Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.26.5 (RNase P)
 1,348 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

DEAD-box proteins have been implicated in a wide array of cellular processes ranging from initiation of protein synthesis and ribosome biogenesis to mRNA splicing. Here, we report the isolation, biochemical characterization and crystallization of the first thermophilic DEAD box protein, Hera (heat-resistant RNA-dependent ATPase) from Thermus thermophilus HB8. The molecular mass of the deduced Hera protein sequence (510 amino acid residues) is 55.95 kDa. Hera possesses all of the conserved motifs found among the, DEAD-box RNA helicases. In addition, it also has a motif characteristic of the protein component of ribonuclease P at its C-terminal region (residues 372-386). Hera appears to be non-specific with respect to the RNA species that triggers ATPase activity. Nevertheless, at high temperature, ATPase activity is at a maximum when bacterial 16 S rRNA or 23 S rRNA are used as the substrates. Moreover, a deletion of the RNase P protein motif significantly reduces the ability of Hera to hydrolyze ATP in the presence of RNase P RNA. Hera has a specific ATPase activity of 480 units/microg and therefore, displays the highest ATPase specific activity reported for a protein of the RNA helicase family. We determined that Hera shows helix-destabilizing activity, and that the RNA-unwinding or helix-destabilizing activity of Hera is coupled to ATP hydrolysis. Since Hera is a stable thermophilic protein and we have obtained crystals of it diffracting beyond 2.6 A, the possibilities for structure determination of a full-length RNA-helicase are open.
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PMID:Hera from Thermus thermophilus: the first thermostable DEAD-box helicase with an RNase P protein motif. 1061 Jul 97

Human nuclear RNase P purified from HeLa cells has ATPase activity. This activity is associated with one of the protein subunits of the enzyme, Rpp20. Thus, human nuclear RNase P, which contains several proteins and one essential RNA, has at least one other enzymatic activity in addition to cleavage of phosphoester bonds in RNA. The amino acid sequence of Rpp20 has a signature motif found in an ATPase-containing subunit of a family of protein complexes (ABC transporters) that mediate a variety of trans-membrane traffic, as well as a segment, DIxxN, that resembles the DEAD box motif of many ATPases: together, these might represent an ATPase signature motif.
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PMID:A subunit of human nuclear RNase P has ATPase activity. 1114 58

Polyadenylation of synthetic RNAs stimulates rapid degradation in vitro by using either Chlamydomonas or spinach chloroplast extracts. Here, we used Chlamydomonas chloroplast transformation to test the effects of mRNA homopolymer tails in vivo, with either the endogenous atpB gene or a version of green fluorescent protein developed for chloroplast expression as reporters. Strains were created in which, after transcription of atpB or gfp, RNase P cleavage occurred upstream of an ectopic tRNA(Glu) moiety, thereby exposing A(28), U(25)A(3), [A+U](26), or A(3) tails. Analysis of these strains showed that, as expected, polyadenylated transcripts failed to accumulate, with RNA being undetectable either by filter hybridization or reverse transcriptase-PCR. In accordance, neither the ATPase beta-subunit nor green fluorescent protein could be detected. However, a U(25)A(3) tail also strongly reduced RNA accumulation relative to a control, whereas the [A+U] tail did not, which is suggestive of a degradation mechanism that does not specifically recognize poly(A), or that multiple mechanisms exist. With an A(3) tail, RNA levels decreased relative to a control with no added tail, but some RNA and protein accumulation was observed. We took advantage of the fact that the strain carrying a modified atpB gene producing an A(28) tail is an obligate heterotroph to obtain photoautotrophic revertants. Each revertant exhibited restored atpB mRNA accumulation and translation, and seemed to act by preventing poly(A) tail exposure. This suggests that the poly(A) tail is only recognized as an instability determinant when exposed at the 3' end of a message.
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PMID:Evidence for in vivo modulation of chloroplast RNA stability by 3'-UTR homopolymeric tails in Chlamydomonas reinhardtii. 1189 Dec 97

DEAD box helicases use the energy of ATP hydrolysis to remodel RNA structures or RNA/protein complexes. They share a common helicase core with conserved signature motifs, and additional domains may confer substrate specificity. Identification of a specific substrate is crucial towards understanding the physiological role of a helicase. RNA binding and ATPase stimulation are necessary, but not sufficient criteria for a bona fide helicase substrate. Here, we report single molecule FRET experiments that identify fragments of the 23S rRNA comprising hairpin 92 and RNase P RNA as substrates for the Thermus thermophilus DEAD box helicase Hera. Both substrates induce a switch to the closed conformation of the helicase core and stimulate the intrinsic ATPase activity of Hera. Binding of these RNAs is mediated by the Hera C-terminal domain, but does not require a previously proposed putative RNase P motif within this domain. ATP-dependent unwinding of a short helix adjacent to hairpin 92 in the ribosomal RNA suggests a specific role for Hera in ribosome assembly, analogously to the Escherichia coli and Bacillus subtilis helicases DbpA and YxiN. In addition, the specificity of Hera for RNase P RNA may be required for RNase P RNA folding or RNase P assembly.
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PMID:The putative RNase P motif in the DEAD box helicase Hera is dispensable for efficient interaction with RNA and helicase activity. 1878 31

Recent studies show that nuclear RNase P is linked to chromatin structure and function. Thus, variants of this ribonucleoprotein (RNP) complex bind to chromatin of small noncoding RNA genes; integrate into initiation complexes of RNA polymerase (Pol) III; repress histone H3.3 nucleosome deposition; control tRNA and PIWI-interacting RNA (piRNA) gene clusters for genome defense; and respond to Werner syndrome helicase (WRN)-related replication stress and DNA double-strand breaks (DSBs). Likewise, the related RNase MRP and RMRP-TERT (telomerase reverse transcriptase) are implicated in RNA-dependent RNA polymerization for chromatin silencing, whereas the telomerase carries out RNA-dependent DNA polymerization for telomere lengthening. Remarkably, the four RNPs share several protein subunits, including two Alba-like chromatin proteins that possess DEAD-like and ATPase motifs found in chromatin modifiers and remodelers. Based on available data, RNase P and related RNPs act in transition processes of DNA to RNA and vice versa and connect these processes to genome preservation, including replication, DNA repair, and chromatin remodeling.
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PMID:Roles of RNase P and Its Subunits. 2869 48