Molecular Analysis of Drosophila eyes absent Mutants Reveals Features of the Conserved Eya Domain

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Molecular Analysis of Drosophila eyes absent Mutants Reveals Features of the Conserved Eya Domain

Quang T. Bui^a, John E. Zimmerman^a, Haixi Liu^a, and Nancy M. Bonini^a
^a Department of Biology, University of Pennsylvania, Philadelphia, Pennsylvania 19104-6018

Corresponding author: Nancy M. Bonini, Department of Biology, 306 Leidy Laboratory, 415 S. University Ave., University of Pennsylvania, Philadelphia, PA 19104-6018., nbonini{at}sas.upenn.edu (E-mail)

Communicating editor: T. SCHÜPBACH

The eyes absent (eya) gene is critical to eye formation in Drosophila;upon loss of eya function, eye progenitor cells die by programmedcell death. Moreover, ectopic eya expression directs eye formation,and eya functionally synergizes in vivo and physically interactsin vitro with two other genes of eye development, sine oculisand dachshund. The Eya protein sequence, while highly conservedto vertebrates, is novel. To define amino acids critical tothe function of the Eya protein, we have sequenced eya alleles.These mutations have revealed that loss of the entire Eya Domainis null for eya activity, but that alleles with truncationswithin the Eya Domain display partial function. We then extendedthe molecular genetic analysis to interactions within the EyaDomain. This analysis has revealed regions of special importanceto interaction with Sine Oculis or Dachshund. Select eya missensemutations within the Eya Domain diminished the interactionswith Sine Oculis or Dachshund. Taken together, these data suggestthat the conserved Eya Domain is critical for eya activity andmay have functional subregions within it.

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