EC:3.1.27.5 - FACTA Search

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

RNA identified by its base composition and T1 RNase oligonucleotide pattern as the message for silk fibroin was purified from mature posterior silk glands of Bombyx mori larvae and used to direct polypeptide synthesis in an Ehrlich ascites cell-free extract. Fibroin mRNA stimulated [3-H]alanine incorporation about 3- to 4-fold in the presence of 80 mM K+ and 4 mM Mg-2+. The stimulation was reduced in the presence of 5 times 10-minus 6 to 10-minus 4 M aurintricarboxylic acid, an inhibitor of the initiation of protein synthesis. The cell-free products were heterogeneous in size, including peptides as large as 100,000 daltons. They co-precipitated with carrier fibroin sequences after digestion with trypsin. A large fraction of the polypeptides synthesized in response to fibroin mRNA was precipitated by antiserum directed against amino acid sequences in noncrystalline region polypeptides of fibroin. Furthermore, after digestion with chymotrypsin, a major fraction of the cell-free products specifically co-precipitated with crystalline region sequences of native fibroin. The size and amino acid composition of the fibroin crystalline region polypeptides isolated from the cell-free products were similar to those from native fibroin.
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PMID:Translation of silk fibroin messenger RNA in an Ehrlich ascites cell-free extract. 117 Oct 97

Raney nickel (Ni(H)) catalyzes a specific reductive cleavage of carbon-sulfur bonds and, therefore, can be used to determine whether compounds are covalently bound to proteins through a sulfide linkage. When the covalent thymidylate synthetase-[3H]5-fluoro-2'-deoxyuridylic acid-[14C]-5,10-CH2H4-folate complex (Langenbach et al. (1972a), Biochem, Biophys. Res. Commun. 48, 1565) was denatured and then shaken with Ni(H) at 25 degrees C, both isotopes were rapidly cleaved from the protein, with identical reaction halftimes of less than 10 min. The liberated radioactivity was filterable through nitro-cellulose filters and comigrated with small molecules on Sephadex G-25. Both labels migrated identically upon paper chromatography. A [3H]5-fluoro-2'-deoxyuridylic acid-[35S]thymidylate synthetase complex was formed with enzyme isolated from Lactobacillus casei grown in the presence of [35S]cysteine. This complex, upon Ni(H) treatment, released both tritium and sulfur-35 at identical rates. Control experiments on amino acids showed that only the sulfur-containing amino acids are degraded by Ni(H). Cysteine was rapidly converted to alanine and methionine to alpha-aminobutyric acid. 5-Carboxymethylcysteine and 5-uracilylcysteine, simple models for the tenary enzyme-5-fluoro-2'-deoxyuridylic acid-5,10-CH2H4-folate complex, were converted to alanine at the same rate that 5-fluoro-2'-deoxyuridylic acid (FdUrd-5'-P) was cleaved from the enzyme. Native ribonuclease, which has a tightly coiled structure, was not affected by the reagent, but carboxymethylated ribonuclease was desulfurized. Amino acid analysis of Ni(H)-treated thymidylate synthetase showed that cysteine was the only amino acid degraded. Gel electrophoresis of the proteins after exposure to Ni(H) showed no breakage of polypeptide chains. These results support a sulfide linkage between FdUrd-5'-P and thymidylate synthetase in the covalent complex.
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PMID:The effect of Raney nickel on the covalent thymidylate synthetase-5-fluoro-2'-deoxyuridylate-5,10-methylenetetrahydrofolate complex. 125 51

The relationship of structure to function in the recognition of ribonuclease S-peptide by S-protein was studied by several methods. Liquid phase peptide synthesis was employed to generate analogs of S-peptide in which from 1 to 8 residues were deleted from the NH2-terminal end of the S-peptide. Additional derivatives were made by substitutions in the NH2-terminal three amino acids or by modifying the S-peptide analogs by trifluoroacetylation. The analogs were generated in the following way. S-Peptide was cleaved with chymotrypsin. The fragment obtained, RNase(9-20), was purified and lengthened step by step using liquid phase peptide synthesis. A second set of analogs were prepared by cleavage of CF3CO-S-peptide with elastase and the resulting CF3CO-RNase(7-20), similarly lengthened. The various analogs of S-peptide were tested in their capacity to combine with S-protein and regenerate biological activity as measured by Vmax and Kb. This work shows a positive contribution of every one of the first 8 NH2-terminal residues of S-peptide to the molecular recognition of S-protein in the presence of RNA substrate. Substitution of the first 3 residues by alanine or blocking of the free amino groups decreases recognition, indicating that the original primary structure is the most favorable one.
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PMID:Ribonuclease S-peptide. A model for molecular recognition. 125 70

The addition of cationic proteins such as lysozyme, ribonuclease and cytochrome C enhanced the beta-lactam-induced bacteriolysis of staphylococci measured as release of wall label or by optical density. The treatment of staphylococci with penicillin plus cytochrome C resulted in a reduced viability of bacteria compared with those treated with penicillin alone. The wall autolysis and the penicillin-induced bacteriolysis of staphylococci were enhanced by the lysosomal enzyme cathepsin C. The penicillin-induced bacteriolysis was also enhanced by the D-amino acids D-alanine and D-methionine, while the comparable L-amino acids did not reveal any activity. On the other hand, some polyanionic substances were able to suppress the penicillin-induced bacteriolysis. Radiochemical and electron microscopic studies revealed the participation of bacterial wall autolysins in the first steps of degradation processes of staphylococcal walls within murine bone marrow-derived macrophages.
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PMID:The modulation of the bacteriolytic effect of beta-lactam antibiotics by non-antibiotics. 129 43

The size of the cavity around Ser68 of Escherichia coli ribonuclease HI was modulated by amino acid substitutions to examine the effects on the stability of the enzyme. Five mutant proteins, Ser68----Gly, Ser68----Ala, Ser68----Thr, Ser68----Val and Ser68----Leu, were constructed. Each of the mutant proteins exhibited at least 40% of the enzyme activity of the wild-type protein. The stabilities of the mutant proteins were determined from urea-denaturation and thermal-denaturation curves. Among the five mutations, only the Ser----Val mutation resulted in an increase in the stability of the enzyme. The melting temperature, tm, at pH 3.0 of the mutant protein Ser68----Val was increased by 1.9 degrees C. Its free-energy change of unfolding in the absence of urea, delta G(H2O), and the midpoint of the denaturation curve, [D]1/2, were also increased by 5.4 kJ/mol and 0.18 M, respectively. The increase in the stability of the enzyme is probably due to the filling of the cavity space around Ser68 by valine. However, the mutation of Ser68 to glycine or leucine residues resulted in a considerable decrease in stability. In these cases, some conformational changes occur, as suggested by the CD and 1H-NMR spectra of these mutant proteins.
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PMID:Effect of cavity-modulating mutations on the stability of Escherichia coli ribonuclease HI. 131 95

A hybrid enzyme which site-specifically hydrolyzes RNA was created by covalently linking an oligodeoxyribonucleotide to Escherichia coli ribonuclease HI, an enzyme which specifically cleaves RNA moiety of DNA/RNA hybrids. A cysteine residue was substituted for Glu135 by site-directed mutagenesis in the mutant enzyme, in which all 3 free cysteine residues were replaced by alanine (Kanaya, S., Kimura, S., Katsuda, C., and Ikehara, M. (1990) Biochem. J. 271, 59-66), and coupled with a maleimide group, which is attached to the 5' terminus of the nonadeoxyribonucleotide (5'-GTCATCTCC-3') with a flexible tether. The resulting hybrid enzyme, d9-C135/RNase H, cleaved the phosphodiester bond between the fifth and sixth residues of the complementary nonaribonucleotide, without addition of the oligodeoxyribonucleotide. The nonaribonucleotide is cleaved by the wild-type or unmodified mutant enzyme only when the complementary oligodeoxyribonucleotide is present. When the kinetic parameters of the hybrid enzyme for the hydrolysis of the nonaribonucleotide were compared with those of the unmodified mutant enzyme for the hydrolysis of the nonanucleotide duplex, the hybrid enzyme exhibited a 7- and 4-fold decreases in the Km and kcat values, respectively, indicating that it performs multiple turnovers and has a sufficiently high hydrolytic activity. Hybrid ribonucleases H with various oligodeoxyribonucleotides in size and sequence, therefore, might be used as excellent tools for structural and functional studies of RNA.
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PMID:A hybrid ribonuclease H. A novel RNA cleaving enzyme with sequence-specific recognition. 137 29

The native state of a protein molecule in aqueous solutions represents one of the lowest states of Gibbs energy [Anfinsen, C.B. (1973) Science 181, 223-230]. Much progress has been made about the rules of protein folding [King, J. (1989) Chem. Eng. News 67, 32-54] and the dominant forces in protein folding [Dill, K.A. (1990) Biochemistry 29, 7133-7155]. However, the quantitative contributions of different Gibbs energy terms to protein stability remains a controversial issue [Moult, J., & Unger, R. (1991) Biochemistry 30, 3816-3824]. A molecular thermodynamic model has been proposed for the Gibbs energy of folding a residue in aqueous homopolypeptides from a random-coiled state to either the alpha-helix state or the beta-sheet state [Chen, C.-C., Zhu, Y., King, J.A., & Evans, L.B. (1992) Biopolymers 32, 1375-1392]. In this work, we present a generalization of the molecular thermodynamic model for the Gibbs energy of folding natural and synthetic heteropolypeptides from random-coiled conformations into alpha-helical conformations. The generalized model incorporates the intrinsic folding potential due to residue-solvent interactions, the cooperative folding effect due to residue-residue interactions, and the location and length of alpha-helices. The utility of the model was demonstrated by examining the stability of alpha-helical conformations of a number of natural polypeptides including C-peptide (residues 1-13) and S-peptide (residues 1-20) of RNase A (bovine pancreatic ribonuclease A), the P alpha fragment in BPTI (bovine pancreatic trypsin inhibitor), and synthetic polypeptides (the copolymers of different amino acid residues) including alanine-based peptides (16 or 17 residues long) in water. The computed Gibbs energies correspond well with the experimental data on helicity. The results also accounted for the effects of amino acid substitution and temperature on the stability of alpha-helical conformations of the test polypeptides.
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PMID:Molecular thermodynamic model to predict the alpha-helical secondary structure of polypeptide chains in solution. 142 Jan 74

In order to study the structure-function relationship of an RNase T2 family enzyme, RNase Rh, from Rhizopus niveus, we investigated the roles of three histidine residues by means of site-specific mutagenesis. One of the three histidine residues of RNase RNAP Rh produced in Saccharomyces cerevisiae by recombinant DNA technology was substituted to a phenylalanine or alanine residue. A Phe or Ala mutant enzyme at His46 or His109 showed less than 0.03%, but a mutant enzyme at His104 showed 0.54% of the enzymatic activity of the wild-type enzyme with RNA as a substrate. Similar results were obtained, when ApU was used as a substrate. The binding constant of a Phe mutant enzyme at His46 or His109 towards 2'-AMP decreased twofold, but that at His104 decreased more markedly. Therefore, we assumed that these three histidine residues are components of the active site of RNase Rh, that His104 contributes to some extent to the binding and less to the catalysis, and that the other two histidine residues and one carboxyl group not yet identified are probably involved in the catalysis. We assigned the C-2 proton resonances of His46, His104, and His109 by comparison of the 1H-NMR spectra of the three mutant enzymes containing Phe in place of His with that of the native enzyme, and also determined the individual pKa values for His46 and His104 to be 6.70 and 5.94. His109 was not titrated in a regular way, but the apparent pKa value was estimated to be around 6.3. The fact that addition of 2'-AMP caused a greater effect on the chemical shift of His104 in the 1NMR spectra as compared with those of the other histidine residues, may support the idea described above on the role of His104.
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PMID:Evidence that three histidine residues of a base non-specific and adenylic acid preferential ribonuclease from Rhizopus niveus are involved in the catalytic function. 142 2

Peptide T, from the human immunodeficiency virus (HIV), whose sequence is Ala-Ser-Thr-Thr-Thr-Asn-Tyr-Thr, has been shown to inhibit attachment of this virus to T cells and neural cells bearing the CD4 receptor. This peptide shares extensive homology with the 19-26 segment of ribonuclease A (RNase A), whose sequence is Ala-Ala-Ser-Ser-Ser-Asn-Tyr-Cys. Based on comparison of the structures of peptides occurring in proteins of known structure that are homologous to peptide T, viz, RNase A and endothiapepsin and on conformational energy calculations, we predicted that peptide T adopts a structure much like that for residues 19-26 in RNase A. A critical feature is a bend involving residues Thr 4-Asn 7 in peptide T corresponding to Ser 22-Tyr 25 in the RNase A peptide. Our proposed structure for peptide T has recently been confirmed by Cotelle et al. (Biochem. Biophys. Res. Commun. 171, 596-602). We now show directly that the RNase A peptide, with Met replacing Cys 26 to prevent disulfide exchange reactions, strongly induces monocyte-chemotaxis that is blocked by anti-CD4 monoclonal antibody. Both peptide T and RNase A fail to induce chemotaxis, however, in neutrophils which do not express surface CD4 receptors. These results suggest that both peptides interact with the CD4 receptor in inducing monocyte chemotaxis. We have also prepared cyclo-RNase A peptide with Met 26. Using molecular dynamics and conformational energy calculations, we find that the cyclic peptide cannot form a bend structure involving Ser 22-Tyr 25 that is superimposable on the RNase A bend.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Correlation of the conformation of a modified ribonuclease octapeptide, homologous to peptide T, with its ability to induce CD4-dependent monocyte chemotaxis. 144 97

Seven hydrophobic residues ranging in size from glycine to phenylalanine have been substituted for the wild-type methionine residue at position 13 in a 15-residue truncated version (S15) of S-peptide, the small component of ribonuclease S. Complexes of both S-15 and the seven variants with S-protein yielded isomorphous crystals. The structures of all eight complexes have been refined to final R-factors in the range of 17-19%. [See Kim, E. E. Varadarajan, R., Wyckoff, H. W., and Richards, F. M. (1992) Biochemistry (preceding paper in this issue) for the description of the reference S-15 complex.] Multiple side-chain conformations were seen for six residues in all of the complexes and for two to three additional residues in at least some of the complexes. Three of the complexes, Gly, Ala, and alpha-amino-n-butyric acid (ANB), contained a single water molecule in the cavity near residue 13 that makes three hydrogen bonds to protein atoms. Although space is available, no evidence for additional water in this region, ordered or disordered, was found. The atoms in the cavity wall tend to shrink the cavity by moving in on the small residues and to swell the cavity by moving out for the larger Phe substitution. A swelling seen with leucine was attributed to a shape effect since Leu, Ile, and Met all have the same volume. A slight volume contraction of the collection of interior residues outside of the region of position 13 was also noted. (All changes noted are in the direction to maintain a constant packing density averaged over the whole protein.) Leu51, a surface hydrophobic residue, moved considerably in the G, A, and ANB complexes in directionswhich would tend to decrease the cavity volume. The only other major change in position, 1.5 A, was the 66-69 loop, which is about 25 A from position 13. His12, Phe120, and Asp121 appear to be involved in this movement, but the connection with position 13 is not clear at all. The thermodynamic data on the association reaction for all of these complexes have been previously reported [Connelly, P. R., Varadarajan, R., Sturtevant, J. M., & Richards, F. M. (1990) Biochemistry 29, 6108-6114; Varadarajan, R., Connelly, P. R., Sturtevant, J. M., & Richards, F. M. (1992) Biochemistry 31, 1421-1426]. Some comments are offered on our initial attempts to correlate the structural changes with the changes in the thermodynamic parameters.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Crystallographic structures of ribonuclease S variants with nonpolar substitution at position 13: packing and cavities. 146 20

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