Nitrogen Elimination and Carbon Chain Metabolism II

Question 1

The initial step in urea synthesis occurs in the mitochondria, and requires 2 ATP’s per urea. Note that the ATP is hydrolyzed in two distinct steps that generate

Answer 1

Pyrophosphate and then inorganic phosphate

Question 2

The α-NH3 from most amino acids is transferred to α-ketoglutarate. The sole purpose of this mechanism is to concentrate all the α-NH3 groups, from different amino acids, predominantly into

Answer 2

Glutamate

Question 3

Although this does not reduce the overall levels of nitrogen, it permits a single enzyme, glutamate dehydrogenase, to release nitrogen from glutamate and initiate the formation and excretion of

Answer 3

Urea

Question 4

Non-specific proteases, such as those expressed in the gut can be extremely deleterious to other

Answer 4

Cellular proteins

Question 5

Glutaminase, Asparaginase and glutamate dehydrogenase release ammonia from

Answer 5

Glutamine, asparagine, and glutamate respectively

Question 6

Reduced expression of N-acetylglutamate could result in

Answer 6

Ammonia toxicity

Question 7

Reduced expression of N-acetylglutamate could result in ammonia toxicity. This defect could be severe in individuals with liver disease. This toxicity could be exacerbated by a

Answer 7

High protein diet

Question 8

Amino acids are classified as being either

Answer 8

Glucogeninc or ketogenic

Question 9

Channeled into pyruvate or other TCA intermediates, and can be fully catabolized, or can be used for the formation of glycogen

Answer 9

Glucogenic amino acids

Question 10

Terminate as acetyl-CoA or its derivatives, and the energy yield is lower

Answer 10

Ketogenic amino acids

Question 11

Glucogenic amino acids can also produce acetyl-CoA, although the important distinction is that the ketogenic amino acids do not enter

Answer 11

TCA

Question 12

The synthesis of cysteine requires

Answer 12

Methionine

Question 13

The production of tyrosine requires

Answer 13

Phenylalanine

Question 14

A high-energy and unstable compound, containing a CH3 group that is linked to a sulfur atom in methionine

Answer 14

SAM

Question 15

The methyl group in SAM is transferred rapidly to

Answer 15

DNA, RNA, and hormones

Question 16

After the methyl group has been contributed to a reaction, the resulting S-adenosyl-homocysteine can be converted back to

Answer 16

Methionine

Question 17

This reaction requires the co-factor methylcobalamin and

Answer 17

Methyltetrahydrofolate

Question 18

Derived from vitamin B12

Answer 18

Methylcobalamine

Question 19

Homocysteine can also be converted to cysteine, in a reaction that requires

Answer 19

Pyridoxal phosphate/vitamin B6

Question 20

An essential vitamin that performs in single carbon donor reactions

Answer 20

Folate

Question 21

Can receive carbon from a variety of different donor molecules, and based on the chemical form, distinct bonds are formed with its nitrogen atoms

Answer 21

Tetrahydrofolate

Question 22

Carbonic acid is the hydrated form of CO2, and is transported by

Answer 22

Biotin

Question 23

You should recognize that a defect in enzymes that form either carbamoyl phosphate (ie: carbamoyl phosphate synthase I), or stimulate its activity by N-acetylglutamate (N-acetylglutamate synthase) could have

Answer 23

Similar negative effects

Question 24

Carbamoyl phosphate synthase I defects / N-acetylglutamate synthase defects result in the accumulation of

Answer 24

Ammonia

Question 25

Given the extreme toxicity caused by ammonia to the CNS, defects in these pathways can cause severe cognitive deficiencies

Answer 25

Carbamoyl phosphate synthase I defects / N-acetylglutamate synthase defects

Question 26

Can breach the permeability across the hepatocyte cell membrane, and release transaminases into circulation

Answer 26

Liver disease

Question 27

A common genetic defect (1/15,000 incidence) that causes accumulation of phenylalanine, and reduces the synthesis of tyrosine

Answer 27

Phenylketonuria (PKU)

Question 28

Although there are multiple causes for PKU, the classic form results from a defect in the enzyme

Answer 28

Phenylalanine hydroxylase (PAH)

Question 29

Functions to convert phenylalanine to tyrosine

Answer 29

PAH

Question 30

Failure to convert phenylalanine to tyrosine results in the accumulation of phenylalanine and other byproducts, and is accompanied by progressive

Answer 30

Mental retardation

Question 31

Phenylalanine hydroxylase requires a cofactor called

-Defects in the synthesis of this cofactor can also cause PKU

Answer 31

Tetrahydrobiopterin

Question 32

Large neutral amino acid transporters are required for transport of phenylalanine and certain other amino acids across the

Answer 32

Blood-brain barrier

Question 33

However, high levels of phenylalanine can competitively block the entry of other neutral amino acids into the

Answer 33

Brain

Question 34

Required for the synthesis of the pigment melanin

Answer 34

Tyrosine

Question 35

PKU patients tend to be faired and frequently have

Answer 35

Greener eyes

Question 36

Specific amino acid transporters in the kidney can reabsorb amino acids in the urine. However, defects in specific transporters can lead to high levels of certain amino acids in the blood

Answer 36

Blue-diaper syndrome

Question 37

For instance, accumulation of tryptophan, as a result of an absorption defect in the intestine, results in its degradation by intestinal bacteria, and the generation of

Answer 37

Indole

Question 38

Following oxidation indole is converted to indigo blue, which is excreted in the urine, and stains the diaper

Answer 38

Blue

Question 39

This is a rare, autosomal recessive trait that is accompanied by digestive problems and visual impairment

Answer 39

Blue-diaper syndrome

Question 40

A rare disease that is caused by the failure to remove the α-amino group from tyrosine

Answer 40

Aminotransferase defect. Type II tyrosinemia

Question 41

Aminotransferase defect. Type II tyrosinemia is a rare disease that is caused by the failure to remove the α-amino group from tyrosine. The defect lies in the gene encoding

Answer 41

Tyrosine aminotransferase

Question 42

Aminotransferase defect. Type II tyrosinemia causes accumulation of tyrosine, and is associated with

Answer 42

Mental retaration and defects in the eyes and skin

Question 43

One of the most frequently occurring genetic defects (~1/10,000)

Answer 43

Polycystic Kidney Disease (PKD)

Question 44

Incurable, and is associated with the formation of fluid filled cysts in both kidneys

Answer 44

Polycystic Kidney Disease (PKD)

Question 45

Polycystic Kidney Disease (PKD) is also associated with an

Answer 45

Auto immune effect

Question 46

Adult symptoms of PKD include

Answer 46

Fatigue, headaches, UTI, and hypertension

Question 47

Individuals with advanced disease have a high incidence of

Answer 47

Kidney stones and liver damage

Question 48

The final phase, that leads to death, is caused by

-results from complete renal failure

Answer 48

Uremia

Question 49

Treatment for PKD might include reducing blood pressure (antihypertensive meds / diuretics / low salt diet), close monitoring for infection caused by hernia, antibiotic therapy to suppress inflammation and infusion of

Answer 49

RBC