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The topography of Escherichia coli 5S RNA has been examined in the presence of ribosomal proteins L5, L18 and L25 and their different combinations, by comparing the kethoxal modification characteristics of the various RNA-protein complexes with those of the free A-conformer of 5S RNA (Noller &; Garrett, 1979, accompanying paper).Two of the four most reactive guanines, G13 and G41, are unaffected by the protein, in accord with the finding that these are the only two guanines that are accessible in the 50S subunit (Noller &; Herr, 1974). The other two very reactive guanines, G24 and G69, are strongly protected by protein L18, either in the presence or absence of proteins L5 and L25. Protein binding studies with kethoxal-modified 5S RNA provide evidence that one or both of these two guanines are directly involved in the protein-RNA interactions, and this conclusion is supported by the occurrence of guanines in these two positions in all the other sequenced prokaryotic 5S RNAs.The group of less reactive guanines, G16, G23, G44, G86 and G107, are protected to some extent by each of the proteins L5, L18 and L25; the strongest effect is with L18. We suggest that this is attributable to a small increase in the conformational homogeneity of the 5S RNA and that L18, in particular, induces some tightening of the RNA structure.Only one guanine, G69, is rendered more accessible by the proteins. This effect is produced by protein L25, which is known to cause some destructuring of the 5S RNA (Bear et al., 1977). There was no other evidence for any destructuring of the 5S RNA. In particular, the sequence 72 to 83, which is complementary to a sequence in 23S RNA (Herr &; Noller, 1975), is not modified. However, in contrast to an earlier report (Erdmann et al., 1973), the conserved sequence G44-A-A-C, which has been implicated in tRNA binding, was not rendered more accessible by the proteins. 相似文献
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The amino terminus of the yeast F1-ATPase beta-subunit precursor functions as a mitochondrial import signal 总被引:62,自引:15,他引:62 下载免费PDF全文
S D Emr A Vassarotti J Garrett B L Geller M Takeda M G Douglas 《The Journal of cell biology》1986,102(2):523-533
The ATP2 gene of Saccharomyces cerevisiae codes for the cytoplasmically synthesized beta-subunit protein of the mitochondrial F1-ATPase. To define the amino acid sequence determinants necessary for the in vivo targeting and import of this protein into mitochondria, we have constructed gene fusions between the ATP2 gene and either the Escherichia coli lacZ gene or the S. cerevisiae SUC2 gene (which codes for invertase). The ATP2-lacZ and ATP2-SUC2 gene fusions code for hybrid proteins that are efficiently targeted to yeast mitochondria in vivo. The mitochondrially associated hybrid proteins fractionate with the inner mitochondrial membrane and are resistant to proteinase digestion in the isolated organelle. Results obtained with the gene fusions and with targeting-defective ATP2 deletion mutants provide evidence that the amino-terminal 27 amino acids of the beta-subunit protein precursor are sufficient to direct both specific sorting of this protein to yeast mitochondria and its import into the organelle. Also, we have observed that certain of the mitochondrially associated Atp2-LacZ and Atp2-Suc2 hybrid proteins confer a novel respiration-defective phenotype to yeast cells. 相似文献
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Zheng W Brandish PE Kolodin DG Scolnick EM Strulovici B 《Journal of biomolecular screening》2004,9(2):132-140
Inositol monophosphatase is a potential drug target for developing lithium-mimetic agents for the treatment of bipolar disorder. Enzyme-based assays have been traditionally used in compound screening to identify inositol monophosphatase inhibitors. A cell-based screening assay in which the compound needs to cross the cell membrane before reaching the target enzyme offers a new approach for discovering novel structure leads of the inositol monophosphatase inhibitor. The authors have recently reported a high-throughput measurement of G-protein-coupled receptor activation by determining inositol phosphates in cell extracts using scintillation proximity assay. This cell-based assay has been modified to allow the determination of inositol monophosphatase activity instead of G-protein-coupled receptors. The enzyme is also assayed in its native form and physiological environment. The authors have applied this cell-based assay to the high-throughput screening of a large compound collection and identified several novel inositol monophosphatase inhibitors. 相似文献
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