Direct cDNA sequencing has been performed on asymmetrically amplified transcripts from the human porphobilinogen deaminase gene. Lymphocytes from 30 patients with acute intermittent porphyria were the source of mRNA; of the seven separate point mutations detected, three were silent, whereas four resulted in amino acid changes. Three of these changes involved highly conserved amino acids, and the remaining one a conserved charge. One of these mutations was predicted to cause structural alterations in the protein product. The application of this method to affected families allows the direct identification of these heterogeneous mutations, thus permitting the unequivocal detection of carriers.
The effects of aluminium, lead and zinc on ALA dehydratase were examined in vitro
and in vivo. Aluminium alone added to the erythrocyte enzyme assay caused a highly significant
increase in enzyme activity. A similar result was found with zinc alone. When lead and aluminium
were added together, the inhibition found with lead alone was depressed in an additive manner by
aluminium. Zinc and aluminium together showed an activation that was stoichiometrically
additive. Studies in vivo using rats injected with aluminium and lead showed similar results for
hepatic ALA dehydratase as those found in vitro.
We have studied the porphobilinogen deaminase gene transcripts from seven unrelated patients from the West of Scotland, all suffering from acute intermittent porphyria. This was achieved by reverse transcription and PCR amplification of mRNA followed by asymmetric amplification and direct sequencing. Five novel and two previously described mutations were identified and found to be single base substitutions. Of the five novel mutations, three were missense (R116Q, T2691, G274R) and two were nonsense (Q204 Stop, W283 Stop). Using Escherichia coli PBGD as a model, it is possible to predict and explain the deleterious effects that these mutations might have on the function and structure of the enzyme.
The lipid-secreting cells of the Harderian gland of the Syrian hamster were studied using light, transmission, and scanning electron microscopy. Three morphologically different secretory cell types are identified in the gland: type I and II cells of the male gland and, distinct from either, the female gland cell. In all secretory cell types, lipid droplets in the cytoplasm were surrounded by unit membranes. Ultrastructural evidence of the involvement of the Golgi apparatus in the formation of the secretory vacuoles was obtained. The process of secretion involved the fusion of the boundary unit membrane of the vacuole with the plasma membrane and the release of the vacuolar content alone into the lumen. No evidence of holocrine processes was observed in this study. In addition to lipids, vacuoles contained materials whose solubility properties clearly differed from those of lipids. There appear to be variations in the ultrastructural characteristics of the vacuole content of the different types of secretory cell.
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