DNA coding for bacteriophage T7 RNA polymerase was ligated to a vaccinia virus transcriptional promoter and integrated within the vaccinia virus genome. The recombinant vaccinia virus retained infectivity and stably expressed T7 RNA polymerase in mammalian cells. Target genes were constructed by inserting DNA segments that code for (3-galactosidase or chloramphenicol acetyltransferase into a plasmid with bacteriophage T7 promoter and terminator regions. When cells were infected with the recombinant vaccinia virus and transfected with plasmids containing the target genes, the latter were expressed at high levels. Chloramphenicol acetyltransferase activity was 400-600 times greater than that observed with conventional mammalian transient-expression systems regulated either by the enhancer and promoter regions of the Rous sarcoma virus long terminal repeat or by the simian virus 40 early region. The vaccinia/T7 hybrid virus forms the basis of a simple, rapid, widely applicable, and efficient mammalian expression system. Recombinant DNA technology has made it possible to develop molecular cloning vectors that allow expression of heterologous genes in prokaryotic and eukaryotic cells.
Members of transforming growth factor-beta (TGF-β) superfamily play pivotal roles in development in multicellular organisms. We report the functional characterization of the Schistosoma mansoni type II receptor (SmTβRII). Mining of the S. mansoni expressed sequence tag (EST) database identified an EST clone that shows homology to the kinase domain of type II receptors from different species. The amplified EST sequence was used as a probe to isolate a cDNA clone spanning the entire coding region of a type II serine/threonine kinase receptor. The interaction of SmTβRII with SmTβRI was elucidated and shown to be dependent on TGF-β ligand binding. Furthermore, in the presence of human TGF-β1, SmTβRII was able to activate SmTβRI, which in turn activated SmSmad2 and promoted its interaction with SmSmad4, proving the transfer of the signal from the receptor complex to the Smad proteins. Gynaecophoral canal protein (GCP), whose expression in male worms is limited to the gynaecophoric canal, was identified as a potential TGF-β target gene in schistosomes. Knocking down the expression of SmTβRII using short interfering RNA molecules (siRNA) resulted in a concomitant reduction in the expression of GCP. These data provide evidence for the direct involvement of SmTβRII in mediating TGF-β–induced activation of the TGF-β target gene, SmGCP, within schistosome parasites. The results also provide additional evidence for a role for the TGF-β signaling pathway in male-induced female reproductive development.
Deng and Shuman (J. Biol Chem. 271, 29386 (1996)) reported that an ATPase different from the known viral termination factor, VTF, is required for vaccinia virus early gene transcription termination. Properties of this ATPase were similar to those of a known vaccinia virus enzyme, nucleoside triphosphate phosphohydrolase I (NPH I) the product of gene D11L. Transcription-competent cell-free extracts were prepared from A549 cells infected with wild-type or mutant vaccinia virus harboring ts mutations in gene D11L. These extracts were employed to investigate the role of NPH I in early gene transcription termination. Extracts prepared under nonpermissive conditions from both wild-type virus and ts mutant virus-infected cells exhibited high levels of early and intermediate gene transcription activity but were incapable of supporting late gene transcription. ts mutant extract lacked signal-dependent early gene transcription termination activity, which was restored by the addition of either free NPH I or a GST-NPH I fusion protein. A comparison of the NPH I amino acid sequence to the protein databases revealed the presence of a set of sequences characteristic of nucleic acid helicase superfamily II members. A series of site-specific mutations in the helicase motifs and N-terminal and C-terminal deletion mutations were expressed as GST fusion proteins and their activities assessed. Of the mutations in helicase motifs I to VI, alteration of all but motif III reduced the ATPase activity. Removal of as few as 24 amino acids from the N-terminal end eliminated ATPase activity, while deletion of 68 C-terminal amino acids exhibited only a modest decrease in ATP hydrolysis. Larger C-terminal deletions eliminated ATPase activity. Each deletion mutation, and site-specific mutations other than the motif III mutation, failed to support transcription termination in vitro. Mutations in motifs I, II, V, and VI inhibit wild-type NPH I transcription termination activity. However, deletion of up to 68 amino acids from the C-terminal end eliminates this inhibitory property. This observation is particularly interesting since these C-terminal deletions retain both ATPase activity and single-stranded DNA binding activity. Their failure to inhibit transcription termination suggests that these C-terminal deletion mutations eliminate a site required for a function other than from DNA binding or ATP hydrolysis.
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