Add to ORKGThe locus ovarian tumor (otu) is involved in several aspects of oogenesis in Drosophila melanogaster. The possible role of otu in the determination of the sexual identity of germ cells has not been extensively explored. Some otu alleles produce a phenotype known as ovarian tumors: ovarioles are filled with numerous poorly differentiated germ cells. We show that these mutant germ cells have a morphology similar to primary spermatocytes and that they express male germ line-specific reporter genes. This indicates that they are engaged along the male pathway of germ line differentiation. Consistent with this conclusion, we found that the splicing of Sex-lethal (Sxl) pre-mRNAs occurs in the male-specific mode in otu-transformed germ cells. The p...
The female-sterile ovarian tumor gene, otu, is located in cytological region 7F1 on the Drosophila m...
We identified a new gene, stand still (stil), required in the female germline for proper survival, s...
A study in Drosophila shows how being male requires the constant molecular vigilance of a gene that ...
Mutations at a few genetic loci in Drosophila cause ovarian tumors with hundreds of poorly different...
Germline sex determination is a key aspect of sexual development that allows germ cells to develop a...
Only a few Drosophila melanogaster germline sex determination genes are known, and there have been n...
The ovo and ovarian tumor genes are required during early and late stages of Drosophila oogenesis. T...
Germ-line sex determination in Drosophila melanogaster requires an assessment of the number of X chr...
Mutations in ovo result in several different phenotypes, which we show are due to the regulation of ...
AbstractDrosophila germline sex determination is controlled by a group of genes expressed at early s...
The Drosophila ovarian tumour gene is required at multiple times in the germline for oogenesis. A se...
The Drosophila melanogaster ovarian tumor (otu gene, required for normal proliferation and different...
Mutations within the ovarian tumor (otu) gene result in abnormal ovarian development. It has been pr...
AbstractThe Drosophila melanogaster ovarian tumor (otu gene, required for normal proliferation and d...
Mutations at the ovarian tumor (otu) gene of Drosophila melanogaster cause female sterility and gene...
The female-sterile ovarian tumor gene, otu, is located in cytological region 7F1 on the Drosophila m...
We identified a new gene, stand still (stil), required in the female germline for proper survival, s...
A study in Drosophila shows how being male requires the constant molecular vigilance of a gene that ...
Mutations at a few genetic loci in Drosophila cause ovarian tumors with hundreds of poorly different...
Germline sex determination is a key aspect of sexual development that allows germ cells to develop a...
Only a few Drosophila melanogaster germline sex determination genes are known, and there have been n...
The ovo and ovarian tumor genes are required during early and late stages of Drosophila oogenesis. T...
Germ-line sex determination in Drosophila melanogaster requires an assessment of the number of X chr...
Mutations in ovo result in several different phenotypes, which we show are due to the regulation of ...
AbstractDrosophila germline sex determination is controlled by a group of genes expressed at early s...
The Drosophila ovarian tumour gene is required at multiple times in the germline for oogenesis. A se...
The Drosophila melanogaster ovarian tumor (otu gene, required for normal proliferation and different...
Mutations within the ovarian tumor (otu) gene result in abnormal ovarian development. It has been pr...
AbstractThe Drosophila melanogaster ovarian tumor (otu gene, required for normal proliferation and d...
Mutations at the ovarian tumor (otu) gene of Drosophila melanogaster cause female sterility and gene...
The female-sterile ovarian tumor gene, otu, is located in cytological region 7F1 on the Drosophila m...
We identified a new gene, stand still (stil), required in the female germline for proper survival, s...
A study in Drosophila shows how being male requires the constant molecular vigilance of a gene that ...