Abstract
A small region of the genome of Drosophila melanogaster has been cloned in a series of overlapping phage. A length of 165 X 10(3) base-pairs of contiguous DNA that spans polytene chromosome region 35A4 to 35B1 and includes the structural gene for alcohol dehydrogenase (Adh) as well as at least two other genes, outspread (osp) and no-ocelli (noc), has been characterized by mapping chromosome aberrations to the DNA. The relationship between osp and Adh is surprising: of nine osp alleles associated with chromosome breakpoints, five map distal (i.e. 5') to Adh and four map proximal (i.e. 3') to this gene. None affects the expression of Adh. As defined by these and other breakpoints, the osp gene spans at least 52 X 10(3) base-pairs and overlaps the Adh gene. The noc gene, as defined by the mapping of nearly 30 breakpoints, is at least 50 X 10(3) base-pairs in size. Alleles of noc and noc- deletions show either of two kinds of interaction with the recessive lethality of l(2)br29ScoR+1, a lethal that maps immediately distal to noc. One class of noc allele is viable when heterozygous with ScoR+1, while the other class is lethal or semi-lethal. Both classes, however, are homozygous or hemizygous viable. The locations of these two classes of noc allele on the DNA fall into two clusters, with those that are viable with ScoR+1 located proximal to those that are not. The physical boundary between these classes lies at a site just distal to that of the breakpoint of the inversion associated with ScoR+1 itself.
