1. Transformation of white locus DNA in drosophila: dosage compensation, zeste interaction, and position effects
- Author
-
Robert W. Levis, Tulle Hazelrigg, and Gerald M. Rubin
- Subjects
Genetics ,Dosage compensation ,Transcription, Genetic ,Chromosome Mapping ,Nucleic Acid Hybridization ,Locus (genetics) ,DNA Restriction Enzymes ,Pigments, Biological ,Biology ,Gene dosage ,Molecular biology ,General Biochemistry, Genetics and Molecular Biology ,Nucleic acid thermodynamics ,chemistry.chemical_compound ,Position effect ,Drosophila melanogaster ,chemistry ,Gene interaction ,Gene Frequency ,Transduction, Genetic ,Mutation ,DNA Transposable Elements ,Animals ,X chromosome ,DNA - Abstract
P-element-mediated DNA transformation was used to generate transformants carrying segments of DNA from the white locus of D. melanogaster. The vast majority of transduced copies of an 11.7 or a 14.3 kb segment of DNA from white successfully rescued the white- eye-color phenotype when inserted in many different chromosomal locations. However, two transformants with abnormal eye pigmentation--apparently a consequence of the genomic positions of the transduced white gene--were also recovered. In all seven cases tested, autosomal insertions of white, which is dosage-compensated in its normal location on the X chromosome, retained the property of dosage compensation. In contrast to the relative insensitivity of eye-color pigmentation and dosage compensation to genomic position, the transduced white DNA segments differed widely in their interactions with the zeste mutation, ranging from greater than normal repression by zeste to insensitivity to the presence of zeste.
- Published
- 1984