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)

Bacillus mesentericus was found to assimilate nucleic acids as a source of nitrogen and phosphorus. Nucleic acids added to the medium as a source of nitrogen or phosphorus stimulated synthesis of ribonuclease. When washed bacterial cells were incubated for a short period of time in a fresh nutrient medium containing RNA, synthesis of RNAase was also induced. Synthesis of the enzyme was inhibited by high concentrations of chloramphenicol and actinomycin D, and stimulated by low concentrations of actinomycin D. Therefore, alkaline RNAase is an inducible enzyme which participates in the nutrition processes of bacteria.
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PMID:[Effect of exogenous factors on extracellular alkaline ribonuclease synthesis in Bacillus mesentericus]. 67 81

1. Nitrogen retention was determined by classical N balance techniques in fourteen rapidly growing low-birth-weight infants receiving 3 g protein/kg body-weight and during their 3rd week of life. This was compared with plasma free alkaline ribonuclease (EC 3.I.4.22; RNase) activity and other biochemical measurements of protein nutrition. 2. Plasma RNase showed a significant positive correlation with N retention and a corresponding negative correlation with urine urea-N. These results were unexpected and suggest a different relationship between RNase and N retention in infants compared with that found by other workers in children and adults. 3. The most likely explanation of this apparent anomaly is that in all instances high activities of plasma RNase are associated with a need to conserve N. In the infants studied this may indicate some measure of 'protein economy' and they could therefore benefit from a higher protein intake.
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PMID:Plasma alkaline ribonuclease (EC 3.1.4.22) and nitrogen retention in low-birth-weight infants. 71 28

Bacillus mesentericus is found to secrete three type of nucleases: alkaline ribonuclease (EC 2.7.7.17), acidic ribonuclease (EC 2.7.7.17) and Ca2+-activated exonucleease (EC 3.1.4.7). These nucleases are purified and characterized. They are similar to those from Bac. subtilis in main biochemical and physico-chemical properties and in their chromatographical behaviour. Studying physiological functions of Bac. mesentericus extracellular nucleases, it is shown that bacteria, which are capable to produce extracellular nucleases, utilize exogenous RNAs and a bit worse, DNAs as a single and additional source of nitrogen or phosphorus. In view of this it is believed that extracellular nucleases participate in bacteria nutrition.
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PMID:[Extracellular nuclease of Bacillus mesentericus]. 102 89

Infusion of cycloheximide i.v., an antibiotic known to inhibit synthesis of protein, at a rate of 0.2 mg/kg/hr, reliably caused lysis of fever in 15 chronically febrile patients with Hodgkin's disease who did not have detectable bacterial, fungal, or viral infection. Antipyretic effects were also seen in some patients with reticulum cell sarcoma, lymphosarcoma, acute leukemia, histiocytic medullary reticulosis, plasma cell myeloma, carcinoma of the lung, and carcinoma of the cervix. The drug failed to produce defervescence in four patients with normal granulocyte reserves, who were febrile due to bacterial infection. When infused at a rate of 0.2 mg/kg/hr, the drug apparently caused an acute alteration of protein metabolism in man in that plasma amino acid nitrogen rose acutely while plasma levels of muramidase and ribonuclease fell during the period of the infusion. The data suggest that continuing synthesis of protein may be involved in nonbacterial fever of neoplastic disease. Mammalian granulocytes and monocytes are known to elaborate a pyrogenic protein following appropriate stimulation; it is suggested that in some types of neoplastic disease, particularly Hodgkin's disease, tumor cells may produce and release a pyrogenic protein and that drug-induced inhibition of its synthesis is responsible for the observed lysis of fever.
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PMID:Antipyretic effect of cycloheximide, and inhibitor of protein synthesis, in patients with Hodgkin's disease or other malignant neoplasms. 109 49

Decay of pre-existing ribonucleic acid was studied in Escherichia coli cells subjected to high temperature or to starvation for nitrogen, phosphate, amino acids, or a carbon source. In these studies a series of mutants affected in ribonucleic I(RNase I, EC 3.1.4.22) polynucleotide phosphorylase (EC 2.7.7.8) or ribonuclease II (RNase II, EC 3.1.4.23) were used. Degradation of total RNA and the disappearance of 23 S and 16 S rRNA were followed. The results obtained indicated that, by and large, decay of 23 S and 16 S RNA parallels that of total RNA. Decay of RNA depended on the nuclease content of the cells as well as on the treatment of applied. It was most pronounced during carbon starvation and least in cells deprived of phosphate ions. It was most effective in strains containing all three nucleases and least in the strain defective in all three. The exonucleases polynucleotide phosphorylase and RNase II did not seem to affect the extent of 23 S and 16 S RNA disappearance. Strains with modified exonucleases did accumulate low molecular weight RNA species during treatments which induced considerable degradation of 23 S and 16 S RNA. Based on the above date and previous observations, we suggest that during various starvations a similar mechanism is operative. The 23 S and 16 S RNAs are degraded endonucleolytically, and this is the rate-limiting step during starvation. The exonucleases polynucleotide phosphorylase and RNase II seem to participate primarily in the decay of the low molecular weight RNA species formed by the endonuclease(s), not as yet identified.
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PMID:Decay of ribosomal ribonucleic acid in Escherichia coli cells starved for various nutrients. 109 48

A procedure for the preparation of a large quantity of biologically active, highly purified ribosomes from rabbit liver is described. The method employs polyethylene glycol-dextran sulfate parition and DEAE-cellulose chromatography to overcome the limitations encountered in conventional procedures. The entire process takes only 48 h to obtain 10,000 A(260) units of ribosomes. The ribosomes thus obtained are predominantly 78S particles with a constant protein-RNA ratio of 0.95. The ribosomes are free from RNase, amino-acyl-tRNA synthetase, and amino-acyl-tRNA: protein transferase activity. The protein synthesizing activity is dependent on added mRNA and protein factors. These ribosomes are stable for prolonged periods of storage in a liquid nitrogen refrigerator.
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PMID:Cell-free protein synthesis in t,e rabbit liver ribosomal system. II. Large scale preparation of purified 80S ribosomes. 113 93

Cytochrome d has been postulated to be the "respiratory protection" oxidase of Azotobacter vinelandii, allowing this organism to fix nitrogen under aerobic growth conditions. We have previously cloned and characterized the structural genes for the A. vinelandii cytochrome d (cydA and cydB). The cyd genes are co-transcribed, yielding an mRNA of approximately 3.6 kilobase pairs. The level of the cyd message was 2-3-fold higher in cells that were fixing nitrogen, as compared with non-nitrogen-fixing cells. RNase protection analysis was used to determine the transcriptional start site at 275 bases upstream of the initiator ATG of cydA, and this start site was the same for nitrogen-fixing and non-nitrogen-fixing cells. The cyd promoter has sequence similarities to the canonical Escherichia coli promoters, which are transcribed by the major sigma 70 form of RNA polymerase. Plasmid-borne lacZ transcriptional fusions were constructed, using approximately 650 base pairs of 5'-upstream sequences of the cyd structural genes. This region had a strong promoter activity which was further up-regulated 1.5-2.5-fold upon the induction of nitrogen fixation. The cyd-lacZ fusions were characterized in a nifA- as well as an ntrA- background. Mutations in neither of these nif regulatory genes affected the constitutive expression of cyd under non-nitrogen-fixing conditions. However, the up-regulation of this promoter during the induction of nitrogen fixation was abolished only in the ntrA- background. Based on these results, the cytochrome d promoter of A. vinelandii belongs to a new class of nitrogen-regulated promoters which, unlike the authentic nif genes, does not require the ntrA gene product for its expression. The up-regulation of this promoter during nitrogen fixation, however, requires the ntrA gene product.
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PMID:Transcriptional regulation of cytochrome d in nitrogen-fixing Azotobacter vinelandii. Evidence that up-regulation during N2 fixation is independent of nifA but dependent on ntrA. 166 Apr 68

Oligoamines such as ethylenediamine and diethylenetriamine exhibit remarkable catalysis for the hydrolysis of RNAs. Methyl substitution of ethylenediamine at the nitrogen atoms causes virtually no effect on the catalytic activity, indicating that attachment of the oligoamines to sequence-recognizing moiety provides superb artificial ribonuclease.
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PMID:Facile cleavage of RNAs by oligoamines. Correlation between amine structure and catalytic activity. 172 9

The polyamines (PA) spermidine (SD) and spermine and their precursor putrescine (PU) play a leading role in the regulation of protein, RNA and DNA synthesis. We examined the role of PA along with other biomarkers of injury in eight victims of multiple trauma in the early post-traumatic period when they were hypermetabolic and highly catabolic. Intravenous nutritional therapy (TPN) was started 48 to 60h after trauma and continued for 6 days. The basal response to severe trauma was a significant (twofold to threefold) rise in urinary PU (p = 0.05) and SD (p = 0.025) levels compared to normal subjects. Six days of TPN further enhanced the basal excretion of PU (157%) and SD (137%) peaking on the third day. There was a 20% reduction in the excretion of 3-methylhistidine on the first day of TPN, but it was still 40% above normal on the sixth day. The negative nitrogen balance was improved but not reversed. Injury stimulated ribonuclease and catecholamine levels were also enhanced by nutritional therapy, peaking on the first and fourth day of TPN, respectively. This study demonstrated for the first time elevated levels of PA in trauma patients that correlated well with the other known measures of protein metabolic response to injury and changes during nutritional therapy. Extracellular PA levels could be used as markers of both catabolic pathology in trauma and of its response to nutritional therapy.
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PMID:Effect of nutritional therapy on polyamine metabolism in severely traumatized patients. 180 84

Uniformly 15N-enriched ribonuclease T1 (RNase T1) was obtained from Escherichia coli by recombinant techniques. Heteronuclear 1H, 15N-shift correlation spectra were recorded utilizing proton detection. Direct 1H, 15N connectivities were established applying the heteronuclear multiple-quantum coherence technique. Additional 1H, 1H-TOCSY or 1H, 1H-NOESY transfer steps allowed for sequential assignments. Nitrogen atoms without directly bonded protons were detected by means of the heteronuclear multiple-bond correlation experiment. Signals emerging from 15NH and 15NH2 groups were distinguished by heteronuclear triple-quantum filtering methods. 119 nitrogen resonances out of the expected 127 were assigned unambiguously; in addition, previously obtained proton assignments were extended. Preliminary 1H, 15N NMR investigation were performed on the RNase-T1-3'GMP inhibitor complex. Results were interpreted with respect to nucleotide binding.
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PMID:Two-dimensional 1H, 15N-NMR investigation of uniformly 15N-labeled ribonuclease T1. Complete assignment of 15N resonances. 190 6

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