Identification of a transformer homolog in the acorn worm, Saccoglossus kowalevskii, and analysis of its activity in insect cells.

The transformer (tra) gene is an intermediate component of the sex determination hierarchy in many insect species. The homolog of tra is also found in two branchiopod crustacean species but is not known outside arthropods. We have isolated a tra homolog in the acorn worm, Saccoglossus kowalevskii, which is a hemichordate belonging to the deuterostome superphylum. The full-length complementary DNA (cDNA) of the S. kowalevskii tra homolog (Sktra) has a 3786-bp open reading frame that encodes a 1261-amino acid sequence including a TRA-CAM domain and an arginine/serine (RS)-rich domain, both of which are characteristic of TRA orthologs. Reverse transcription PCR (RT-PCR) analyses demonstrated that Sktra showed no differences in expression patterns between testes and ovaries, but its expression level was approximately 7.5-fold higher in the testes than in the ovaries. TRA, together with the protein product of the transformer-2 (tra-2) gene, assembles on doublesex (dsx) pre-messenger RNA (mRNA) via the cis-regulatory element, enhancing female-specific splicing of dsx in Drosophila. To understand functional conservation of the SkTRA protein as a dsx-splicing activator, we investigated whether SkTRA is capable of inducing female-specific splicing of the Drosophila dsx. Ectopic expression of Sktra cDNA in insect cultured cells did not induce the female-specific splicing of dsx. On the other hand, forced expression of Sktra-2 (a tra-2 homolog of S. kowalevskii) was able to induce the female-specific dsx splicing. These results demonstrate that the function as a dsx-splicing activator is not conserved in SkTRA even though SkTRA-2 is capable of functionally replacing the Drosophila TRA-2. We have also found a tra homolog in an echinoderm genome. This study provides the first evidence that that tra is conserved not only in arthropods but also in basal species of deuterostoms.

Analysis of the cell death-inducing ability of the ethylene response factors in group VIII of the AP2/ERF family.

The ethylene response factor (ERF) family is one of the largest families of plant-specific transcription factors. We have shown previously that the overexpression of the gene for NtERF3, a tobacco transcriptional repressor containing the ERF-associated amphiphilic repression (EAR) motif in the C-terminal region, induces hypersensitive reaction (HR)-like cell death. Many EAR motif-containing ERFs, including NtERF3, are clustered in group VIII of the ERF family. In this study, we aimed at revealing the cell death-inducing ability of group VIII ERFs and the correlation between ERFs and HR. The results showed that many of the EAR motif-containing ERFs classified into subgroup VIII-a of Arabidopsis, rice, and tobacco had cell death-inducing ability in tobacco leaves. Seven AtERFs in subgroup VIII-b did not induce cell death; however, some ERFs in subgroup VIII-b of rice and tobacco showed cell death-inducing ability. An expression analysis of group VIII ERFs in HR-inducing tobacco suggested that the cell death-inducing ability of NtERFs was not necessarily associated with induction of HR. In addition, it was revealed that the EAR motif-containing AtERFs in subgroup II-a also showed cell death-inducing ability. The influence of sequence variation in the EAR motif on the ability to induce cell death is also discussed.