Marie C. Sullivan scite author profile

Marie C. Sullivan

3Publications

144Citation Statements Received

1Citation Statement Given

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Syracuse University

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Transport defects as the physiological basis for eye color mutants of Drosophila melanogaster

Sullivan

1975

Biochem Genet

132

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Kynurenine-H3 transport and conversion to 3-hydroxykynurenine were studied in organ culture using the Malpighian tubules and developing eyes from wild type and the eye color mutants w, st, ltd, ca, and cn of Drosophila melanogaster. Malpighian tubules from wild type have the ability to concentrate kynurenine and convert it to 3-hydroxykynurenine. The tubules from w, st, ltd, and ca are deficient in the ability to transport kynurenine, as are the eyes of the mutants w, st, and ltd. This defect in kynurenine transport provides a physiological explanation for the phenotypic properties of the mutants. The relationship of these measurements to previous observations on these eye color mutants is discussed and the transport defect hypothesis is consistently supported. We have concluded that several of the eye color mutants in Drosophila are transport mutants.

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Genetic and functional analysis of tryptophan transport in Malpighian tubules of Drosophila

et al. 1980

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Dissected Malpighian tubules from wild type and the eye color mutant white of Drosophila were compared with respect to their abilities to transport tryptophan and kynurenine into tubule cells. It was determined that mutation at white greatly impairs the ability of Malpighian tubule cells to take up tryptophan. Functional studies on the extracellular spaces and ultrastructural observations indicated no differences in these respects between wild type and white tubules. It is consistent with several observations that much of the tryptophan associated with white exists in the intercellular spaces. Furthermore, the uptake of tryptophan by the w+ system of wild type tubules is inhibited by the analogue 5-methyl-tryptophan. However, the incorporation of radioactive tryptophan into protein in tubule cells from wild type and white occurs at the same rates and is not affected by 5-methyl-tryptophan. Therefore, it is apparent that Malpighian tubules have a transport system that enables entry of tryptophan into a cellular pool and that this cellular pool is initially independent of the tryptophan pool used for protein synthesis. The mutant white lacks this transport system. From these studies and others it appears that compartmentalization of cellular pools may be brought about via the utilization of specific membrane transport systems.

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DEVELOPMENTAL AND GENETIC STUDIES ON KYNURENINE HYDROXYLASE FROM DROSOPHILA MELANOGASTER

Sullivan

Kitos

Sullivan

1973

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The level of kynurenine hydroxylase was measured throughout the development of wild type and the eye color mutants v, cn, st, ltd, cd, kar, w, ca, bri and pP of Drosophila melanogaster. In all cases except cn a bimodal distribution of enzyme activity during development was observed. Activity is initially detectable in second instar. A maximum is reached in early third instar. Activity declines prior to puparium formation. Shortly after pupation, activity rises dramatically to reach a maximum about five times the peak larval level. Maximum activity persists for a short time, and then falls sharply prior to emergence. No activity is detectable in cn, cn3, or cn35K. In pupae which have zero, one, two or three doses of the cn + allele, activity is proportional to the number of the + alleles. This provides further evidence that the cn locus contains the structural gene for kynurenine hydroxylase. Kynurenine hydroxylase is a useful gene product for studying the events of imaginal disc differentiation.

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Marie C. Sullivan

Transport defects as the physiological basis for eye color mutants of Drosophila melanogaster

Genetic and functional analysis of tryptophan transport in Malpighian tubules of Drosophila

DEVELOPMENTAL AND GENETIC STUDIES ON KYNURENINE HYDROXYLASE FROM DROSOPHILA MELANOGASTER

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