Abstract
A new electrophoretic variant of 6-phosphogluconate dehydrogenase (6PGD) has been detected in flies of a laboratoryMusca domestica strain. This variant is to be added to the two already described, PGD-A and PGD-B, identified by a fast-weak and a slow-thick electrophoretic band, respectively. The new variant, PGD-C, has the same mobility as PGD-A but provides a more intensely stained band; therefore it can be described as a fast-thick phenotype. The staining intensity of PGD-C is slightly lower than that of PGD-B. Genetic and densitometric tests have shown that the different levels of enzymatic activity of the two fast variants A and C are inherited as alternative genetic units, and they have been interpreted as one aspect of the phenotypic expression of twoPgd alleles, namely,Pgd A andPgd C. These alleles determine both the rates of electrophoretic mobility (fast in both cases) and the levels of activity (low for A, strong for C; shown by weak or thick stained electrophoretic bands). Similarly, the two distinctive features of PGD-B, namely, slow mobility and high activity level, are always jointly inherited and appear as two pleiotropic aspects of the phenotype coded for by thePgd B allele. ThePgd B/PgdC heterozygous flies provide a slightly asymmetrical three-banded zymogram, while thePgd A/PgdC combination leads to a single-banded pattern, showing the same mobility as the parents and an intermediate staining intensity. The quantitative analysis of enzyme activity of 6PGD zymograms, performed through densitometric methods, has led to the recognition of three different activity levels coded for byPgd alleles, one of which, namely,Pgd C, would not have been detected using electrophoretic methods alone.
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This investigation was partially supported by Research Grant 78. 01407. 04 from the Consiglio Nazionale delle Ricerche (CNR), Rome, Italy.
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Gasperi, G., Malacrida, A. & Milani, R. 6-phosphogluconate dehydrogenase activity variants inMusca domestica L.: A further allele at thePgd locus as proved by densitometric assay. Biochem Genet 21, 109–121 (1983). https://doi.org/10.1007/BF02395395
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DOI: https://doi.org/10.1007/BF02395395