Abstract
The suppressor gene,su(s)2, inDrosophila melanogaster restores the production of red and brown eye pigments for some purple and vermilion mutant alleles, respectively. We showed previously that the product of thesu(s)+ allele caused inhibition of the sepiapterin synthase A produced by the purple mutant but did not affect the wild-type enzyme. Suppression was accomplished by removingsu(s)+ from the genome. We now report that the tryptophan oxygenase, produced by suppressible vermilion alleles, is also inhibited by extracts fromsu(s)+ flies. The inhibition of the vermilion enzyme can be reduced or eliminated, respectively, by prior storage of the extract at 4 or −20°C or by boiling, whereas the wild-type enzyme is not affected by extracts ofsu(s)+ flies. Also, when the suppressible vermilion strain is raised on certain diets, brown eye pigment production occurs. This epigenetic suppression was reduced by the presence of an extra copy ofsu(s)+ in the genome. These data support a posttranslational mechanism for regulation of enzyme activity in which the activity of the mutant enzyme is reduced by the product of thesu(s)+ allele. How thesu(s)+ gene product can distinguish between the normal and the mutant forms of these two enzymes is discussed, along with other mechanisms for suppression that are currently under investigation.
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This work was supported in part by a grant from the KOSEF, Korea Science and Engineering Foundation, and the National Science Foundation under the U.S.-East Asia Cooperative Science Program as well as the Office of Health and Environmental Research, U.S. Department of Energy, under Contract DE-AC05-840R21400 with the Martin Marietta Energy Systems, Inc.
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Yim, J.J., Yoon, J., Park, Y.S. et al. Mechanism of suppression inDrosophila: Regulation of tryptophan oxygenase by thesu(s) + allele. Biochem Genet 25, 359–374 (1987). https://doi.org/10.1007/BF00554545
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DOI: https://doi.org/10.1007/BF00554545