Observations concerning the effects of radiations on the segregation of chromosomes

Abstract

Nondisjunction of X and of fourth chromosomes was observed following the exposure of immature oocytes of Drosophila melanogaster to doses of X-radiation of from 1000 to 4000 R. No evidence for a threshold was found in this range for either kind of trisomy; this evidence alone does not exclude the possibility that one might be found at some lower dose. The mating of the treated females with males having an attached-XY chromosome permitted the recovery of fertile males that would otherwise have been XO and sterile. Testing of these showed some 22% to be triplo-4, having two maternal fourth chromosomes. Marking the left arm of chromosome 4 with a small duplication made it possible to score marker losses such as might result from interchange with another acrocentric ( e.g., the X). There is a high coincidence of marker loss from chromosome 4 and both the XO and triplo-4 conditions, with the highest incidence of marker loss being when these have occurred together. The interpretation that the altered 4's are half-translocations resulting from X-4 interchange is further supported by the finding that they also show altered assortative behavior in compound-X females lacking a Y, when in combination with a standard fourth chromosome. A few show regular segregation from the attached-XY in the male, supporting the interpretation that they have the base of the X capped by the right arm of chromosome 4. It is argued that other trisomies may come about by mechanisms similar to that responsible for the triplo-4 condition. Furthermore, if rearrangement plays a part in the origin of trisomy, operating by altering division-I orientation as a result of heterologous conjunction maintained by chromatid interchange, it is unlikely that there will be a threshold for its induction.