Overexpression Beadex Mutations and Loss-of-Function heldup-a Mutations in Drosophila Affect the 3' Regulatory and Coding Components, Respectively, of the Dlmo Gene

Overexpression Beadex Mutations and Loss-of-Function heldup-a Mutations in Drosophila Affect the 3' Regulatory and Coding Components, Respectively, of the Dlmo Gene

Michal Shoresh^a, Sara Orgad^a, Orit Shmueli^a, Ruth Werczberger^a, Dana Gelbaum^a, Shirly Abiri^a, and Daniel Segal^a
^a Department of Molecular Microbiology and Biotechnology, Tel-Aviv University, Tel-Aviv 69978, Israel

Corresponding author: Daniel Segal, Department of Molecular Microbiology and Biotechnology, Tel-Aviv University, Tel-Aviv 69978, Israel., dsegal{at}ccsg.tau.ac.il (E-mail).

Communicating editor: T. C. KAUFMAN

LIM domains function as bridging modules between different membersof multiprotein complexes. We report the cloning of a LIM-containinggene from Drosophila, termed Dlmo, which is highly homologousto the vertebrate LIM-only (LMO) genes. The 3' untranslated(UTR) of Dlmo contains multiple motifs implicated in negativepost-transcriptional regulation, including AT-rich elementsand Brd-like boxes. Dlmo resides in polytene band 17C1-2, whereBeadex (Bx) and heldup-a (hdp-a) mutations map. We demonstratethat Bx mutations disrupt the 3'UTR of Dlmo, and thereby abrogatethe putative negative control elements. This results in overexpressionof Dlmo, which causes the wing scalloping that is typical ofBx mutants. We show that the erect wing phenotype of hdp-a resultsfrom disruption of the coding region of Dlmo. This providesmolecular grounds for the suppression of the Bx phenotype byhdp-a mutations. Finally, we demonstrate phenotypic interactionbetween the LMO gene Dlmo, the LIM homeodomain gene apterous,and the Chip gene, which encodes a homolog of the vertebrateLIM-interacting protein NLI/Ldb1. We propose that in analogyto their vertebrate counterparts, these proteins form a DNA-bindingcomplex that regulates wing development.

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