Showing papers on "Small interfering RNA published in 1988"
TL;DR: In vitro translation of the genomic RNA in a rabbit reticulocyte lysate is inhibited due to direct interference with ribosome function.
Abstract: Two different "antisense" oligodeoxynucleotides and their RNA analogues, each complementary to non-overlapping sequences of 51 bases near the 5' end of TMV RNA, inhibit in vitro translation of the genomic RNA in a rabbit reticulocyte lysate. Inhibition is dependent upon complementarity, concentration, and hybridization of the oligomers with TMV RNA. Inhibition is observed at molar ratios of TMV RNA to antisense oligomers as low as 1:1.5. A plateau of inhibition at which 10-25% of the control signal remains is achieved by molar ratios of TMV RNA:antisense DNA or RNA greater than or equal to 1:15. The extent of inhibition is not increased by the simultaneous presence of both complementary fragments. Oligodeoxynucleotides and their RNA analogues identical to the same regions of TMV RNA have no direct effect on translation, however, they can block inhibition by the antisense fragments. Translation of BMV RNA is not affected by any of the oligodeoxynucleotides. Polyacrylamide gel electrophoresis shows translation of TMV p126 is selectively inhibited. We conclude that the observed inhibition of translation is due to direct interference with ribosome function.
58 citations
TL;DR: It is concluded that polyadenylation rather than run-on transcription of B2 elements accounts for most of the heterogeneity of the 200- to 600-N group and that some deadenylation and cleavage take place during maturation.
38 citations
Journal Article•
TL;DR: Northern blotting analysis of total cellular RNA extracted from transformed yeast cells confirmed the presence of high levels of antisense RNA to ADE1 mRNA within cells, but the high level of expression did not result in production of Ade- cells.
Abstract: The utility of antisense RNA as a means of regulating gene expression in yeast has been explored by inserting into a high copy number yeast expression vector an ADE1 gene fragment in such an orientation so as to produce antisense RNA in vivo which could hybridize to natural ADE1 mRNA. Northern blotting analysis of total cellular RNA extracted from transformed yeast cells confirmed the presence of high levels of antisense RNA to ADE1 mRNA within cells. However the high level of expression of antisense RNA did not result in production of Ade- cells.
8 citations
01 Jan 1988
TL;DR: The U4X RNA gene and the U4B RNA gene were both expressed in vivo in each of seven adult and three embryonic chicken tissues examined in this paper, showing that the ratio of the two genes can vary more than sevenfold in both a tissue-and stage-specific manner.
Abstract: U4 RNA is one of several small nuclear RNAs involved in the splicing of mRNA precursors. The domestic chicken has two genes per haploid genome that are capable of encoding U4 RNA. The U4X RNA gene (which encodes a sequence variant of U4 RNA that was unknown prior to the cloning of the gene) and the U4B RNA gene were both expressed in vivo in each of seven adult and three embryonic chicken tissues examined. However, the ratio of U4B RNA to U4X RNA can vary more than sevenfold in both a tissue- and stage-specific manner.
2 citations