Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

An automated method for the optimal placement of polar hydrogens in a protein structure is described. This method treats the polar, side chain hydrogens of lysine, serine, threonine, and tyrosine and the amino terminus of a protein. The program, called NETWORK, divides the potential hydrogen-bonding pairs of a protein into groups of interacting donors and acceptors. A search is conducted on each of the local groups to find an arrangement which forms the most hydrogen bonds. If two or more arrangements have the same number of hydrogen bonds, the arrangement with the shortest set of hydrogen bonds is selected. The polar hydrogens of the histidyl side chain are specifically treated, and the ionization state of this residue is allowed to change, if this change results in additional hydrogen bonds for the local group. The program will accept Protein Data Bank as well as Biosym-format coordinate files. Input and output routines can be easily modified to accept other coordinate file formats. The predictions from this method are compared to known hydrogen positions for bovine pancreatic trypsin inhibitor, insulin, RNase-A, and trypsin for which the neutron diffraction structures have been determined. The usefulness of this program is further demonstrated by a comparison of molecular dynamics simulations for the enzyme cytochrome P-450cam with and without using NETWORK.
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PMID:A method for determining the positions of polar hydrogens added to a protein structure that maximizes protein hydrogen bonding. 137 79

Primer tRNA regions involved in the interactions between human immunodeficiency virus reverse transcriptase (HIV RT) and tRNA(Lys) were studied by digestion of primer with pancreatic ribonuclease in the presence or absence of HIV RT. The acceptor stem of tRNA(Lys) is not noticeably protected against nuclease action in the presence of HIV RT, while this enzyme clearly protects part of the anticodon and dihydrouridine loops of tRNA(Lys). The acceptor stem of primer tRNA was digested by RNase A only in the presence of the retroviral enzyme, suggesting a partial destabilization of this region by the HIV RT. Synthetic oligoribonucleotides, corresponding to the anticodon and the dihydrouridine loops, inhibited strongly reverse transcription, confirming the strong interaction of these tRNA regions with the enzyme.
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PMID:Preferential interaction of human immunodeficiency virus reverse transcriptase with two regions of primer tRNA(Lys) as evidenced by footprinting studies and inhibition with synthetic oligoribonucleotides. 137 51

A series of peptide-acridine conjugates was designed and synthesized, based on three features of the proposed catalytic mechanism of RNase A: 2'-proton abstraction by His-12, proton donation to the leaving 5'-oxygen by His-119, and stabilization of the pentacoordinated phosphorous transition state by Lys-41. The substrate binding capability of RNase A was mimicked by the intercalator, acridine. Lysine served as a linker between acridine and the catalytic tripeptide. Cleavage of target RNA was monitored by agarose gel electrophoresis and by gel-permeation chromatography. The carboxyl-amidated conjugates HGHK(Acr)-NH2, HPHK(Acr)-NH2, and GGHK(Acr)-NH2 (where Acr indicates 2-methyl-9-acridinemethylene) all had similar hydrolytic activity. The catalytic mechanism most likely involved only the abstraction of the 2'-proton and stabilization of the transition state. These RNase mimics utilized rRNA and single-stranded RNA but not double-stranded RNA and tRNA as substrates.
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PMID:Design of peptide-acridine mimics of ribonuclease activity. 137 32

A simple procedure, consisting of water extraction, heat treatment at pH 2.0, negative adsorption on DEAE-cellulose at pH 4.9, and concanavalin A-Sepharose chromatography, was developed for the partial purification of ribonuclease (RNase) T2 from taka-diastase powder with an overall yield of 5.5%. The partially purified enzyme when coupled to aminoethyl Bio-Gel P-60, retained 12-16% of the activity of the soluble enzyme. Temperature stability studies on RNase T2 bound to matrices, activated with increasing concentrations of glutaraldehyde, and the influence of lysine modification on the activity of the soluble enzyme revealed that the low activity observed for the gel-bound enzyme is probably due to the masking of the active site of the enzyme as a result of the involvement of lysine residues, situated near the active site, during coupling. Immobilization did not affect the pH and temperature optima of RNase T2. On repeated use, the bound enzyme retained approximately 55% of its initial activity after six cycles. These results are discussed, taking into consideration the factors affecting immobilized enzymes.
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PMID:Partial purification and immobilization of ribonuclease T2. 141 89

The Mg-adenosinetriphosphatase (ATPase) in the thyroidal NaI-treated microsome fraction was activated by treatment with basic polyamino acids or trypsin, but not with acidic polyamino acids and basic proteins such as lysozyme and ribonuclease. The enzyme kinetics showed that the activation of trypsin or poly-L-lysine was due to an increase in the maximal velocity of the hydrolyzing reaction without a change in the affinity of the enzyme for its substrate. A break at about 25 degrees C was observed in the Arrhenius plots of Mg-ATPase in the trypsin- or poly-L-lysine treated preparations, but there was no break in the control preparation. These results suggest that the activating effect of trypsin or poly-L-lysine on Mg-ATPase activity in the thyroidal NaI-treated microsome fraction is related to the lipid environment surrounding the enzyme molecule in the thyroid cell membrane.
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PMID:Characterization of thyroidal membrane-bound Mg-adenosinetriphosphatase activated by trypsin or poly-L-lysine. 153 27

A high molecular weight (HMW) fraction of the 150,000 g supernatant of rat brain homogenates contains protein-tRNA complexes which are able to incorporate [3H]Arg and [3H]Lys into tRNA. The aminoacylation of tRNA(Arg) was found to be dependent on ATP and inhibited by RNase. Conversely, the aminoacylation of tRNA(Lys) did not require exogenous ATP and was resistant to RNase and ATPase. In HMW fractions of regenerating rat sciatic nerves, the charging of both tRNA(Arg) and tRNA(Lys) was resistant to RNase and ATPase and did not require exogenous ATP. Because sciatic nerves are rich in axoplasm and tRNAs are known to be present in axons, we tested the hypothesis that degradative enzyme-resistant, ATP-tRNA complexes were of axonal origin. In HMW fractions from rat liver (containing no axons), both tRNA(Arg) and tRNA(Lys) were sensitive to RNase and required exogenous ATP for charging. But, in similar fractions of axoplasm obtained from the giant axon of squid, both tRNAs were insensitive to RNase and ATPase and did not require exogenous ATP for charging. These results suggest that tRNAs in axons are present in protected HMW complexes and contain endogenous stores of ATP. The presence of ATP in the HMW complexes was demonstrated by the luciferase-luciferin assay for ATP. The nature of the protection of tRNAs from RNases was examined by dissociating proteins from HMW complexes by boiling, treating with proteinase K, or overhomogenizing the tissue. These procedures failed to render brain tRNA(Lys) susceptible to RNase. But phenol-extracted, ethanol-precipitated brain tRNA(Lys) was sensitive to RNase, suggesting that the protection of tRNA(Lys) may be by a protease- and heat-resistant polypeptide or by a nonproteinaceous mechanism.
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PMID:Evidence that axonal tRNAs are resistant to RNase and ATPase and can be aminoacylated in the absence of exogenous ATP. 153 73

The handle region (residues 84-99) in ribonuclease HI (RNase HI) from Escherichia coli, which is rich in basic amino acid residues, was altered by alanine-scanning mutagenesis. Fifteen mutant proteins were purified to homogeneity and analyzed for the enzymatic activity. A mutation of either of 2 tryptophan residues at 85 or 90 resulted in a large increase in the Km value along with a large decrease in the Vmax value. These values probably resulted from conformational changes introduced by the mutations as indicated by the CD spectra of these mutant proteins. All other mutant enzymes had Vmax values similar to that of the wild-type enzyme. In contrast, replacement of any basic amino acid residue in the handle region, except for lysine 86, yielded proteins whose Km values were 3-5-fold higher than the wild-type enzyme. Such effects were shown to be cumulative, suggesting strongly that the cluster of positive charges in the handle region is important for the effective binding of the substrate. Interestingly, the region of human immunodeficiency virus reverse transcriptase with homology to E. coli RNase HI lacks the handle region which may account for the poor RNase H activity of the domain when separated from the polymerase domain.
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PMID:Importance of the positive charge cluster in Escherichia coli ribonuclease HI for the effective binding of the substrate. 164 12

Human immunodeficiency virus (HIV) reverse transcriptase (RT) uses host tRNA(Lys) partially annealed to the primer binding site (PBS) as primer for the initiation of cDNA synthesis. When assaying cDNA synthesis with a template-primer complex formed by an RNA fragment carrying the PBS site and bovine tRNA(Lys) we noticed that an excess of primer tRNA inhibited strongly the DNA polymerase activity of a recombinant HIV RT (p66-p51 heterodimeric form) produced in transformed yeast cells. The same inhibitory effect was observed with animal DNA polymerase alpha, while avian retrovirus RT was neither affected by tRNA(Lys) nor by its specific primer tRNA(Trp). Although the strongest inhibition was observed with tRNA(Lys), other tRNas like tRNA(Phe) and tRNA(Trp) inhibited also the HIV RT, whereas tRNAs specific for valine, proline and glycine had no effect on enzyme activity. Digestion of tRNA(Lys) with pancreatic RNase abolished the inhibition; on the other hand T1 RNase digestion had no effect on the inhibition suggesting a role of the anticodon region in this effect. The 12- and 14-mers corresponding to the anticodon regions of the three bovine tRNA(Lys) isoacceptors inhibited RT activity, indicating that at least an important part of the inhibitory effect could be ascribed to this tRNA region. A strong stimulation of DNA polymerase activity was observed when the effect of tRNA(Lys) was assayed on a recombinant HIV reverse transcriptase produced in a protease deficient yeast strain, which leads to the production of an active p66 enzyme. The same tRNAs that inhibited strongly the heterodimeric form stimulated the p66 form of HIV reverse transcriptase. The results suggest that although both enzymatic forms are able to interact with tRNA(Lys) the topography, as well as the functional implications of the interaction between the precursor and the mature form of HIV reverse transcriptase with the tRNA(Lys) primer, are different.
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PMID:Inhibition of the p66/p51 form of human immunodeficiency virus reverse transcriptase by tRNA(Lys). 168 23

Treatment of murine leukemia virus reverse transcriptase (MuLV RT) with 4-(oxoacetyl)-phenoxyacetic acid (OAPA) results in the loss of DNA polymerase as well as template-primer binding activity but has no effect on the RT-associated RNase-H activity. Binding stoichiometry revealed that approximately 3 mol of OAPA bound per mole of enzyme, when complete enzyme activation occurred. However, in the presence of template-primer, OAPA does not abolish polymerase activity and 2 mol of OAPA remains bound to 1 mol of enzyme. This observation suggests that only one OAPA reactive site is responsible for the loss of polymerase activity. This site was located on a single tryptic peptide by comparing the maps of the native enzyme and the enzyme treated with OAPA in the presence and absence of template-primer. The appearance of a new peptide peak eluting at 125 min from a C-18 reverse-phase column was consistently noted in the tryptic digest of enzyme treated with OAPA. This peak was absent in tryptic peptides made from the control enzyme or the enzyme protein that was treated with OAPA in the presence of activated DNA or synthetic template-primers. Amino acid composition and sequence analyses of this peptide revealed that it spanned residues 312-342 in the primary amino acid sequence of MuLV RT. Since this peptide does not contain arginine residues and Lys-329 exhibited resistance to tryptic digestion, we conclude that Lys-329 is the target of OAPA action.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Lysine-329 of murine leukemia virus reverse transcriptase: possible involvement in the template-primer binding function. 169 96

The primary structure of the blood vessel inducing protein angiogenin is 35% identical with that of pancreatic ribonuclease (RNase) and contains counterparts for the critical RNase active-site residues His-12, Lys-41, and His-119. Although angiogenin is a ribonucleolytic enzyme, its activity toward conventional substrates is lower than that of pancreatic RNase by several orders of magnitude. Comparison of the amino acid sequences of RNase and angiogenin reveals several striking differences in the region flanking the active-site lysine, including a deletion and a transposition of aspartic acid and proline residues. In order to examine how these sequence changes alter the functional properties of angiogenin, an angiogenin/RNase hybrid protein (ARH-II), in which residues 38-41 of angiogenin (Pro-Cys-Lys-Asp) have been replaced by the corresponding segment of bovine pancreatic RNase (Asp-Arg-Cys-Lys-Pro), was prepared by regional mutagenesis. Compared to angiogenin, ARH-II has markedly diminished angiogenic activity on the chick embryo chorioallantoic membrane but 5-75-fold greater enzymatic activity toward a variety of polynucleotide and dinucleotide substrates. In addition, the specificity of ARH-II toward dinucleotide substrates differs from that of angiogenin and is qualitatively similar to that of pancreatic RNase. Thus, non-active-site residues near Lys-40 in angiogenin appear to play a significant role in determining enzymatic specificity and reactivity as well as angiogenic potency. An additional angiogenin/RNase hybrid protein (ARH-IV), in which residues 59-71 of ARH-II have been replaced by the corresponding segment of pancreatic RNase, was also prepared.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Mutagenesis of residues flanking Lys-40 enhances the enzymatic activity and reduces the angiogenic potency of angiogenin. 169 54


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