A Selective Screen Reveals Discrete Functional Domains in Drosophila Nanos

A Selective Screen Reveals Discrete Functional Domains in Drosophila Nanos

Gustavo Arrizabalaga^a and Ruth Lehmann^b
^a Biology Department, Massachusetts Institute of Technology, Cambridge, Massachusetts 02139-4307
^b Howard Hughes Medical Institute, Developmental Genetics Program, Skirball Institute at New York University Medical School, New York 10016

Corresponding author: Ruth Lehmann, New York University Medical Center, Skirball Institute, Developmental Genetics Program, 540 First Ave., 4th Fl., New York, NY 10016., lehmann{at}saturn.med.nyu.edu (E-mail)

Communicating editor: T. SCHÜPBACH

The Drosophila protein Nanos encodes an evolutionarily conservedprotein with two zinc finger motifs. In the embryo, Nanos proteinfunction is required for establishment of the anterior-posteriorbody pattern and for the migration of primordial germ cells.During oogenesis, Nanos protein is involved in the establishmentand maintenance of germ-line stem cells and the differentiationof oocyte precursor cells. To establish proper embryonic patterning,Nanos acts as a translational regulator of hunchback RNA. Nanos'targets for germ cell migration and development are not known.Here, we describe a selective genetic screen aimed at isolatingnew nanos alleles. The molecular and genetic analysis of 68new alleles has allowed us to identify amino acids criticalfor nanos function. This analysis shows that the CCHC motifs,which coordinate two metal ions, are essential for all knownfunctions of Nanos protein. Furthermore, a region C-terminalto the zinc fingers seems to constitute a novel functional domainwithin the Nanos protein. This "tail region" of Nanos is requiredfor abdomen formation and germ cell migration, but not for oogenesis.

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