Mouse Dach2 mutants do not exhibit gross defects in eye development or brain function.

Drosophila dachshund is a critical regulator of eye, brain, and limb formation. Vertebrate homologs, Dach1 and Dach2, are expressed in the developing retina, brain, and limbs, suggesting functional conservation of the dachshund/Dach gene family. Dach1 mutants die postnatally, but exhibit grossly normal development.

Whole-mount analysis reveals normal numbers of dopaminergic neurons following misexpression of alpha-Synuclein in Drosophila.

Previously published reports have suggested that misexpression of alpha-Synuclein in the Drosophila central nervous system causes neurodegeneration and progressive age-dependent locomotor dysfunction similar to pathologic and clinical manifestations of Parkinson's disease. The number of dopaminergic (DA) neurons in these studies was assessed using immunohistochemistry with an anti-tyrosine hydroxylase antibody on sequential paraffin sections of fly brains. In contrast, we do not observe any DA cell loss in alpha-Synuclein expressing fly brains when using whole-mount immunohistochemistry as an assay.

Drosophila parkin mutants have decreased mass and cell size and increased sensitivity to oxygen radical stress.

Mutations in the gene parkin in humans (PARK2) are responsible for a large number of familial cases of autosomal-recessive Parkinson disease. We have isolated a Drosophila homolog of human PARK2 and characterized its expression and null phenotype. parkin null flies have 30% lower mass than wild-type controls which is in part accounted for by a reduced cell size and number.