Imprecise excision of the insertion in Myo31DFKG02246, resulting in a deletion of genomic DNA which includes Myo31DF sequences.
The dextral (right-handed) 360% rotation that takes place in the male genitalia of wild type flies during pupal development is reversed (sinistral) in homozygous Myo31DFK2 mutants. Heterozygotes are similar to wild type.
Mutant males show sinistral male genitalia rotation (instead of the wild-type dextral rotation).
Mutant males show inverted genitalia rotation compared to wild-type, showing sinistral rotation instead of dextral rotation.
Myo31DFK2 has male genitalia phenotype, enhanceable by Myo61F1
Myo31DFK2 has male genitalia phenotype, enhanceable by Myo61F1/Myo95E1
Myo31DFK2 has male genitalia phenotype, non-enhanceable by Myo95E1
Myo31DFK2 has male genitalia phenotype, non-suppressible by Scer\GAL4ptc-559.1/Myo95EUAS.B
Myo31DFK2 has male genitalia phenotype, non-suppressible by Scer\GAL4ptc-559.1/Myo61FUAS.cHa
Myo31DFK2, Myo61FUAS.cHa, Scer\GAL4ptc-559.1 has male genitalia phenotype
Homozygous Myo61F1 enhances the change in direction of male genitalia rotation seen in Myo31DFK2 mutant pupae. As in Myo31DFK2 mutants alone, the double mutants undergo a left-handed (sinistral) rotation, rather than the 360% dextral (right-handed) rotation seen in wild type flies, but a greater proportion undergo a full 360[o] sinistral rotation in the presence of Myo61F1.
Homozygous Myo95E1 does not enhance the change in direction of male genitalia rotation seen in Myo31DFK2 mutant pupae. As in Myo31DFK2 mutants alone, the double mutants undergo a left-handed (sinistral) rotation, rather than the 360[o] dextral (right-handed) rotation seen in wild type flies.
Myo61F1/Df(3L)BSC250 enhances the change in direction of male genitalia rotation seen in Myo31DFK2 mutant pupae. As in Myo31DFK2 mutants alone, the double mutants undergo a left-handed (sinistral) rotation, rather than the 360[o] dextral (right-handed) rotation seen in wild type flies, but a greater proportion undergo a full 360[o] sinistral rotation in the presence of Myo61F1/Df(3L)BSC250.
The presence of homozygous Myo61F1 and Myo95E1 mutations enhances the change in direction of male genitalia rotation seen in Myo31DFK2 mutant pupae. As in Myo31DFK2 mutants alone, the triple mutants undergo a left-handed (sinistral) rotation, rather than the 360[o] dextral (right-handed) rotation seen in wild type flies, but a greater proportion undergo a full 360[o] sinistral rotation in the presence of Myo61F1 and Myo95E1 mutations.
Expression of Myo95EScer\UAS.B under the control of Scer\GAL4ptc-559.1 does not suppress the change in direction of male genitalia rotation seen in Myo31DFK2/Myo31DFL152 mutant pupae. Mutants expressing Myo95EScer\UAS.B continue to exhibit the left-handed (sinistral) rotation seen in Myo31DFK2/Myo31DFL152 mutations, as opposed to the dextral (right-handed) rotation seen in wild type.
Expression of Myo61FScer\UAS.cHa under the control of Scer\GAL4ptc-559.1 does not suppress the change in direction of male genitalia rotation seen in Myo31DFK2/Myo31DFL152 mutant pupae. Mutants expressing Myo61FScer\UAS.cHa continue to exhibit the left-handed (sinistral) rotation seen in Myo31DFK2/Myo31DFL152 mutations, as opposed to the dextral (right-handed) rotation seen in wild type. Expressing Myo61FScer\UAS.cHa in Myo31DFK2 heterozygotes produces partial sinistral phenotypes.
Myo31DFL152/Myo31DFK2 is rescued by Scer\GAL4ptc-559.1/Myo31DFUAS.GFP
Expression of Myo31DFScer\UAS.T:Avic\GFP under the control of Scer\GAL4ptc-559.1 completely rescues the change in direction of male genitalia rotation seen in Myo31DFK2/Myo31DFL152 mutant pupae. Mutants expressing Myo31DFScer\UAS.T:Avic\GFP undergo the 360[o] dextral (right-handed) rotation rather than the left-handed (sinistral) rotation seen in Myo31DFK2/Myo31DFL152 mutations.