EC:3.1.31.1 - FACTA Search

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Query: EC:3.1.31.1 (micrococcal nuclease)
2,818 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The active sites of enzymes can be studied in great detail using nuclear magnetic resonance spectroscopy. The determination of pKa values of active site histidine residues in bovine pancreatic ribonuclease and the characterization of the binding of peptide hormones to carrier proteins are two such examples. The study of the active site of staphylococcal nuclease is another example and is presented in detail in this paper. The structure of 3'5'-thymidine diphosphate bound in the active site of staphylococcal nuclease has been studied by measuring the relaxation rate enhancement of substrate analog nuclei by a paramagnetic metal ion. The lanthanide ion, Gd(III), was substituted for Ca(II) in the formation of the ternary complex of nuclease: Gd(III) : 3'5'-thymidine diphosphate. Measurements were made of the transverse relaxation rates of protons and the longitudinal and transverse relaxation rates of the phosphorus nuclei of bound nucleotide. Internuclear distances between the metal ion and atoms of the 3'5'-thymidine diphosphate nucleotide were determined from these data by using the Solomon-Bloembergen equation. In general, these distances corresponded closely to those determined by previous X-ray crystallography of the thymidine diphosphate complex. These internuclear distances were also used with a computer program and graphics display to solve for metal : nucleotide geometries which were consistent with the experimental data. A geometry similar to the structure of the metal : nucleotide complex bound to nuclease determined by X-ray analysis was one of the solutions to this computer modeling process. For staphylococcal nuclease the NMR and X-ray methods yield compatible high resolution information about the structure of the active site.
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PMID:Application of nuclear magnetic resonance spectroscopy to proteins. 114 35

Graphs composed of a large number of data points plotted on an appropriate scale enables us to pattern recognize a specific continuous curve. This principle was used to follow signals from proton nuclear magnetic resonance as a function of pH in a large biomolecule, staphylococcal nuclease. The analysis was automated by auto peak-picking routines and by transferring the results to a graphic program, Graphic Operating System (Roome & Peterson, 1985). Expansion and contraction of the scale made it possible to differentiate specific tyrosine and histidine titration curves. This type of analysis is applicable for assignment of specific curves from a large number of data points which change as a function of perturbations.
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PMID:Pattern recognition of continuity of discrete data points by scale changed plots. 140 33

The conformation of the staphylococcal nuclease-bound metal-dTdA complex, previously determined by NMR methods [Weber, D.J., Mullen, G.P., Mildvan, A.S. (1991) Biochemistry 30:7425-7437] was docked into the X-ray structure of the enzyme-Ca(2+)-3',5'-pdTp complex [Loll, P.J., Lattman, E.E. (1989) Proteins: Struct., Funct., Genet. 5:183-201] by superimposing the metal ions, taking into account intermolecular nuclear Overhauser effects from assigned aromatic proton resonances of Tyr-85, Tyr-113, and Tyr-115 to proton resonances of the leaving dA moiety of dTdA, and energy minimization to relieve small overlaps. The proton resonances of the Phe, Tyr, and Trp residues of the enzyme in the ternary enzyme-La(3+)-dTdA complex were sequence specifically assigned by 2D phase-sensitive NOESY, with and without deuteration of the aromatic protons of the Tyr residues, and by 2D heteronuclear multiple quantum correlation (HMQC) spectroscopy and 3D NOESY-HMQC spectroscopy with 15N labeling. While resonances of most Phe, Tyr and Trp residues were unshifted by the substrate dTdA from those found in the enzyme-La(3+)-3',5'-pdTp complex and the enzyme-Ca(2+)-3',5'-pdTp complex, proton resonances of Tyr-85, Tyr-113, Tyr-115, and Phe-34 were shifted by 0.08 to 0.33 ppm and the 15N resonance of Tyr-113 was shifted by 2.1 ppm by the presence of substrate. The optimized position of enzyme-bound dTdA shows the 5'-dA leaving group to partially overlap the inhibitor, 3',5'-pdTp (in the X-ray structure). The 3'-TMP moiety of dTdA points toward the solvent in a channel defined by Ile-18, Asp-19, Thr-22, Lys-45, and His-46. The phosphate of dTdA is coordinated by the metal, and an adjacent inner sphere water ligand is positioned to donate a hydrogen bond to the general base Glu-43 and to attack the phosphorus with inversion. Arg-35 and Arg-87 donate monodentate hydrogen bonds to different phosphate oxygens of dTdA, with Arg-87 positioned to protonate the leaving 5'-oxygen of dA, thus clarifying the mechanism of hydrolysis. Model building of an additional 5'-dGMP onto the 3'-oxygen of dA placed this third nucleotide onto a surface cleft near residues Glu-80, Asp-83, Lys-84, and Tyr-115 with its 3'-OH group accessible to the solvent, thus defining the size of the substrate binding site as accommodating a trinucleotide.
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PMID:NMR docking of a substrate into the X-ray structure of staphylococcal nuclease. 151 99

The chromatin structure of a portion of yeast transposable elements known to be responsible for regulation of the expression of the adjacent HIS4 gene has been investigated, using the nuclease probe micrococcal nuclease. Yeast strains containing Ty917 or derivatives of this element that possess either a His-, weak His+, or strong His+ phenotype were examined. The chromatin at the Ty/HIS4 junction region was accessible to micrococcal nuclease. A partial nucleosome ladder was observed upon digestion with micrococcal nuclease indicating the presence of three phased nucleosomes located in Ty sequences upstream of the HIS4 gene. Phased nucleosomes could not be detected upstream of the HIS4 gene in wild-type cells. These data suggest that nucleosomal structure is not a major contributor to Ty917-regulated adjacent gene expression at HIS4.
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PMID:Chromatin structure in a region of a yeast transposable element regulating adjacent gene expression. 165 42

The pH dependence of the 1H NMR spectrum of staphylococcal nuclease H124L was investigated as a function of the binding of Ca2+, the ion required for enzymatic activity, and deoxythymidine-3',5'-diphosphate (pdTp), a competitive inhibitor. The protein studied was the product of a cloned gene expressed in Escherichia coli which yields a protein having a sequence identical to that of the nuclease isolated from the V8 strain of Staphylococcus aureus. Of the observable ring protons of the three histidine residues, only the C delta 1H of His46 shows a large chemical shift perturbation on formation of the ternary complex, (nuclease H124L).pdTp.Ca2+. The pKa of His46 is lowered by 0.2 pH unit in the binary complex. All seven tyrosines titrate with normal pKa values between 9 and 11 in the unligated nuclease. In the ternary complex, however, the pKa values of Tyr85 and Tyr93 increase above pH 11.0. The chemical shift perturbations of the ring protons of the Tyr27, Tyr85, Tyr113, and Tyr115 were observed between pH 4 and 6; these spectral perturbations are attributed to interactions with carboxylate groups. Binding Ca2+ alone acted opposite to the perturbation in Tyr113 and Tyr115. Ca2+ binding leads to deshielding the ring protons of Tyr113, but this effect is removed in the ternary complex. Binding of pdTp and Ca2+ stabilizes the protein against high pH denaturation up to pH 11.5.
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PMID:Hydrogen-1 nuclear magnetic resonance studies of staphylococcal nuclease variant H124L: pH dependence of histidines and tyrosines. 293 Jan 85

Transcription of the Saccharomyces cerevisiae his3 gene requires an upstream promoter element and a TATA element. A strain containing his3-delta 13, an allele which deletes the upstream promoter element but contains the TATA box and intact structural gene, fails to express the gene and consequently is unable to grow in medium lacking histidine. In this paper we characterize His+ revertants of his3-delta 13 which are due to unlinked suppressor mutations. Recessive suppressors in three different ope genes allow his3-delta 13 to be expressed at wild-type levels. In all cases, the suppression is due to increased his3 transcription. However, unlike the wild-type his3 gene, whose transcripts are initiated about equally from two different sites (+1 and +12), transcription due to the ope mutations is initiated only from the +12 site, ope-mediated transcription is regulated in a novel manner; it is observed in minimal medium, but not in rich broth. Although ope mutations restore wild-type levels of transcription, his3 chromatin structure, as assayed by micrococcal nuclease sensitivity of the TATA box, resembles that found in the his3-delta 13 parent rather than in the wild-type strain. This provides further evidence that TATA box sensitivity is not correlated with transcriptional activation. ope mutations are pleiotropic in that cells have a crunchy colony morphology and lyse at 37 degrees C in conditions of normal osmolarity. ope mutations are allele specific because they fail to suppress five other his3 promoter mutations. We discuss implications concerning upstream promoter elements and propose some models for ope suppression.
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PMID:Suppressors of Saccharomyces cerevisiae his3 promoter mutations lacking the upstream element. 301 36

NMR signals from all four histidine ring C epsilon protons and three of the four histidine C delta protons in the protein staphylococcal nuclease have been assigned by comparing spectra of the wild-type (Foggi strain) protein to spectra of three variants that each lack a different histidine residue. All proteins studied were cloned and overproduced in Escherichia coli. The NMR spectra of the three mutant proteins (H8R, H46Y, and H124L) used to make these assignments were similar to one another and to those of the wild type, except for signals from the mutated residues. The pKa values of those histidines conserved between the wild type and the mutants remained essentially unchanged. Multiple histidine C epsilon proton resonances due to non-native forms of nuclease were observed in both thermally induced and acid-induced unfolding. Residue-specific assignments of H epsilon protons in the thermally denatured forms of the mutant H46Y were obtained from connectivities to the native state by saturation transfer.
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PMID:NMR assignments of the four histidines of staphylococcal nuclease in native and denatured states. 328 82

The reversible unfolding and folding of staphylococcal nuclease in the acid transition has been studied by 220 MHz proton magnetic resonance spectroscopy. The values of area, line-width, and chemical shift of each of the imidazole C2 proton resonances of the four histidine residues have been measured in this transition. The change of areas of three histidine resonances and the change of fluorescence of the single tryptophan residue, as a function of pH, appear to follow a single equilibrium. In contrast, a fourth histidine resonance follows a biphasic transition. These findings indicate that local conformational changes can be detected by magnetic resonance spectroscopy in the cooperative transition of the overall structure.
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PMID:Folding of staphylococcal nuclease: magnetic resonance and fluorescence studies of individual residues. 433 45

An analog of staphylococcal nuclease has been prepared in which all amino acids, except the six following, are fully deuterated: tryptophan; methionine; tyrosine, in ring positions 2 and 6; histidine, in ring position 2; aspartic acid and asparagine, beta-methylene; and glutamic acid and glutamine, gamma-methylene. The analog has a much simpler high-resolution nuclear magnetic resonance spectrum than the fully protonated enzyme. The effects of calcium ion and of the inhibitor 3', 5'-thymidine diphosphate on the spectrum of the analog were readily detected.
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PMID:High-resolution nuclear magnetic resonance spectra of selectively deuterated staphylococcal nuclease. 567 35

The three-dimensional structure of bovine pancreatic deoxyribonuclease I (DNase I) has been determined at 2.5 A resolution by X-ray diffraction from single crystals. An atomic model was fitted into the electron density using a graphics display system. DNase I is an alpha, beta-protein with two 6-stranded beta-pleated sheets packed against each other forming the core of a 'sandwich'-type structure. The two predominantly anti-parallel beta-sheets are flanked by three longer alpha-helices and extensive loop regions. The carbohydrate side chain attached to Asn 18 is protruding by approximately 15 A from the otherwise compact molecule of approximate dimensions 45 A X 40 A. The binding site of CA2+-deoxythymidine-3',5'-biphosphate (Ca-pdTp) has been determined by difference Fourier techniques confirming biochemical results that the active centre is close to His 131. Ca-pdTp binds at the surface of the enzyme between the two beta-pleated sheets and seems to interact with several charged amino acid side chains. Active site geometry and folding pattern of DNase I are quite different from staphylococcal nuclease, the only other Ca2+-dependent deoxyribonuclease whose structure is known at high resolution. The electron density map indicates that two Ca2+ ions are bound to the enzyme under crystallization conditions.
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PMID:Three-dimensional structure of bovine pancreatic DNase I at 2.5 A resolution. 649 35

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