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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)
1. Three procedures for isolating ribonucleoprotein particles from the cytoplasmic fraction of rat-uterus homogenates are described. By procedure 1, ribonucleoprotein particles were isolated in the presence of 5mm-Mg(2+) and 25mm-K(+), and the postmitochondrial supernatant fraction was made to 1.3% (w/v) in potassium deoxycholate. About 50% of the RNA and protein of the microsomal fraction was recovered in the monomeric ribosomes isolated. By procedure 2, ribonucleoprotein particles were isolated in the presence of 10mm-Mg(2+) and 0.1m-K(+), and in the absence of detergent. The ribosomes obtained were primarily polymeric, but recovery of microsomal RNA and protein was only 32%. By procedure 3, ribonucleoprotein particles were isolated according to procedure 1 but without the use of detergent. A mixture of polymeric and monomeric ribosomes was obtained, and the recovery of microsomal RNA and protein was about 60%. 2. Uterine polymeric and monomeric ribosomes, isolated by procedure 3 and designated ;polyribosomal preparation', were examined for protein-synthesizing capabilities. The principal properties of the cell-free protein-synthesizing system containing the polyribosomal preparation are described. The efficiency of amino acid incorporation in the complete system incubated for 30min. and containing the polyribosomal preparation was found to be either 2.5 molecules of [(14)C]leucine or 2.2 molecules of [(14)C]-
valine
incorporated/ribosome. Assay of the preparation in the complete cell-free system containing 10mm-sodium fluoride indicated that 40% of the incorporation activity is a result of initiation of new polypeptide chains and 60% is due to completion of previously existing chains. Monomeric ribosomes obtained by various treatments of the polyribosomal preparation with sodium fluoride,
ribonuclease
and potassium deoxycholate had decreased incorporation activity in the cell-free system. However, monomeric ribosomes obtained by treatment with sodium fluoride only had an incorporation activity 50% greater than that of monomers obtained by treatment with
ribonuclease
only. 3. The results indicate that uterine polymeric and monomeric ribosomes are sites of amino acid incorporation in vivo and in vitro. It is concluded that most polymeric and monomeric ribosomes occurring in the cytoplasmic fraction of the uterus are free and unattached to membranes, and that the polyribosomes are relatively unstable.
...
PMID:Regulation of polyribosome formation and protein synthesis in the uterus. Isolation of cytoplasmic ribonucleoprotein particles and the principal properties of the cell-free protein-synthesizing system. 1674 35
In Krebs ascites-tumour cells, cytochrome c is segregated in the mitochondria and the level in microsomes could not be measured. At 22 degrees in glucose-buffer Krebs cells synthesized a spectrum of proteins including cytochrome c. Mild osmotic shock in the presence of
ribonuclease
had little effect on incorporation of [(14)C]-leucine or [(14)C]
valine
into mixed mitochondrial protein but strongly inhibited synthesis of non-mitochondrial cytoplasmic proteins. Under these conditions, labelling of cytochrome c was also strongly inhibited. After pulse labelling of Krebs cells at 22 degrees for 10min. the cytcchrome radioactivity found in mitochondria was higher than in microsomes. After addition of unlabelled amino acid as ;chase' there was 137% increase in radioactivity of cytochrome c but only a 3% increase in radioactivity of whole-cell protein. It is concluded that the peptide chain of cytochome c is synthesized on cytoplasmic ribosomes. Mitochondria therefore do not have the character of self-replicating entities, but are formed by the cooperative function of messenger RNA of cytoplasmic ribosomes and, possibly, of intramitochondrial messenger derived from the mitochondrial DNA.
...
PMID:The morphological site of synthesis of cytochrome c in mammalian cells (Krebs cells). 1674 70
Colicin D import into Escherichia coli requires an interaction via its TonB box with the energy transducer TonB. Colicin D cytotoxicity is inhibited by specific tonB mutations, but it is restored by suppressor mutations in the TonB box. Here we report that there is a second site of interaction between TonB and colicin D, which is dependent upon a 45-amino acid region, within the uncharacterized central domain of colicin D. In addition, the 8th amino acids of colicin D (a glycine) and colicin B (a
valine
), adjacent to their TonB boxes, are also required for TonB recognition, suggesting that high affinity complex formation involves multiple interactions between these colicins and TonB. The central domain also contributes to the formation of the immunity complex, as well as being essential for uptake and thus killing. Colicin D is normally secreted in association with the immunity protein, and this complex involves the following two interactions: a major interaction with the C-terminal tRNase domain and a second interaction involving the central domain of colicin D and, most probably, the alpha4 helix of ImmD, which is on the opposite side of ImmD compared with the major interface. In contrast, formation of the immunity complex with the processed cytotoxic domain, the form expected to be found in the cytoplasm after colicin D uptake, requires only the major interaction. Klebicin D has, like colicin D, a
ribonuclease
activity toward tRNAArg and a central domain, which can form a complex with ImmD but which does not function in TonB-mediated transport.
...
PMID:Dual roles of the central domain of colicin D tRNase in TonB-mediated import and in immunity. 1808 10
Angiogenin (ANG) [also known as
ribonuclease
, RNase A family, 5 (RNASE5)], ribonuclease, RNase A family, 1 (pancreatic) (RNASE1) and ribonuclease, RNase A family, k6 (RNASE6) are three members of the RNase A superfamily. It has been suggested that these three genes play important roles in host defense. In this study, we obtained the whole open reading frame (ORF) of each gene and found the deduced proteins contain some similar structures harboring a catalytic triad and an invariant "CKXXNTF" signature motif. One single nucleotide polymorphism (SNP) was detected in each gene (g. 149G>T polymorphism in the porcine ANG gene, which resulted in an amino acid change from glycine to
valine
, g. 296A>G polymorphism in the porcine RNASE1 gene and g. 389C>T polymorphism in the porcine RNASE6 gene). Association analyses revealed the significant associations (P < 0.05) between the porcine ANG g. 149G>T polymorphism and mean corpuscular volume (MCV), mean corpuscular hemoglobin (MCH), mean platelet volume (MPV) and platelet-large cell ratio (P-LCR) measured on 0-day-old pigs and MCV measured at 32 days after birth. The porcine RNASE6 g. 389C>T polymorphism was significantly associated (P < 0.05) with MCV, MCH and neutrophil percentage (NEI %) measured on 0-day-old pigs, respectively. Our current findings, if confirmed by other studies, might shed some light on the roles of the investigated genes in host defense.
...
PMID:The porcine ANG, RNASE1 and RNASE6 genes: molecular cloning, polymorphism detection and the association with haematological parameters. 1924 5
Ribonuclease H2 (
RNase
H2) exhibits both single ribonucleotide excision activity (activity A) and RNA strand degrading activity (activity B). Val143 of human
RNase
H2 is located at the active site and is conserved in eukaryotic
RNase
H2. In this study, we explored the role of Val143 in catalytic activity and substrate specificity. Nineteen single variants at amino acid position 143 were expressed in E. coli, and all variants except for V143C and V143M were purified from the cells. When the activity of the wild-type human
RNase
H2 (WT) was set as 100%, the relative activities A and B of the 17 variants were in the range of 0.05-130 and 0.02-42%, respectively. When the ratio of the relative activity A to the relative activity B of WT was set as 1, the ratios of the 17 variants were in the range of 0.2-5.7. This indicates that
valine
is optimal for balancing the two activities. The ratios for V143Y and V143W were relatively high (5.6 and 5.5, respectively), suggesting that the bulky residues like tyrosine and tryptophan at position 143 caused steric hindrance with the 2'-OH of the sugar moiety of the ribonucleotide at the 5' side of the scissile phosphodiester bond. The ratio for V143Q was relatively low (0.2). These results suggested that Val143 is not critical for, but plays a role in determining catalytic activity and substrate specificity.
...
PMID:Val143 of human ribonuclease H2 is not critical for, but plays a role in determining catalytic activity and substrate specificity. 3206 11
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