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HETEROCHROMATIC POSITION EFFECT AT THE ROSY LOCUS OF DROSOPHILA MELANOGASTER: CYTOLOGICAL, GENETIC AND BIOCHEMICAL CHARACTERIZATION
C. A. Rushlow 1 and A. Chovnick 1
1 Molecular Genetics and Cell Biology Section, Biological Sciences
Group, The University of Connecticut, Storrs, Connecticut 06268
This report describes cytological, genetic and biochemical studies
designed to characterize two 
-radiation induced, apparent "underproducer"
variants of the rosy locus (ry:3-52.0), ryps1149
and ryps11136. The following observations
provide a compelling basis for their diagnosis as heterochromatic position
effect variants. (1) They are associated with rearrangements that place heterochromatin
adjacent to the rosy region of chromosome 3 (87D). (2) The effect
of these mutations on rosy locus expression is subject to modification by
abnormal Y chromosome content. (3) The rearrangement alters only
the expression of the rosy allele on the same chromosome (cis-acting).
(4) The Y chromosome modification is only on the position-affected
allele's expression. (5) The recessive lethality associated with the rearrangements
relate to specific rosy region vital loci, and for ryps
11136, the lethality is not Y chromosome modified. (6)
The peptide product of the position-affected allele is qualitatively normal
by several criteria. (7) Heterozygous deletion of 87E2-F2 is a suppressor
of the rosy position effect. (8) The rosy position effect on XDH production
may be assayed in whole larvae and larval fat body tissue as well as in adults.
Accepted on June 14, 1984
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