Walter J. Gehring scite author profile

The Drosophila gene eyeless (ey) encodes a transcription factor with both a paired domain and a homeodomain. It is homologous to the mouse Small eye (Pax-6) gene and to the Aniridia gene in humans. These genes share extensive sequence identity, the position of three intron splice sites is conserved, and these genes are expressed similarly in the developing nervous system and in the eye during morphogenesis. Loss-of-function mutations in both the insect and in the mammalian genes have been shown to lead to a reduction or absence of eye structures, which suggests that ey functions in eye morphogenesis. By targeted expression of the ey complementary DNA in various imaginal disc primordia of Drosophila, ectopic eye structures were induced on the wings, the legs, and on the antennae. The ectopic eyes appeared morphologically normal and consisted of groups of fully differentiated ommatidia with a complete set of photoreceptor cells. These results support the proposition that ey is the master control gene for eye morphogenesis. Because homologous genes are present in vertebrates, ascidians, insects, cephalopods, and nemerteans, ey may function as a master control gene throughout the metazoa.

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Homeodomain Proteins

Gehring¹,

Affolter²,

Bürglin³

1994

Annu. Rev. Biochem.

882

681

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Homeodomain-DNA recognition

Gehring

Qian²,

Billeter³

et al. 1994

Cell

763

465

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Homeo Boxes in the Study of Development

Gehring

1987

Science

894

420

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The body plan of Drosophila is determined to a large extent by homeotic genes, which specify the identity and spatial arrangement of the body segments. Homeotic genes share a characteristic DNA segment, the homeo box, which encodes a defined domain of the homeotic proteins. The homeo domain seems to mediate the binding to specific DNA sequences, whereby the homeotic proteins exert a gene regulatory function. By isolating the normal Antennapedia gene, fusing its protein-coding sequences to an inducible promoter, and reintroducing this fusion gene into the germline of flies, it has been possible to transform head structures into thoracic structures and to alter the body plan in a predicted way. Sequence homologies suggest that similar genetic mechanisms may control development in higher organisms.

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Pax 6: mastering eye morphogenesis and eye evolution

Gehring¹,

Ikeo²

1999

Trends in Genetics

684

393

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Walter J. Gehring

Induction of Ectopic Eyes by Targeted Expression of the eyeless Gene in Drosophila

Homeodomain Proteins

Homeodomain-DNA recognition

Homeo Boxes in the Study of Development

Pax 6: mastering eye morphogenesis and eye evolution

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