The Drosophila melanogaster Sex Determination Gene sisA Is Required in Yolk Nuclei for Midgut Formation

The Drosophila melanogaster Sex Determination Gene sisA Is Required in Yolk Nuclei for Midgut Formation

Jeffrey J. Walker^a, Karin K. Lee^a, Rushin N. Desai^a, and James W. Erickson^a
^a Department of Biological Sciences, Columbia University, New York, New York, 10027

Corresponding author: James W. Erickson, Department of Biological Sciences, Columbia University, 600 Fairchild, 1212 Amsterdam Ave., Mail Code 2402, New York, NY 10027., erickson{at}cubsps.bio.columbia.edu (E-mail)

Communicating editor: T. SCHÜPBACH

During sex determination, the sisterlessA (sisA) gene functionsas one of four X:A numerator elements that set the alternativemale or female regulatory states of the switch gene Sex-lethal.In somatic cells, sisA functions specifically in sex determination,but its expression pattern also hints at a role in the yolkcell, a syncytial structure believed to provide energy and nutrientsto the developing embryo. Previous studies of sisA have beenlimited by the lack of a null allele, leaving open the possibilitythat sisA has additional functions. Here we report the isolationand molecular characterization of four new sisA alleles includingtwo null mutations. Our findings highlight key aspects of sisAstructure-function and reveal important qualitative differencesbetween the effects of sisA and the other strong X:A numeratorelement, sisterlessB, on Sex-lethal expression. We use genetic,expression, clonal, and phenotypic analyses to demonstrate thatsisA has an essential function in the yolk nuclei of both sexes.In the absence of sisA, endoderm migration and midgut formationare blocked, suggesting that the yolk cell may have a directrole in larval gut development. To our knowledge, this is thefirst report of a requirement for the yolk nuclei in Drosophiladevelopment.

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