Metabolism of Amino Acids

 

The critical first step of amino acid degradation is the removal of the amino group by oxidative deamination.   Oxidative deamination requires an amino transferase and a dehydrogenase.   Ammonium ion (NH₄ ⁺) is liberated.   NH₄ ⁺ is a product of the breakdown of amino acids.   NH₄ ⁺ is required by cells for synthesis of nitrogen containing compounds. Excess NH₄ ⁺ is very toxic. Excess NH₄ ⁺ is converted to urea via the urea cycle and excreted.  

 

The carbon skeletons are processed by various pathways.   They may end up as:

• Pyruvate or TCA cycle intermediates

• Acetyl CoA or acetoacetyl CoA

Lesions in these pathways can lead to accumulation of other products as in maple syrup urine disease.  

 

Another important enzyme is phenylalanine hydroxylase which converts phenylalanine to tyrosine.     Some newborns lack this enzyme.   It is routinely measured in hospitals but, if neglected, the build-up of phenylalanine causes mental retardation (PKU).   Children with this condition have to be on a special diet with very little phenylalanine.

 

The synthesis of many of the amino acids is a simple reversal of their degradation, utilizing a transamination reaction.   Amino acids skeletons end up as major metabolic intermediates during degradation.   Likewise, amino acids are also biosynthesized from major metabolic intermediates.

 

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