Chapter 15 Nitrogen Metabolism 2 (degredation)

Question 1

What is meant by the term turnover of protein and nuclei acids?

Answer 1

The need to constantly undergo renovation of most living cells, as the cellular concentration of each type of protein is due to the balance between its synthesis and degradation it serves different purposes:

1) metabolic flexibility
2) protection us from abnormal proteins
3) regulate some metabolic processes

Question 2

What are the classification of amino acids in catabolism?

Answer 2

1) gluconeogenic amino acids

2) ketogenic amino acids

Question 3

What are the seven products yielded from all amino acid catabolism?

Answer 3

1) Acetyl-CoA
2) Acetoacetyl-CoA
3) Pyruvate
4) a-ketoglutarate
5) succinyl-CoA
6) Fumarate
7) Oxaloacetate

Question 4

What is the meaning of glucogenic amino acid?

Answer 4

The amino acid that yield intermediate of gluconeogenesis upon catabolism (pyruvate, a-ketoglutarate, succinyl-CoA, fumarate, oxaloacetate), can be used in gluconeogenesis

Question 5

What is meant by ketogenic amino acids?

Answer 5

The breakdown of amino acids producing ketone bodies (Acetyl-CoA, Acetoacetyl-CoA), they can be converted into fatty acids or ketone bodies they are:

1) leucine
2) lysine

• FYI (ANY AMINO ACID THAT STARTS WITH AN “L”)

Question 6

What are the five amino acids that can be ketogenic and glucogenic?

Answer 6

1) isoleucine
2) phenylalanine
3) threonine
4) tryptophan
5) tyrosine

-FYI (ANY AMINO ACID THAT STARTS WITH “T OR i” + phenylalanine)

Question 7

What is meant by deamination?

Answer 7

The removal of the amine group from an a-amino acid via two different reactions:

1) Transamination
2) Oxidative deamination

Question 8

What is the characteristics of the deamination reaction?

Answer 8

1) Reversible (amino groups can be shifted from abundant amino acids to synthesize the rare ones)

2) When the amino groups are in excess they become available for urea synthesis, which is synthesized in large amounts when the diet is high in protein or there is a massive breakdown of protein (during starvation)

• But its not for all amino acid a-carbon (the famous one is glutamate dehydrogenase) the remaining is by the transfer of a-amino acid to an a-keto acid

Question 9

What are the enzymes that can deaminase some of the amino acids?

Answer 9

The main one is glutamate dehydrogenase used in the oxidative deamination of glutamate the rest are:

1) L-amino acid oxidases
2) Serine & threonine dehydrases
3) Bacterial urease (intestinal bacteria)
4) Adenosine delaminase

Question 10

How does different organs get rid of excess amino group?

Answer 10

1) Muscles: amino groups are transferred to a-ketoglutarate forming glutamate & a-keto acids (which is transferred by the blood to the liver by the glucose-alanine cycle)

2) Liver: reverse of the alanine transaminase reaction forms the glutamate

Question 11

How are the ammonium ions produced by extrahepatic tissues arrived into the liver?

Answer 11

As the amide group of glutamine

Question 12

How is glutamine synthesized?

Answer 12

By the conversion of glutamate via glutamine synthetase using ATP into glutamine, in the liver it is hydrolyzed to form glutamate and NH4+ (using glutaminase), and an additional NH4+ is formed by the conversion of glutamate into a-ketoglutarate via glutamate dehydrogenase

Question 13

What forms urea?

Answer 13

1) ammonia
2) CO2
3) Aspartate

Question 14

What is the percentage of nitrogen is disposed by the urea cycle?

Answer 14

90%

Question 15

What are the reactions of the urea cycle?

Answer 15

Mainly in the liver occurring in both the mitochondria and the cytoplasm

1) CO2 + ammonia = carbamoyl phosphate via carbamoyl phosphate synthetase I utilizing 2ATP into 2ADP (it is the regulatory step of the urea cycle)

2) carbamoyl phosphate + L-ornithine = L-citrulline + Pi via ornithine transcarbamoylase

Citrulline will leave the mitochondria for an exchange with L-ornithine

3) L-citrulline + Aspartate = Arginosuccinate utilizing ATP into AMP + PPi via the enzyme arginosuccinate synthase

4) arginosuccinate lyase will cleave fumarate forming arginine

5) arginase will utilize H2O cleaving Urea producing ornithine

Question 16

What is the overall equation of the urea cycle?

Answer 16

CO2 + NH4+ + Aspartate + 3 ATP + 2 H2O = Urea + Fumarate + 2 ADP + 2Pi + AMP + PPi + 5H+

Question 17

What is the structure of urea?

Answer 17

NH2-C-(=O)-NH2
It can hold two ammonium ions, one of them is from free ammonia the other one is from aspartate

Question 18

What is the aspartate-arginino succinate shunt of citric acid cycle?

Answer 18

It connects the fumarate produced n the urea cycle to the citric acid cycle via some of the isoforms of the enzymes found in the mitochondria which converts fumarate into malate and malate into oxaloacetate which will be converted into aspartate by the transamination of a-amino acid (usually glutamate) into its a-keto acid

Question 19

How is the urea cycle controlled (regulated)?

Answer 19

• Urea is strictly regulated as it is toxic to the body
• Dietary protein regulate urea cycle enzymes
• Glucagon and glucocorticoids activates urea cycle
• Insulin represses its synthesis
• Substrates concentration controls all enzymes function

The short term regulation is by the control of the enzymes, while the long term regulation is by the variation in the dietary protein consumption

Question 20

Examples of the catabolism of amino acid carbon skeleton

Answer 20

1) Asparagine converted to aspartate converted to oxaloacetate which can be used for energy production or glucose biosynthesis

2) glutamine converted to glutamate converted to a-keto glutarate which can be used in glucose biosynthesis or energy production

3) alanine to pyruvate which can be used for glucose biosynthesis, energy production, fatty acids, cholesterol

Question 21

What are the amino acids converted into pyruvate?

Answer 21

1) alanine
2) serine
3) glycine
4) cysteine
5) threonine

Question 22

What are the amino acids that can be converted into acetyl-CoA?

Answer 22

1) pyruvate
2) isoleucine

Question 23

What are the amino acids that can be converted into acetoacetyl-CoA?

Answer 23

1) phenylalanine
2) tyrosine
3) tryptophan

Question 24

What are the amino acids that can be converted into citric acid cycle intermediate?

Answer 24

1) Forming a-ketoglutarate (1. Glutamate (glutamine), 2. Arginine, 3. Proline, 4. Histidine)

2) Forming succinyl-CoA (1. Methionine, 2. Threonine, 3. Isoleucine, 4. Valine)

3) Forming oxaloacetate (Aspartate)