Nucleotide substitution: C?T.
Amino acid replacement: ?432term.
C20134100T
C?T
R432term | gig-PA; R432term | gig-PB
?432term
gig64 mutants exhibit large mutant patches (i.e discoloration and a rough appearance).
Rbf15aΔ, gig64 has increased cell death phenotype, suppressible by hid05014
Rbf15aΔ, gig64 has increased cell death phenotype, suppressible by Dronc1
Rbf15aΔ, gig64 has increased cell death phenotype, suppressible by E2f1i2
Rbf15aΔ, gig64 has increased cell death phenotype, suppressible by S6kl-1
Rbf15aΔ, gig64 has increased cell death phenotype
Rbf15aΔ, gig64 has eye disc posterior to the morphogenetic furrow phenotype, suppressible by Dronc1
Rbf15aΔ, gig64 has eye | somatic clone phenotype, suppressible by E2f1i2
Rbf15aΔ, gig64 has eye | somatic clone phenotype, suppressible by S6kl-1
Rbf15aΔ, gig64 has eye | somatic clone phenotype
gig64/Rbf15aΔ mutant eye clones are smaller than gig64 mutant eye clones. Adult eyes with gig64/Rbf15aΔ double mutant cones are smaller and display a rough appearance, compared to wild-type eyes. This correlates with an increase in apoptosis in both anterior and posterior (to the morphogenic furrow) clones in double mutant eye discs. This synergistic induction of cell death is also seen in the wing disc.
The presence of a W05014 background significantly decreases gig192/Rbf15aΔ induced cell death. Some cell death is still observed, particularly in the anterior of the eye disc.
The presence of a Nc1 background significantly decreases gig192/Rbf15aΔ induced cell death in the posterior (the differentiating part of the eye disc). However Nc1 has little effect on cell death of gig192/Rbf15aΔ clones in the anterior, the proliferating part of the eye disc. These triple mutants exhibit an increase in mutant tissue in the eye as well as their overall size.
The presence of an E2fi2 background significantly decreases gig192/Rbf15aΔ induced cell death in the eye. In addition, much larger gig192/Rbf15aΔ double mutant clones are observed in adult eyes.
The presence of a S6kl-1 background significantly decreases gig192/Rbf15aΔ induced cell death in the eye. In addition, much larger gig192/Rbf15aΔ double mutant clones are observed in adult eyes.