EC:3.1.27.5 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

Query: EC:3.1.27.5 (RNase)
17,967 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Folding of bovine pancreatic ribonuclease A (RNase A) is a sequential process which involves the formation of well-populated structural intermediates under suitable conditions. Two intermediates have been detected on the major slow-refolding pathway of RNase A: a late intermediate (IN) which already resembles the native protein in a number of properties and a rapidly formed early intermediate (I1) which shows extensive hydrogen-bonded secondary structure. Here competition experiments between refolding and proteolytic cleavage of the peptide chain are described which yield information about the decrease in accessibility of particular proteolytic cleavage sites during the folding process. Results obtained with pepsin as a proteolytic probe of folding indicate that the primary cleavage site for pepsin, Phe-120-Asp-121, becomes inaccessible early in the course of refolding, if folding is carried out under conditions which effectively stabilize the native state. Under marginally stable conditions, folding is very slow, and protection against peptic cleavage is not detectable prior to the final formation of native protein. The comparison with amide proton exchange experiments suggests that the protection against peptic cleavage occurs during the formation and/or stabilization of hydrogen-bonded secondary structure in the early intermediate (I1). We conclude that the carboxy-terminal region of the RNase peptide chain, which is known to be important for the stability of the folded protein, may also be relevant for early steps of refolding.
...
PMID:An early intermediate in the folding of ribonuclease A is protected against cleavage by pepsin. 642 47

Transfer RNA (tRNA) has been demonstrated to be present in axons of both invertebrates and the higher vertebrates, but nothing is known of its role in the metabolism of the axon. The present experiments were performed to determine whether tRNA functions in axons as a participant in post-translational protein modification of endogenous proteins. RNA was extracted from the axoplasm of squid giant axons and incubated with a variety of 3H-amino acids, aminoacyl-tRNA synthetases (obtained from squid optic lobe), and an appropriate reaction mixture. All of the amino acids tested were bound to an RNA fraction, but this reaction did not occur when samples were incubated in the presence of ribonuclease or in the absence of axoplasmic RNA. When radioactive RNA was chromatographed by polyacrylamide gel electrophoresis, the radioactivity comigrated with known tRNA markers, suggesting the presence of 3H-aminoacylated tRNA. Aminoacylation of RNA could also be demonstrated by incubating fresh axoplasm with labeled amino acids and a reaction mixture, minus exogenous aminoacyl-tRNA synthetases. These findings indicate the presence in axoplasm of a variety of species of aminoacyl-tRNAs as well as their corresponding synthetase enzymes. In the latter experiment no radioactivity was found associated with the protein fraction. This was also the finding when 3H-aminoacylated tRNA was either injected directly into the axon or incubated with extruded axoplasm. Thus, under the conditions described above, there is no evidence of transfer of amino acids from tRNA to proteins. In other experiments, axoplasm was pooled to a volume of 50 to 100 microliters, homogenized gently, and centrifuged at 150,000 X g for 1 hr. Some of the high speed supernatant was incubated with labeled amino acids and an appropriate reaction mixture, and the remainder was passed through an S-200 Sephacryl column before incubation with the same reaction mixture. There was no incorporation of amino acids into protein in the high speed supernatant fraction. However, in the S-200 purified fraction 3H-labeled Arg, Lys, Tyr, Leu, and Asp were all incorporated into proteins in amounts of 44, 30, 7, 5 and 3.5 times heat-inactivated controls. The reaction is not inhibited by Ca2+ or Ca2+-activated proteases, but appears to be dependent on the presence of tRNA. The addition of amino acids to protein is not protein synthesis since the reactions occurred in a partially purified fraction of the 150,000 X g supernatant, a fraction devoid of ribosomes and free amino acids.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Incorporation of 3H-amino acids into proteins in a partially purified fraction of axoplasm: evidence for transfer RNA-mediated, post-translational protein modification in squid giant axons. 655 12

We have investigated the effect of size and location of the oligosaccharide chain on protease degradation of bovine pancreatic ribonuclease. The sensitivity of nonglycosylated RNase A to trypsin and chymotrypsin was compared with three glycosylated species of RNase B which differed with respect to the size of the carbohydrate chain. Two forms of glycosylated RNase B were isolated by concanavalin A-Sepharose affinity chromatography, and each was shown to contain a single carbohydrate chain composed of GlcNAc2Man1 (RNase B") or GlcNAc2Man5-8 (RNase B). A third form (RNase B'), with oligosaccharide composed of GlcNAc2Man4, was prepared by partial digestion of RNase B with alpha-mannosidase. Fully glycosylated RNase B was found to be 6-10 times more resistant to trypsin digestion than nonglycosylated RNase A. RNase B' and B", with intermediate chain sizes, were 3.0- and 1.3-fold more resistant to trypsin digestion than RNase A, respectively. With chymotrypsin, however, differences in rates of digestion were much less marked, with a maximum difference of 3-fold between RNase A and B. In addition, we found that the specificity of the primary trypsin (Arg 33-Asp 34 bond) or chymotrypsin (Tyr 25-Cys 26 bond) cleavage site was not affected by the presence or size of the oligosaccharide chain. These results are consistent with the view that the size of the oligosaccharide chain and its proximity to the primary or rate-limiting cleavage site are important for expression of the carbohydrate protection against proteolytic degradation, which thus appears to be mediated by steric hindrance.
...
PMID:Effect of size and location of the oligosaccharide chain on protease degradation of bovine pancreatic ribonuclease. 663 Jan 85

Poly(A)-protein particles were prepared from rat liver nuclear extract after digestion with pancreatic ribonuclease and ribonuclease T1 by sucrose gradient centrifugation. The particles were sedimented in a range of 9-23S with a peak at 16S. The particles isolated in this manner were 99-100% resistant to further pancreatic ribonuclease treatment and contained more than 90% adenylic acid. In CsCl density gradient the nuclear poly(A)-protein particles banded in a narrow density range of 1.28-1.32 g/cm3 with a peak at 1.30 g/cm3, which corresponds to about 90% of protein in the particles. The average length of the poly(A) molecules prepared from the 16-S particles was about 140 nucleotides. Urea/sodium dodecyl sulphate/polyacrylamide gel electrophoresis demonstrated two major polypeptide components with Mr of 63 000 and 90 000 and at least ten minor polypeptides in the 45 000-130 000-Mr range. In sodium dodecyl sulphate/polyacrylamide gels the 63 000-Mr polypeptide was the only one major component. Amino acid analysis of the polypeptides bound to nuclear poly(A) revealed that the polypeptides contained a relatively large amount of aspartic acid + asparagine and glutamic acid + glutamine (24%). Treatment of glutaraldehyde-fixed particles with micrococcal nuclease showed that more than 90% of the poly(A) was accessible to the enzyme, thus almost the entire poly(A) should be located on the surface of the particles. On the basis of the results a model for the 'average' 16-S particle was constructed.
...
PMID:Structural characterization of nuclear poly(A)-protein particles in rat liver. 683 52

The hydrolysis of several tRNAs by an endonuclease extracted from the venom of Naja oxiana and specific for double-stranded, or at least highly ordered, regions has been studied under various experimental conditions. It is shown that the hydrolysis patterns of yeast tRNAPhe, tRNAVal and tRNAAsp in the isolated state are similar, most of the cuts occurring in the anticodon and acceptor stems. Ionic conditions are able to modify the hydrolysis pattern. The origin of these modifications is discussed. The protection against ribonuclease action, afforded to tRNAPhe, tRNAVal and tRNAAsp by the cognate aminoacyl-tRNA synthetase, is analyzed. It is shown that in all cases the anticodon stem is protected. The 3'-terminal region does not seem to be tightly engaged in the complex with the aminoacyl-tRNA synthetase. These results are discussed in the light of information on contact areas previously obtained by ultraviolet cross-linking techniques. The effects of the small ligands (ATP and amino acid) on the protection afforded to the tRNA by the cognate synthetase, have been studied. In the valine and aspartic acid systems, ATP induced a modification of the tRNA-enzyme complex leading to differences in the hydrolysis pattern of the 3'-accepting region. The effects of aminoacylation on the cleavage of tRNAPhe, tRNAVal and tRNAAsp were also studied. Whereas no modification of the cleavage map was observed in the aspartic system, aminoacylation resulted in slight but significant modifications of the hydrolysis pattern for tRNAPhe and tRNaVal in the 3'-terminal region.
...
PMID:Comparison of the hydrolysis patterns of several tRNAs by cobra venom ribonuclease in different steps of the aminoacylation reaction. 691 54

1. RNase Ms, a base non-specific RNase from Aspergillus saitoi was reduced and carboxymethylated (RCM-RNase Ms). RCM-RNase Ms was hydrolyzed with trypsin, and the trypsin digests were then treated with chymotrypsin. Trypsin digests were also treated with Staphylococcus protease and with chymotrypsin, separately. 2. By the analyses of the amino acid sequences of the peptides formed, the alignment of these peptides in RCM-RNase Ms was determined. 3. From the digest of heat-denatured RNase Ms with Bacillus subtilis protease, two peptides containing disulfide bridges were isolated. From the analysis of these two peptides, the locations of the bridges were determined. 4. The amino acid sequence of RNase Ms was compared with those of RNase T1 (Asp. oryzae, guanine specific), RNase U1 (Ustilago sphaerogena, guanine specific) and RNase U2 (Ustilago sphaerogena, purine specific). There are very similar sequences between these for RNases irrespective of their differences in base specificity. These were, in RNase Ms, tripeptide sequence containing His39 (Tyr-Pro-His), the tetrapeptide containing Glu57 (Glu-Tyr-Pro-Ile), the hexapeptide containing Arg76 (Asp-Arg-Val-Ile-Phe-Asp) and the hexapeptide containing His 91 (Ile-Thr-His-Thr-Gly-Ala). The other sequences common for all four RNases are Tyr67, Phe100, and Cys103 in RNase Ms. Since among these peptides His39, Glu57, His91, and Arg76 in RNase Ms corresponded to His40, Glu58, His92, and Arg77 in RNase T1 which are known to be involved in the active site of RNase T1, the possible role of these amino acids in the active site of RNase Ms is discussed. 5. The sequence similarity of RNase Ms to that of RNase T1 was about 60% and to those of RNase U1 and RNase U2 was about 30%. 6. The details of the experimental evidence used to elucidate the amino acid sequence of RNase Ms are described in the supplemental miniprint.
...
PMID:Primary structure of a minor ribonuclease from Aspergillus saitoi. 709 2

The amino acid sequences of the pancreatic ribonucleases from African porcupine (Hystrix cristata) and casiragua (Proechimys guairae, a caviomorph rodent species related to the coypu) were determined. The ribonucleases were isolated form minces of pancreatic tissue which had been used for the extraction of the insulins. The results of the sequence determinations of residues 67-78 in both enzymes were ambiguous. Therefore, homology with other ribonucleases has been used in deriving these sequences. At position 94 aspartic acid was found, while all other ribonuclease sequenced to date have asparagine at this position. This may indicate a specific deamidation as a result of the acidic conditions during the extraction of insulin. The amino acid sequence of African porcupine ribonuclease shows a close relationship with those of the South-American caviomorph rodents, which implies that the hystricomorph suborder of the rodents, to which both the African porcupine and the caviomorphs belong, is a natural (evolutionary) taxon. Both porcupine and casiragua ribonuclease are glycoproteins with complex-type carbohydrate chains attached to asparagine-34.
...
PMID:The primary structures of pancreatic ribonucleases from African porcupine and casiragua, two hystricomorph rodent species. 711 27

Previous studies have described the isolation of mutationally altered proteases in Pseudomonas fragi (Noreau, J., and Drapeau, G.R. (1979) J. Bacteriol, 140, 911-916. In the present study, it is shown that one of these proteases cleaves specifically the peptide bonds on the NH2-terminal side of either aspartic acid or cysteic acid residues in oxidized ribonuclease. With myoglobin as the substrate, a similar specificity was observed except that only four out of the six aspartyl bonds present were hydrolyzed.
...
PMID:Substrate specificity of a proteolytic enzyme isolated from a mutant of Pseudomonas fragi. 718 96

The crystal structure of purine-specific ribonuclease (RNase) U2 from Ustilago sphaerogena has been solved by the molecular replacement methods using RNase T1 as a search model. The structure, with 114 amino acid residues, 141 water molecules, and a sulfate ion, is refined to an R factor of 0.143 at 1.8 A resolution. As evidenced by the electron densities, residues 49 and 50 are revised to Glu 49 and Asp 50, respectively, and also Asp 45 is identified as a beta-isomerized form to L-isoaspartate with a beta-peptide linkage. RNase U2 consists of a beta-hairpin at residues from 7 to 14, a 4.4-turn alpha-helix from 16 to 32, a central beta-sheet with five strands, and a protruding beta-turn from 74 to 77. As for the catalytic site residues, His 41, Glu 62, and Arg 85 are located as constituents of the central beta-sheet, and Tyr 39 and His 101 are situated at either end of the beta-sheet. The side chains of Tyr 39, Glu 62, Arg 85, and His 101 are hydrogen-bonded to the sulfate ion which marks the RNA phosphate position. Though the side chain of His 41 is pointing away from the sulfate, small conformational adjustments of His 41 enable the side chain to interact with either the phosphate or the ribose group of RNA. The loop region from Tyr 44 to Asp 50 is ascribed to the base recognition site where Glu 49 is involved in adenine recognition. beta-Isomerized Asp 45 suggests that this region is conformationally flexible and alterable.
...
PMID:Crystal structure of Ustilago sphaerogena ribonuclease U2 at 1.8 A resolution. 749 61

TTF-1 is a homeodomain-containing transcription factor mainly expressed in the thyroid where it controls the tissue-specific expression of the thyroglobulin, thyroperoxidase and TSH receptor genes. It is therefore potentially implicated in the hormonal control exerted by thyrotropin via the second messenger cyclic AMP on the transcription of these genes in thyrocytes. In order to investigate whether there exists a relationship between the stimulation of the cAMP pathway and TTF-1 gene expression in these cells, we have compared the amounts of TTF-1 protein, its state of phosphorylation and its subcellular distribution in control and cAMP-stimulated dog thyrocytes in primary culture. Dog TTF-1 was expressed in bacteria as a fusion protein and antibodies were raised against the dog TTF-1 moiety. Stimulation of the thyrocytes by cyclic AMP agonist only marginally increased TTF-1 gene expression as shown for the mRNA by RNase protection assay and for the protein by immunoblotting and immunoprecipitation of extracts from 35S-methionine labelled cells. The phosphorylation state of TTF-1 was investigated by immunoprecipitation of extracts from 32P-labelled thyrocytes. Phosphorylation level appeared to be essentially unaffected by forskolin treatment of the cells. We also looked for differences in the use of phosphorylation sites by partial proteolytic digestion of immunoprecipitated 32P-labelled TTF-1 with Glu-C and Asp-N endoproteases. Comparison of radioactivity distribution amongst the generated fragments did not reveal any difference in the pattern of TTF-1 phosphorylation in control and forskolin conditions. Lastly, in situ detection of TTF-1 by immunofluorescence demonstrated that the protein was localized in the nucleus of the cells, irrespective of the culture conditions. No major change in TTF-1 gene expression upon stimulation of the thyrocyte with a cAMP agonist could thus be detected in this study. The absence of an obvious modification of the TTF-1 protein itself in response to cAMP stimulation may indicate that other transcription factor(s) or co-factor(s) are involved in the control exerted by cAMP on the expression of thyroid-specific genes.
...
PMID:Study of TTF-1 gene expression in dog thyrocytes in primary culture. 758 89

<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>