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Transcript
Amino Acid Synthesis Stryer Short Course, Chapter 31 Nitrogen fixation • Bacteria • Nitrogenase • Costly—16 ATP per N2 molecule Assimilation into Amino Acids • In microorganisms/plants: assimilation of ammonia is key—synthesis of most amino acids – Glutamine synthetase incorporates amino group • Glutamine serves as nitrogen donor for nucleic acids, etc. – Glutamine dehydrogenase: reversible reaction already observed • Glutamate can serve as nitrogen source for AA in transamination Biosynthesis • Dietary consideration • Ambiguous – Stage of life (Arg) – Precursor (Tyr, Cys) • Mechanism of biosynthesis can be grouped Amino Acid Biosynthesis * * * * * * * * * * * Non‐essential Amino Acid Biosynthesis • Transamination – Pyruvatealanine – Oxaloacetateaspartate – ‐ketoglutarateglutamate • Amidation – Glutamine (glutamine synthetase) – Asparagine (asparagine synthetase) Glutamate Backbone Tyrosine • A “non‐essential” amino acid • Mono‐oxygenase Serine • 3‐phosphoglycerate Serine • Serine is the building block for two amino acids that are involved in one‐carbon transfer reactions – Glycine – cysteine Glycine • Serineglycine – THF as a major one‐carbon transfer vitamin Using THF: Production of TMP • dUTP must be converted to TMP quickly • Methylene donated from THF by thymidylate synthase • THF oxidized to DHF • Chemotherapy: dUMP analog Regenerating THF • DHF must be reduced to THF by DHF reductase • NADPH dependent • Chemotherapy dtarget – DHF analogs such as methotrexate Cysteine • Serinecysteine by incorporating sulfur from homocysteine (Made from methionine) S‐Adenoxylmethionine • • • • Very active methyl carrier Uses 3 ATP equivalents Very reactive methyl group Homocysteine byproduct can be used to make cysteine or regenerate methionine Activated Methyl Cycle • After SAM is used, homocysteine is made back into methionine with methyl group from THF (utilizes B12) • High homocysteine levels cause oxidative damage of blood vessels—corrolates to heart disease Neurotransmitters • Which amino acid is starting material for each of the following? Regulation Strategies • Committed Step • Multiple isozymes • Cumulative feedback – Glutamine synthetase partially inhibited by products containing nitrogen • Feedback in branched pathways
