Gene/Protein
Disease
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Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
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Drug
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Target Concepts:
Gene/Protein
Disease
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Enzyme
Compound
Query: EC:3.1.26.5 (
RNase P
)
1,348
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Single-stranded RNA viruses often have 3'-terminal tRNA-like structures that serve as substrates for the enzymes of tRNA metabolism, including the tRNA synthases and the
CCA-adding enzyme
. We propose that such 3'-terminal tRNA-like structures are in fact molecular fossils of the original RNA world, where they tagged genomic RNA molecules for replication and also functioned as primitive telomeres to ensure that 3'-terminal nucleotides were not lost during replication. This picture suggests that the CCA-adding activity was originally an RNA enzyme, that modern DNA telomeres with the repetitive structure CmAn are the direct descendants of the CCA terminus of tRNA, and that the precursor of the modern enzyme
RNase P
evolved to convert genomic into functional RNA molecules by removing this 3'-terminal tRNA-like tag. Because early RNA replicases would have been catalytic RNA molecules that used the 3'-terminal tRNA-like tag as a template for the initiation of RNA synthesis, these tRNA-like structures could have been specifically aminoacylated with an amino acid by an aberrant activity of the replicase. We show that it is mechanistically reasonable to suppose that this aminoacylation occurred by the same sequence of reactions found in protein synthesis today. The advent of such tRNA synthases would thus have provided a pathway for the evolution of modern protein synthesis.
...
PMID:tRNA-like structures tag the 3' ends of genomic RNA molecules for replication: implications for the origin of protein synthesis. 347 99
Transfer RNAs are transcribed as precursors with extensions at both the 5' and 3' ends.
RNase P
removes endonucleolytically the 5' end leader. tRNase Z can remove endonucleolytically the 3' end trailer as a necessary step in tRNA maturation. CCA is not transcriptionally encoded in the tRNAs of eukaryotes, archaebacteria and some bacteria and must be added by a
CCA-adding enzyme
after removal of the 3' end trailer. tRNase Z is a member of the beta-lactamase family of metal-dependent hydrolases, the signature sequence of which, the conserved histidine cluster (HxHxDH), is essential for activity. Starting with baculovirus-expressed fruit fly tRNase Z, we completed an 18 residue Ala scan of the His cluster to analyze the functional landscape of this critical region. Residues in and around the His cluster fall into three categories based on effects of the substitutions on processing efficiency: substitutions in eight residues have little effect, five substitutions reduce efficiency moderately (approximately 5-50-fold), while substitutions in five conserved residues, one serine, three histidine and one aspartate, severely reduce efficiency (approximately 500-5000-fold). Wild-type and mutant dissociation constants (Kd values), determined using gel shifts, displayed no substantial differences, and were of the same order as kM (2-20 nM). Lower processing efficiencies arising from substitutions in the His domain are almost entirely due to reduced kcat values; conserved, functionally important residues within the His cluster of tRNase Z are thus involved in catalysis, and substrate recognition and binding functions must reside elsewhere in the protein.
...
PMID:Residues in the conserved His domain of fruit fly tRNase Z that function in catalysis are not involved in substrate recognition or binding. 1593 79
Mitochondrial polycistronic transcripts are extensively processed to give rise to functional mRNAs, rRNAs and tRNAs; starting with the release of tRNA elements through 5'-processing by
RNase P
(MRPP1/2/3-complex) and 3'-processing by RNase Z (ELAC2). Here, we show using in vitro experiments that MRPP1/2 is not only a component of the mitochondrial
RNase P
but that it retains the tRNA product from the 5'-processing step and significantly enhances the efficiency of ELAC2-catalyzed 3'-processing for 17 of the 22 tRNAs encoded in the human mitochondrial genome. Furthermore, MRPP1/2 retains the tRNA product after ELAC2 processing and presents the nascent tRNA to the mitochondrial
CCA-adding enzyme
. Thus, in addition to being an essential component of the
RNase P
reaction, MRPP1/2 serves as a processing platform for several down-stream tRNA maturation steps in human mitochondria. These findings are of fundamental importance for our molecular understanding of disease-related mutations in MRPP1/2, ELAC2 and mitochondrial tRNA genes.
...
PMID:The MRPP1/MRPP2 complex is a tRNA-maturation platform in human mitochondria. 2904 Jul 5
