in epithelial cells during amino acid absorption?

A

The Na⁺/K⁺-ATPase pump actively transports Na⁺ out of the cell and K⁺ in, using ATP to maintain a low intracellular Na⁺ concentration.

27
Q

What type of transport moves amino acids from the epithelial cells into the blood?

A

Amino acids are transported into the blood via facilitated diffusion (which doesn’t require energy but relies on transport proteins).

28
Q

How many different Na⁺-dependent amino acid carriers exist, and what do they transport?

A

There are at least six (semi specific) Na⁺-dependent carriers that transport specific amino acid types.

29
Q

What is the role of Na⁺ in amino acid absorption in the small intestine?

A

Na⁺ moves down its concentration gradient into epithelial cells, and this movement powers the co-transport of amino acids against their concentration gradient.

30
Q

What does deamination generate?

A

a carbon skeleton, and a free amino group

31
Q

What can the carbon skeleton be used for?

A

energy capture

32
Q

What happens to the free amino group?

A

usually excreted

33
Q

What are some ways that deamination occurs?

A
  1. Release of amino groups to solution.
  2. Transfer of amino group to a keto acid.
34
Q

What is transamination?

A

When amino acids are deaminated by transferring their amino group to a keto acid

35
Q

What catalyses transamination?

A

Aminotransferase enzymes

36
Q

What is Pyridoxal phosphate (PLP)?

A

a co-enzyme required for transamination reactions

37
Q

What is PLP derived from?

A

Vitamin B6

38
Q

What does PLP do during transamination reactions?

A

Carries amino group (from the amino acid to the keto acid)

39
Q

What are the two forms of PLP?

A
  • Pyridoxal phosphate (no amino group)
  • Pyridoxamine phosphate (with amino group)
40
Q

How many steps are there to transamination?

A

2

41
Q

What is the first step of transamination?

A

Amino group is transferred from the amino acid to the
pyridoxal phosphate (becomes pyridoxamine phosphate)

42
Q

What is the second step of transamination?

A

Amino group is transferred pyridoxamine phosphate
(becomes pyridoxal phosphate) to the keto acid

43
Q

What are some common amino acid/ keto
acid pairs in metabolism

A

Amino acid. Keto acid
Glutamate. -> α-ketoglutarate
Aspartate. -> Oxaloacetate
Alanine. -> Pyruvate

44
Q

What can happen to Keto acids?

A

They can be fed into the metabolic pathways

45
Q

Can Keto acids directly enter metabolic pathways?

A

Some can, but some others must be modified beforehand

46
Q

What else are Transamination reactions important for?

A

Removing excess nitrogen from cells

47
Q

What are the steps of removing excess ammonia from muscle cells?

A
  1. Ammonia attaches to keto acid in muscle forming glutamate
  2. Transamination occurs with addition of pyruvate to glutamate forming alanine which can then enter the blood.
  3. When the Alanine reaches the liver it undergoes transamination again losing a pyruvate to form glutamate
  4. Deamination of the glutamate occurs and ammonia forms Urea, which is non-toxic and is removed by the kidney
48
Q

Why is it important to remove this excess ammonia?

A

It is toxic in cells