Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.31.1 (micrococcal nuclease)
 2,818 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We previously developed an in vitro translation system derived from tobacco chloroplasts. Here, we report a significantly improved in vitro translation system. By modifying preparation procedures for chloroplast extracts and reaction conditions, we achieved 100-fold higher translation activity than the previous system. The new system does not require the supplement of Escherichia coli tRNAs due to the omission of micrococcal nuclease treatment, thus the tRNA population reflects the intrinsic tRNA population in tobacco chloroplasts. The rate of translation initiation from a variety of chloroplast mRNAs may be measured by monitoring the fluorescence intensity of synthesized green fluorescent protein, which is a non-radioactive detection method. Incorporation of an amino acid linked to a fluorescent dye also allows detection of the translation products in vitro. Using our new system, we found that mRNAs carrying unprocessed or processed atpH and rbcL 5'-UTRs were efficiently translated at similar rates, whereas translation of mRNAs with processed atpB and psbB 5'-UTRs was more efficient than those with unprocessed 5'-UTRs. These results suggest that the role of 5'-UTR processing in the regulation of chloroplast gene expression differs between mRNAs. The new in vitro translation system will be a powerful tool to investigate the mechanism of chloroplast mRNA translation.
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PMID:A new in vitro translation system for non-radioactive assay from tobacco chloroplasts: effect of pre-mRNA processing on translation in vitro. 1715 14

We have been interested in whether three proteins that share a five-stranded beta-barrel "OB-fold" structural motif but no detectable sequence homology fold by similar mechanisms. Here we describe native-state hydrogen exchange experiments as a function of urea for SN (staphylococcal nuclease), a protein with an OB-fold motif and additional nonconserved elements of structure. The regions of structure with the largest stability and unfolding cooperativity are contained within the conserved OB-fold portion of SN, consistent with previous results for CspA (cold shock protein A) and LysN (anticodon binding domain of lysyl tRNA synthetase). The OB-fold also has the subset of residues with the slowest unfolding rates in the three proteins, as determined by hydrogen exchange experiments in the EX1 limit. Although the protein folding hierarchy is maintained at the level of supersecondary structure, it is not evident for individual residues as might be expected if folding depended on obligatory nucleation sites. Rather, the site-specific stability profiles appear to be linked to sequence hydrophobicity and to the density of long-range contacts at each site in the three-dimensional structures of the proteins. We discuss the implications of the correlation between stability to unfolding and conservation of structure for mechanisms of protein structure evolution.
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PMID:Partially folded states of staphylococcal nuclease highlight the conserved structural hierarchy of OB-fold proteins. 1766 45

5'-End maturation of tRNA primary transcripts is thought to be ubiquitously catalyzed by ribonuclease P (RNase P), a ribonucleoprotein enzyme in the vast majority of organisms and organelles. In the hyperthermophilic bacterium Aquifex aeolicus, neither a gene for the RNA nor the protein component of bacterial RNase P has been identified in its sequenced genome. Here, we demonstrate the presence of an RNase P-like activity in cell lysates of A. aeolicus. Detection of activity was sensitive to the buffer conditions during cell lysis and partial purification, explaining why we failed to observe activity in the buffer system applied previously. RNase P-like activity of A. aeolicus depends on the presence of Mg2+ or Mn2+, persists at high temperatures, which inactivate RNase P enzymes from mesophilic bacteria, and is remarkably resistant to micrococcal nuclease treatment. While cellular RNA fractions from other Aquificales (A. pyrophilus, Hydrogenobacter thermophilus and Thermocrinis ruber) could be stimulated by bacterial RNase P proteins to catalyze tRNA 5'-end maturation, no such stimulation was observed with RNA from A. aeolicus. In conclusion, our results point to the possibility that RNase P-like activity in A. aeolicus is devoid of an RNA subunit or may include an RNA subunit with untypical features.
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PMID:5'-end maturation of tRNA in aquifex aeolicus. 1820 51

TFIIIB and TFIIIC are multi-subunit factors required for transcription by RNA polymerase III. We present a genome-wide high-resolution footprint map of TFIIIB-TFIIIC complexes in Saccharomyces cerevisiae, obtained by paired-end sequencing of micrococcal nuclease-resistant DNA. On tRNA genes, TFIIIB and TFIIIC form stable complexes with the same distinctive occupancy pattern but in mirror image, termed 'bootprints'. Global analysis reveals that the TFIIIB-TFIIIC transcription complex exhibits remarkable structural elasticity: tRNA genes vary significantly in length but remain protected by TFIIIC. Introns, when present, are markedly less protected. The RNA polymerase III transcription terminator is flexibly accommodated within the transcription complex and, unexpectedly, plays a major structural role by delimiting its 3'-boundary. The ETC sites, where TFIIIC binds without TFIIIB, exhibit different bootprints, suggesting that TFIIIC forms complexes involving other factors. We confirm six ETC sites and report a new site (ETC10). Surprisingly, TFIIIC, but not TFIIIB, interacts with some centromeric nucleosomes, suggesting that interactions between TFIIIC and the centromere may be important in the 3D organization of the nucleus.
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PMID:Global 'bootprinting' reveals the elastic architecture of the yeast TFIIIB-TFIIIC transcription complex in vivo. 2385 58

The reaction of polyuridylic acid with sodium bisulfite produces modified polymers in which up to 95% of the uracil residues have been converted to uracil-6-sulfonate residues. A 91.6% bisulfite-saturated polymer was found to resist hydrolysis by spleen phosphodiesterase and phosphorolysis by polynucleotide phosphorylase. Digestion by pancreatic ribonuclease was successful and gave the bisulfite adduct of uridine-3'-phosphate. Treatment of this nucleotide adduct with acid phosphatase afforded the bisulfite adduct of uridine. The ability of polyuridylic acid to bind to ribosomes, and to stimulate the binding of phenylalanine tRNA to ribosomes was abolished by progressive bisulfite saturation of the polymer. The rate of decline of these functionsf with increasing bisulfite content, was less sharp than the loss of phenyl-alanine coding ability o, the modified polymer.
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PMID:Modification of polyuridylic acid by bisulfite. II: Studies on ribosomal binding and enzymatic hydrolysis. 2419 77


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