Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.26.3 (RNase III)
 1,015 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The E3L gene of vaccinia virus encodes the double-stranded (ds) RNA binding proteins p20 and p25 that exhibit inhibitory activity for the IFN-induced, P1/elF-2 alpha protein kinase. A region in the E3L encoded proteins (residues 156-180) shares a high degree of similarity with several proteins that bind double-helical RNA including the P1/elF-1 alpha kinase, bacterial and yeast RNase III, and a human transactivator response element/Rev response element binding protein. In this study, mutants of E3L proteins were constructed in order to determine the region of the proteins required for dsRNA binding and kinase inhibitory activity. Our data indicate that both the region necessary for dsRNA binding and for kinase inhibitory activity are located at the carboxyl terminus of the protein. The E3L proteins with 7 amino acids deleted from the carboxyl terminus (184-190) could bind to dsRNA, but with lower affinity than could the full-length protein. This protein did not detectably inhibit kinase in vitro. Deletion of 26 amino acids from the carboxyl terminus of the E3L proteins (165-190) abolished dsRNA binding activity and kinase inhibitory activity. In addition, mutations at amino acid 164, 167, or 174 severely inhibited binding to dsRNA. On the other hand, deletion of 83 amino acids from the amino terminus did not affect the proteins' ability to bind dsRNA or inhibit kinase. These results suggest that a region of sequence between amino acids 164 and 183 is necessary for E3L proteins' dsRNA binding activity. This region lies within the homologous domain that the E3L proteins share with other dsRNA binding proteins.
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PMID:Identification of a conserved motif that is necessary for binding of the vaccinia virus E3L gene products to double-stranded RNA. 809 44

Alanine-substitution mutations were targeted to 14 amino acid residues within the double-stranded (ds) RNA binding motif (dsRBM) of the vaccinia virus E3 protein. Substitutions at six positions--Glu-124, Phe-135, Phe-148, Lys-167, Arg-168, and Lys-171--caused significant reductions in dsRNA binding. These six residues are conserved in the two dsRBMs for which structural information is available (Escherichia coli RNase III and Drosophila melanogaster staufen) and in many other members of the dsRBM protein family. Residues we show to be important for dsRNA binding by vaccinia virus E3 map to the same face of the dsRBM structure and are thus likely to compose part of the RNA binding site.
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PMID:Mutational analysis of the vaccinia virus E3 protein defines amino acid residues involved in E3 binding to double-stranded RNA. 864 94

This work investigated whether the Escherichia coli RNase III gene, rnc+, could complement vp1080, a mutant vaccinia virus that is deleted of its E3L gene. Like E3L, rnc+ codes for a dsRNA binding protein that contains an additional nucleolytic activity. Rnc genes were cloned into the eukaryotic expression vector pMTVa-, expressed in COS-1 cells, and shown to be functional. Transient rescue experiments in HeLa cells demonstrated that the cleavage function of the rnc+ gene was necessary for full rescue of vp1080. The rnc 70 gene, which encodes a product deficient in catalytic activity but still capable of binding to dsRNA, rescued vp1080 weakly. The rnc 105 gene, which encodes a product that cannot bind or cleave dsRNA, was unable to rescue vp1080. The rnc genes were also inserted into the E3L locus of vp1080. While recombinants containing the rnc+ gene or the rnc 70 gene regained the IFN resistance phenotype in RK13 cells, full host range of vaccinia virus was only restored in the recombinant containing the rnc+ gene. Thus, the ability of RNase III to process dsRNA appears to be necessary to restore the host range phenotype. The vp-rnc 105 recombinant behaved similarly to vp1080.
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PMID:Complementation of deletion of the vaccinia virus E3L gene by the Escherichia coli RNase III gene. 900 60