The polymerase chain reaction was used to amplify the glycosylasparaginase protein coding sequence from the three AGU patients in order to compare them to the normal sequence from a full-length human placenta cDNA clone HPAsn.6 (Fisher, K.J., Tollersrud, O.K., and Aronson, N.N., Jr. (1990) FEBS Lett.269, 440-444).
Here we use the three-dimensional structure of AGA to predict structural consequences of AGU mutations, including six novel mutations, and make an effort to characterize every known disease mutation by dissecting the effect of mutations on intracellular stability, maturation, transport and the activity of AGA.
Since the mutation produces a change in the predicted flexibility of the AGA polypeptide chain and removes an intramolecular S-S bridge, it most probably explains the deficient enzyme activity found in cells and tissues of AGU patients.