sni¹ mutants do not display any significant difference in life span as compared to controls when reared in 12h light, 12h dark cycles, but exhibit significantly decreased lifespan when reared in constant light; sni¹ mutants exhibit evidence of neurodegeneration, with vacuoles present in 9 day-old male brains and increasing in number in 19 day-old male brains, and vacuolization worsens when reared in constant light; climbing ability of sni¹ mutants is modestly but significantly impaired; a subset of sni¹ mutants display loss of circadian rhythm.

Mutant flies show age-related neurodegeneration; adults show significant vacuolisation of the cortex and neuropil in the brain which increases with age. Vacuolisation of the neuropils correlates with apoptosis of neurons in the corresponding cortex areas. 5 day old mutant flies have an intact set of lamina monopolar neurons that are surrounded by glia. By 15 days after eclosion, the mutant flies show the typical morphology of apoptosis in both neurons and glial cells of the lamina cortex. At 25 days after eclosion, few groups of lamina monopolar neurons are intact and an increased number of apoptotic bodies are seen. Hyperoxia treatment for 4 days enhances the brain degeneration phenotype of 7 day old mutant flies. Mutant flies have a reduced lifespan under normal oxygen conditions compared to wild-type flies. Under hyperoxia (99.5% oxygen), the mean and maximum lifespan of sni¹ flies is reduced by 76.6% and 33% respectively, suggesting a hypersensitive response to hyperoxia. Mutant flies have a sluggish walking phenotype that deteriorates with age. 1 day old mutant flies already show an impaired ability to perform in the negative geotaxis paradigm.

sni¹ has abnormal neuroanatomy | progressive phenotype, enhanceable by per⁰¹

sni¹ has abnormal locomotor behavior | adult stage phenotype, enhanceable by per⁰¹

sni¹ has increased rate of adult locomotory behavior | adult stage phenotype, non-enhanceable by Cint\AOX^UAS.cFa/Scer\GAL4^nSyb.PS

sni¹ has increased rate of adult locomotory behavior | adult stage phenotype, non-enhanceable by Cint\AOX^UAS.cFa/Scer\GAL4^GMR23E10

sni¹ has abnormal sleep | adult stage phenotype, non-enhanceable by Scer\GAL4^nSyb.PS/Hk^GD15937

sni¹ has increased rate of adult locomotory behavior | adult stage phenotype, non-enhanceable by Scer\GAL4^nSyb.PS/Hk^GD15937

sni¹ has increased rate of adult locomotory behavior | adult stage phenotype, non-enhanceable by Scer\GAL4^GMR23E10/Hk^GD15937

sni¹ has increased sleep | adult stage phenotype, suppressible by Scer\GAL4^GMR23E10/Hk^GD15937

sni¹ has abnormal sleep | adult stage phenotype, suppressible by Scer\GAL4^GMR23E10/Hk^GD15937

sni¹ has increased sleep | adult stage phenotype, suppressible by Cint\AOX^UAS.cFa/Scer\GAL4^nSyb.PS

sni¹ has increased sleep | adult stage phenotype, suppressible by Cint\AOX^UAS.cFa/Scer\GAL4^GMR23E10

sni¹ has abnormal sleep | adult stage phenotype, suppressible by Cint\AOX^UAS.cFa/Scer\GAL4^nSyb.PS

sni¹ has abnormal sleep | adult stage phenotype, suppressible by Cint\AOX^UAS.cFa/Scer\GAL4^GMR23E10

sni¹ has increased sleep | adult stage phenotype, suppressible by Scer\GAL4^nSyb.PS/Hk^GD15937

sni¹ has increased rate of adult locomotory behavior | adult stage phenotype, non-suppressible by Cint\AOX^UAS.cFa/Scer\GAL4^nSyb.PS

sni¹ has increased rate of adult locomotory behavior | adult stage phenotype, non-suppressible by Cint\AOX^UAS.cFa/Scer\GAL4^GMR23E10

sni¹ has abnormal sleep | adult stage phenotype, non-suppressible by Scer\GAL4^nSyb.PS/Hk^GD15937

sni¹ has increased rate of adult locomotory behavior | adult stage phenotype, non-suppressible by Scer\GAL4^GMR23E10/Hk^GD15937

sni¹ has increased rate of adult locomotory behavior | adult stage phenotype, non-suppressible by Scer\GAL4^nSyb.PS/Hk^GD15937

sni¹ has vacuole | adult stage | progressive phenotype, enhanceable by per⁰¹

sni¹ has adult brain | progressive phenotype, enhanceable by per⁰¹