The bereft Gene, a Potential Target of the Neural Selector Gene cut, Contributes to Bristle Morphogenesis

The bereft Gene, a Potential Target of the Neural Selector Gene cut, Contributes to Bristle Morphogenesis

Kirsten E. Hardiman^a, Rachel Brewster^a, Shaema M. Khan^a, Monika Deo^a, and Rolf Bodmer^a
^a Department of Biology, University of Michigan, Ann Arbor, Michigan 48109-1048

Corresponding author: Rolf Bodmer, University of Michigan, 830 N. University, Ann Arbor, MI 48109-1048., rolf{at}umich.edu (E-mail)

Communicating editor: A. J. LOPEZ

The neural selector gene cut, a homeobox transcription factor,is required for the specification of the correct identity ofexternal (bristle-type) sensory organs in Drosophila. Targetsof cut function, however, have not been described. Here, westudy bereft (bft) mutants, which exhibit loss or malformationof a majority of the interommatidial bristles of the eye andcause defects in other external sensory organs. These mutantswere generated by excising a P element located at chromosomallocation 33AB, the enhancer trap line E8-2-46, indicating thata gene near the insertion site is responsible for this phenotype.Similar to the transcripts of the gene nearest to the insertion,reporter gene expression of E8-2-46 coincides with Cut in thesupport cells of external sensory organs, which secrete thebristle shaft and socket. Although bft transcripts do not obviouslycode for a protein product, its expression is abolished in bftdeletion mutants, and the integrity of the bft locus is requiredfor (interommatidial) bristle morphogenesis. This suggests thatdisruption of the bft gene is the cause of the observed bristlephenotype. We also sought to determine what factors regulatethe expression of bft and the enhancer trap line. The correctspecification of individual external sensory organ cells involvesnot only cut, but also the lineage genes numb and tramtrack.We demonstrate that mutations of these three genes affect theexpression levels at the bft locus. Furthermore, cut overexpressionis sufficient to induce ectopic bft expression in the PNS andin nonneuronal epidermis. On the basis of these results, wepropose that bft acts downstream of cut and tramtrack to implementcorrect bristle morphogenesis.

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