Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:3.1.26.3 (
RNase III
)
1,015
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We have identified a double-stranded (ds)RNA-binding domain in each of two proteins: the product of the Drosophila gene
staufen
, which is required for the localization of maternal mRNAs, and a protein of unknown function, Xlrbpa, from Xenopus. The amino acid sequences of the binding domains are similar to each other and to additional domains in each protein. Database searches identified similar domains in several other proteins known or thought to bind dsRNA, including human dsRNA-activated inhibitor (DAI), human trans-activating region (TAR)-binding protein, and Escherichia coli
RNase III
. By analyzing in detail one domain in
staufen
and one in Xlrbpa, we delimited the minimal region that binds dsRNA. On the basis of the binding studies and computer analysis, we have derived a consensus sequence that defines a 65- to 68-amino acid dsRNA-binding domain.
...
PMID:A conserved double-stranded RNA-binding domain. 143 2
The double-stranded RNA binding domain (dsRBD) is an approximately 65 amino acid motif that is found in a variety of proteins that interact with double-stranded (ds) RNA, such as Escherichia coli
RNase III
and the dsRNA-dependent kinase, PKR. Drosophila
staufen protein
contains five copies of this motif, and the third of these binds dsRNA in vitro. Using multinuclear/multidimensional NMR methods, we have determined that
staufen
dsRBD3 forms a compact protein domain with an alpha-beta-beta-beta-alpha structure in which the two alpha-helices lie on one face of a three-stranded anti-parallel beta-sheet. This structure is very similar to that of the N-terminal domain of a prokaryotic ribosomal protein S5. Furthermore, the consensus derived from all known S5p family sequences shares several conserved residues with the dsRBD consensus sequence, indicating that the two domains share a common evolutionary origin. Using in vitro mutagenesis, we have identified several surface residues which are important for the RNA binding of the dsRBD, and these all lie on the same side of the domain. Two residues that are essential for RNA binding, F32 and K50, are also conserved in the S5 protein family, suggesting that the two domains interact with RNA in a similar way.
...
PMID:NMR solution structure of a dsRNA binding domain from Drosophila staufen protein reveals homology to the N-terminal domain of ribosomal protein S5. 762 56
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.
...
PMID:Mutational analysis of the vaccinia virus E3 protein defines amino acid residues involved in E3 binding to double-stranded RNA. 864 94
