The yemanuclein-alpha: a new Drosophila DNA binding protein specific for the oocyte nucleus

Abstract

The Drosophila yG 4.5 gene (now called yemanuclein-alpha gene), which maps at 98F, is a member of the yema gene cluster isolated in a search for differentially expressed maternal genes. The yemanuclein-alpha transcript (formerly yT 4.5) is specifically expressed in the female germ cells at early oogenic stages and displays a graded distribution along the antero-posterior axis of the oocyte. These provocative features are reminiscent of that of K10, bicoid and Bicaudal-D gene transcripts and lead us to hypothesize that the yemanuclein-alpha gene plays a key role in egg organization. We show in the present work that the yemanuclein-alpha is a nuclear protein highly specific for the oocyte nucleus. The sequence analysis of the 5696 bp EcoRI fragment containing the yemanuclein-alpha gene, and of 5 overlapping cDNAs, reveals a 3006 nucleotides long open reading frame (ORF) flanked by long untranslated 5' and 3' sequences. This ORF predicts a 109,215 kDa protein which is basic (pHi: 8.57), and serine rich (12.08%). It contains a 40 amino acid acidic domain in the first third of the protein with a potential alpha-helix organization; this domain has some similarity with the nucleolin acidic domain. Parts of the yemanuclein-alpha sequence are likely to form secondary structures known to interact with DNA. We demonstrate the DNA binding activity of the yemanuclein-alpha by affinity chromatography experiments. Our data indicate that the yemanuclein-alpha shares some of the features which are characteristic of genuine transcriptional activators.