EC:3.1.27.1 - FACTA Search

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Query: EC:3.1.27.1 (RNase)
16,360 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A hemA mutant of Escherichia coli containing a multicopy plasmid which complemented the mutation excreted 5-aminolevulinic acid (ALA) into the medium. [1-14C]glutamate was substantially incorporated into ALA by this strain, whereas [2-14C]glycine was not. Periodate degradation of labeled ALA showed that C-5 of ALA was derived from C-1 of glutamate. The synthesis of ALA by two sonicate fractions which had been processed by gel filtration and dialysis, respectively, was dependent on glutamate, ATP, NADPH, tRNA(Glu), and pyridoxal phosphate. tRNA(Glu) stimulated ALA synthesis in a concentration-dependent manner. Pretreatment with RNase reduced this stimulation. The amino acid sequence of the cloned insert, derived from the nucleotide sequence (J.-M. Li, C. S. Russell, and S. D. Cosloy, J. Cell Biol. 107:617a, 1988), showed no homology with any ALA synthase sequenced to date. These results suggest that E. coli synthesizes ALA by the C5 pathway from the intact five-carbon chain of glutamate.
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PMID:5-Aminolevulinic acid synthesis in Escherichia coli. 265 7

Two biosynthetic pathways are known for the universal tetrapyrrole precursor, delta-aminolevulinic acid (ALA). In the ALA synthase pathway which was first described in animal and some bacterial cells, the pyridoxal phosphate-dependent enzyme ALA synthase catalyzes condensation of glycine and succinyl-CoA to form ALA with the loss of C-1 of glycine as CO2. In the five-carbon pathway which was first described in plant and algal cells, the carbon skeleton of glutamate is converted intact to ALA in a proposed reaction sequence that requires three enzymes, tRNA(Glu), ATP, Mg2+, NADPH, and pyridoxal phosphate. We have examined the distribution of the two ALA biosynthetic pathways among various genera, using cell-free extracts obtained from representative organisms. Evidence for the operation of the five-carbon pathway was obtained by the measurement of RNase-sensitive label incorporation from glutamate into ALA, using 3,4-[3H]glutamate or 1-[14C]glutamate as substrate. ALA synthase activity was indicated by RNase-insensitive incorporation of label from 2-[14C]glycine into ALA. The distribution of the two pathways among the bacteria tested was in general agreement with their previously established phylogenetic relationships and clearly indicates that the five-carbon pathway is the more ancient process, whereas the pathway utilizing ALA synthase probably evolved much later. The five-carbon pathway is apparently the more widely utilized one among bacteria, while the ALA synthase pathway seems to be limited to the alpha subgroup of purple bacteria.
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PMID:Distribution of delta-aminolevulinic acid biosynthetic pathways among phototrophic bacterial groups. 278 25

The replication of hepatitis A virus (HAV) in BS-C-1 cells was examined under single-cycle growth conditions by using strand-specific probes for detection of viral RNA species. No measurable lag phase was demonstrated between accumulation of positive-strand HAV RNA and production of infectious virions, indicating that replication of virion RNA is rate limiting for the production of infectious virus. Intracellular viral RNA was further analyzed by using 2 M LiCl to fractionate the insoluble nonvirion 35S RNA and replicative intermediates (RI) from the soluble virions and double-stranded replicative forms, in conjunction with sucrose density gradient ultracentrifugation to separate the different forms of viral RNA. Throughout the productive phase of HAV infection, 95 to 97% of positive-strand HAV RNA was soluble in 2 M LiCl and was shown to be contained in mature virions. Of the LiCl-insoluble HAV RNA, more than 99% was positive-stranded 35S RNA, whereas 0.4% was negative stranded and had the sedimentation and partial RNase resistance characteristics of RI. The pattern of RNA accumulation in HAV-infected cells is thus very different from that seen in poliovirus-infected cells, where large pools of RI and mRNA are produced before RNA is sequestered into mature virions. The results of this study suggest that encapsidation of positive-strand HAV RNA inhibits transcription at all times during the growth cycle, thereby reducing the pool of replicating RNA and the final yield of infectious HAV.
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PMID:Restricted replication of hepatitis A virus in cell culture: encapsidation of viral RNA depletes the pool of RNA available for replication. 284 31

The method of proton magnetic resonance was used to obtain information on the active site of the guanyl-specific ribonuclease from Penicillium chrysogenum, strain 152A. Four pH-dependent signals in the aromatic region of the proton NMR spectrum of the enzyme were assigned to the C-2 and C-4 protons of the two histidine residues. To determine the pK values and the environment of the histidine residues the pH dependence of their chemical shifts was studied and experimental curves thus obtained were analyzed taking into account the effect of other dissociating groups of the enzyme. The pK values of the histidine residues were found to be equal to 7.92 +/- 0.04 and 7.86 +/- 0.09. The results of the calculations indicate that each histidine residue should interact with an acidic group (carboxylic) of the protein (pK 4.33 and 3.48) and the distance between two histidine residues does not exceed 0.85 nm. The rate constants for the quasi-first order reaction of deuterium exchange of the histidine residues (11.2 s-1 and 3.7 x-1) suggest that both residues are accessible, though to a different degree to solvent. Formation of a complex between the enzyme and guanosine 3'-phosphate (Guo3'P) is accompanied by the shift of the histidine pK toward the alkaline region by 0.5. The existence of the complex is controlled by dissociation of a histidine residue with pK 8.7 in alkaline medium and by protonation of the N-7 of Guo3'P (pK 2.4) in acid medium. Nuclear Overhauser effect measurements were used to determine the glycosidic torsion angle for the Guo3'P in the complex and to estimate the distances between the histidine residues of the enzyme and ribose ring of Guo-3'P. The results obtained suggest that the nucleotide in the complex has an anti conformation and the least exposed histidine is spaced not more than 0.5 nm from the C-1' proton of the nucleotide ribose ring. A model for the enzyme-nucleotide complex is presented.
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PMID:Guanyl-specific ribonuclease from the fungus Penicillium chrysogenum strain 152 and its complex with guanosine 3'-phosphate studied by nuclear magnetic resonance. 625 Aug 40

Nonenzymatic glucosylation of protein is initiated by the reversible condensation of glucose in its open chain form with the amino groups on the protein. The initial product is an aldimine (Schiff base) which cyclizes to the glycosylamine derivative. The aldimine can undergo a slow Amadori rearrangement to yield the relatively stable ketoamine adduct which is structurally analogous to fructose. 13C NMR has been used to characterize these early products of nonenzymatic glucosylation, using RNase A as a model protein. C-1 of the beta-pyranose anomer of the glycosylamine was identified at 88.8 ppm in the spectrum of RNase glucosylated approximately 1:1 with D-[1-13C]glucose. C-1 of the Amadori product was also apparent in this spectrum, resonating as a pair of intense peaks at 52.7 and 53.1 ppm. The anomeric (C-2) resonances of the Amadori adduct were seen in the spectrum of RNase glucosylated approximately 1:1 with [U-13C]glucose. This spectrum was interpreted by comparison to the spectra of reference compounds: D-fructose, fructose-glycine, N alpha-formyl-N epsilon-fructose-lysine, and glucosylated poly-L-lysine. In the protein spectrum, the most intense of the C-2 resonances was that of the beta-fructopyranose anomer at 95.8 ppm. The alpha- and beta-fructofuranose anomers were also observed at 101.7 and 99.2 ppm, respectively. One unidentified signal in the anomeric region was observed in the spectra of poly-L-lysine and RNase, both glucosylated with [U-13C]glucose; no comparable resonances were observed in the spectra of the model compounds.
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PMID:13C NMR investigation of nonenzymatic glucosylation of protein. Model studies using RNase A. 664 80

Hepatitis A virus (HAV) mutants containing large deletions within the first pyrimidine-rich tract (pY1; nucleotides [nt] 99 to 138) of the 5' nontranslated RNA (5'NTR) replicate well in cultured cells, while those with pY1 deletions which extend in a 3' direction to include nt 140 to 144 (CUUGU) have a temperature-sensitive (ts) replication phenotype (D.R. Shaffer, E.A. Brown, and S.M. Lemon, J. Virol. 68:5568-5578, 1994). To characterize this replication defect, the ts mutant delta 131-144 was grown under one-step conditions at the nonpermissive temperature (37 degrees C). A shift to the permissive temperature (31 degrees C) for the first 18 h of the viral replication cycle did not enhance virus yields, indicating that temperature sensitivity is not due to a defect in viral entry or uncoating. Similarly, absence of increased yield with a late shift to 31 degrees C between 54 and 72 h suggested that the ts defect does not involve viral assembly. Although monocistronic RNA transcripts containing the delta 99-144 deletion directed translation 22 to 58% less efficiently than the standard 5'NTR in transfected BS-C-1 cells, this difference was present at both 31 and 37 degrees C. In addition, there were no temperature-dependent differences in the abilities of bicistronic transcripts containing either ts or non-ts 5'NTR sequences within the intercistronic space to direct translation of a downstream reporter gene. Thus, ts mutations do not confer a demonstrable temperature-related defect in cap-independent translation. In contrast, an RNase protection assay showed that synthesis of viral plus-strand RNA was markedly delayed in BS-C-1 cells infected with ts virus at 37 degrees C. Analysis of the nucleotide sequence surrounding the deletion in a non-ts revertant derived from delta 116-144 virus revealed that a single U-to-G transversion at nt 114 (CUUUU-->CUUGU) had restored the sequence normally present between nt 140 and 144. These results indicate that ts mutants of HAV with deletions extending downstream from the pY1 domain to nt 140 to 144 are defective in RNA synthesis and that the single-stranded RNA segment containing nt 140 to 144 plays a critical role in replication of HAV RNA.
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PMID:Temperature-sensitive hepatitis A virus mutants with deletions downstream of the first pyrimidine-rich tract of the 5' nontranslated RNA are impaired in RNA synthesis. 766 51

A polymerase chain reaction product was used to isolate mouse brain cDNA clones coding for isoforms of the beta subunit of voltage-dependent Ca2+ channels. The two mouse brain beta 2 subunit cDNA clones described, beta 2a and beta 2b, differed by alternative splicing within the coding region but possessed a unique amino terminus not yet reported in other beta 2 subunit cDNAs. Northern blot and RNase protection analyses demonstrated that both mRNA isoforms could be detected in highest abundance in heart and brain and at lower levels in lung, kidney, and testis. In a novel assay for beta 2 subunit function, COS-1 cells were transfected with alpha 1 and beta 2 subunit expression vectors and assayed for increases in intracellular Ca2+ concentration by using fura-2 imaging. Co-transfection of COS-1 cells with the mouse brain class C-1 alpha 1 subunit expression vector and either of the beta 2 subunit expression vectors resulted in increases in intracellular Ca2+ concentration after stimulation with elevated K+ and the dihydropyridine agonist Bay K 8644. Transfection of either alpha 1 or beta 2 subunit expression vectors alone did not result in an elevation of intracellular Ca2+ concentration. Electrophysiological recording of human embryonic kidney 293 cells transfected with the expression vector for the alpha 1 subunit alone or with either beta 2 subunit demonstrated expression of voltage-dependent Ca2+ channels that were dihydropyridine sensitive. Currents formed by expression of only the alpha 1 subunit were small and slowly inactivated. In contrast, the currents formed by coexpression of alpha 1 subunits with either beta 2 subunit were larger and inactivated more rapidly. Dihydropyridine binding studies demonstrated that coexpression of alpha 1 subunits with beta 2 subunits increased the density of functional receptors, compared with expression of alpha 1 subunits alone. These experiments suggested that coexpression of the alpha 1 and beta 2 subunits produced functional dihydropyridine-sensitive Ca2+ channels and that both beta subunit isoforms had modulatory effects on these channels.
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PMID:Comparison of fura-2 imaging and electrophysiological analysis of murine calcium channel alpha 1 subunits coexpressed with novel beta 2 subunit isoforms. 772 31

The 5' nontranslated RNA (5'NTR) of the HM175 strain of human hepatitis A virus contains several pyrimidine-rich regions, the largest and most 5' of which (pY1) is an almost pure polypyrimidine tract located between nucleotides (nt) 99 and 138, which includes five tandem repeats of the sequence motif (U)UUCC(C). Previous modeling of the RNA secondary structure suggested that this region was likely to be single-stranded, but repetitive RNase V1 cleavage sites within these (U)UUCC(C) motifs indicated that pY1 possesses an ordered structure. To assess the role of this domain in replication of the virus, a series of large deletion mutations were created which involved the pY1 domain of an infectious cDNA clone. Deletion of 44 nt between nt 96 and 139, including the entire pY1 domain, did not reduce the capacity of the virus to replicate in BS-C-1 or FRhK-4 cells, as assessed by the size of replication foci in radioimmunofocus assays or by virus yields under one-step growth conditions. In contrast, viable virus could not be recovered from transfected RNAs in which the deletion was extended in a 5' direction by an additional 3 nt (delta 93-134), most likely because of the destabilization of a predicted stem-loop structure upstream of pY1. Deletion mutations extending in a 3' fashion to nt 140, 141, or 144 resulted in moderately (delta 96-140 and delta 96-141) or strongly (delta 99-144, delta 116-144, and delta 131-144) temperature-sensitive replication phenotypes. Although deletion of the pY1 domain did not by itself affect the replication phenotype of virus, the additional deletion of sequence elements within the pY1 domain (nt 99 to 130) substantially enhanced the temperature-sensitive phenotype of delta 131-144 virus. These data suggest that the (U)UUCC(C) motifs within the pY1 domain are conserved among wild-type viruses in order to serve a function required during infection in vivo but not in cell culture. In contrast, the single-stranded region located immediately downstream of pY1 (nt 140 to 144) is essential for efficient replication in cultured cells at physiological temperature. Viruses with deletion mutations involving nt 140 to 144 and viruses with large pY1 deletions but normal replication phenotypes in cell culture may have attenuation properties which could be exploited for vaccine development.
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PMID:Large deletion mutations involving the first pyrimidine-rich tract of the 5' nontranslated RNA of human hepatitis A virus define two adjacent domains associated with distinct replication phenotypes. 805 38