THE RELATIONSHIPS AMONG TRANSMISSION FREQUENCY, MALE RECOMBINATION AND PROGENY PRODUCTION IN DROSOPHILA MELANOGASTER

Yuichiro Hiraizumi ¹

¹ Department of Zoology, The University of Texas at Austin, Austin, Texas 78712

The T-007 second chromosome line, which was originally isolated in 1970 from a natural population of Drosophila melanogaster at Harlingen, south Texas, has previously been shown to be associated with several unusual genetic phenomena. In the present study, two characteristics, distorted transmission frequency and male recombination, were analyzed in relation to the progeny production of T-007 heterozygous individuals. The following points were established: (1) Distorted transmission frequency in the T-007 heterozygous male was mainly due to "elimination" of T-007 chromosomes among the progeny, while no such elimination occurred for the normal partner chromosome. (2) Transmission frequency and progeny production of the T-007 heterozygous females were normal, or at least almost normal. (3) The frequency of male recombination increased with an increasing degree of distortion. This was due to an increased number of recombinants produced per male and to a decreased number of progeny receiving the T-007 chromosome.