Quantitative Analysis of Gene Function in the Drosophila Embryo

Quantitative Analysis of Gene Function in the Drosophila Embryo

William D. Tracey, Jr.^a, Xiangqun Ning^a, Martin Klingler^a, Sunita G. Kramer^a, and J. Peter Gergen^a
^a Department of Biochemistry and Cell Biology and the Institute for Cell and Developmental Biology, State University of New York, Stony Brook, New York 11794-5215

Corresponding author: J. Peter Gergen, Department of Biochemistry and Cell Biology, SUNY, Stony Brook, NY 11794-5215., pgergen{at}life.bio.sunysb.edu (E-mail)

Communicating editor: T. C. KAUFMAN

The specific functions of gene products frequently depend onthe developmental context in which they are expressed. Thus,studies on gene function will benefit from systems that allowfor manipulation of gene expression within model systems wherethe developmental context is well defined. Here we describea system that allows for genetically controlled overexpressionof any gene of interest under normal physiological conditionsin the early Drosophila embryo. This regulated expression isachieved through the use of Drosophila lines that express amaternal mRNA for the yeast transcription factor GAL4. Embryosderived from females that express GAL4 maternally activate GAL4-dependentUAS transgenes at uniform levels throughout the embryo duringthe blastoderm stage of embryogenesis. The expression levelscan be quantitatively manipulated through the use of lines thathave different levels of maternal GAL4 activity. Specific phenotypesare produced by expression of a number of different developmentalregulators with this system, including genes that normally donot function during Drosophila embryogenesis. Analysis of theresponse to overexpression of runt provides evidence that thispair-rule segmentation gene has a direct role in repressingtranscription of the segment-polarity gene engrailed. The maternalGAL4 system will have applications both for the measurementof gene activity in reverse genetic experiments as well as forthe identification of genetic factors that have quantitativeeffects on gene function in vivo.

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