Reading Guide, Pratt and Cornely Chapter 18 1. What is meant by “fixed” nitrogen? How is it fixed? Is it an energetically costly process? 2. What is the reaction catalyzed by glutamine synthetase? What is the role of glutamine synthetase in humans? 3. How is nitrogen transferred from one amino acid to another? What is the necessary cofactor? 4. What compound is made when these compounds are transaminated: alanine, glutamate, aspartate. 5. How is the nitrogen source of asparagine synthetase different than glutamine synthetase? 6. Which amino acid is used as the backbone of arginine and histidine? 7. Give a three step synthesis of 3-phosphoglycerate to serine. 8. When serine donates a methylene group to the vitamin ____________, the amino acid ______________ is formed. Skip biosynthesis of essential amino acids 9. Which amino acid is the precursor for each of these neurotransmitters: GABA, dopamine, serotonin. Skip section18.3 10. Catabolism of amino acids in the liver is not complete. Rather, the nitrogen is removed through ________________ reactions, then the carbon skeletons are transformed into compounds for ____________________. 11. Two catabolic classifications for amino acids are ____________ and ______________. 12. List 5 amino acids that can be made into citric acid cycle intermedicates by transamination or deamination. 13. Serine is made into the intermediate _____________ by (deamination or transamination.) 14. The four amino acids _______________ are part of the glutamate family, and make up 25% of amino acid dietary intake. 15. Threonine is both ketogenic and glucogenic because it can be broken down into ____________ and _____________. 16. Glycine can be broken down by the glycine cleavage system to give a methylene group to the vitamin ____________________. 17. Branched amino acids that are glucogenic yield ______________; branched amiono acids that are ketogenic yield _______________. 18. Aromatic amino acids are both keto- and glucogenic because they are broken down into ___________________ and either ______________ or _______________. 19. Why is excess nitrogen from metabolic processes not excreted as ammonia? 20. What is glutamate’s particular role in nitrogen catabolism? What is the reaction catalyzed by glutamate dehydrogenase? 21. How many ATP are consumed in the production of carbamoyl phosphate from carbonate? Outline the three reactions necessary to produce this carbamoyl phosphate. 22. The urea cycle incorporates an nitrogen atom from carbamoyl phosphate and a nitrogen atom from the amino acid _______________ to make the amino acid ________________ (which is an essential amino acid in children.) The amino acid loses the molecule ___________, which is excreted in the urine. 23. The total ATP cost of the urea cycle is __________, with a cost of ____ATP to make carbamoyl phosphate, and a cost of _____ ATP to incorporate the aspartate nitrogen atom. 24. The regulated step of the urea cycle is ______________. It is activated by N-acetylglutamate, wich makes sense because N-acetylglutamate is made when _____________ and _______________ are in high concentrations (a signal that amino acids are being catabolized.)