15.26) In transamination reactions, a-ketoglutarate is converted to glutamic acid. The other important reaction in amino acid catabolism is oxidative deamination. In the previous problem, and most other transaminase reactions, a-ketoglutarate is converted to glutamic acid (an amino acid). In oxidative deamination, a quaternary ammonium group (-NH3*) is removed from glutamic acid, thereby producing ammonium (NH4+), NADH, H+ and one other product. Complete the oxidative deamination reaction below by drawing and naming the missing product. NOTE: The a-ketoglutarate that is produced in the reaction is now free to accept a new quaternary ammonium group from another amino acid in a transamination reaction, as illustrated below. an amino acid + NH H O 11 C-C-O + H₂O CH₂ CH₂ C-o O glutamic acid (Glu) NAD+ NADH + H+ deaminase NH4+ + C CH₂ 1 CH₂ Į -0 a-ketoglutarate a-ketoglutarate an a-keto acid transamination oxidative deamination NH₂+ glutamic acid

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15.26) In transamination reactions, a-ketoglutarate is converted to glutamic acid. The other important reaction in amino acid catabolism is oxidative deamination. In the previous problem, and most other transaminase reactions, a-ketoglutarate is converted to glutamic acid (an amino acid). In oxidative deamination, a quaternary ammonium group (-NH3+) is removed from glutamic acid, thereby producing ammonium (NH4+), NADH, H+ and one other product. Complete the oxidative deamination reaction below by drawing and naming the missing product. NOTE: The a-ketoglutarate that is produced in the reaction is now free to accept a new quaternary ammonium from another group amino acid in a transamination reaction, as illustrated below. an amino acid NH HO C. CH₂ 1 CH₂ glutamic acid (Glu) + H₂O NAD+ NADH + H+ deaminase NH, + O C CH₂ CH₂ 1_0² a-ketoglutarate a-ketoglutarate an a-keto acid transamination oxidative deamination NH₂+ glutamic acid