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 filamentous bacteriophage f1 can be transformed into a spherical particle (spheroid) or an intermediate shortened filament with a flared end (I-forms) by exposure to a chloroform-water interface at 22 or 4 degrees C, respectively. The protein composition of bacteriophage f1 spheroids and I-forms was examined by separating the proteins from the purified. [35S]cysteine-labeled particles by sodium dodecyl sulfate-urea-polyacrylamide gel electrophoresis. Quantitation of the radioactivity on the gels showed that I-forms and spheroids contain the same complement of minor coat proteins as do untreated f1 phage. This composition is unchanged after removal of the DNA, either by digestion with micrococcal nuclease or by centrifugation of the particles through CsCl density gradients, indicating that none of the minor coat proteins is held in the particles solely through an interaction with the DNA. We also examined the location of the A protein in I-forms by decoration with ferritin-conjugated antibodies and examination under the electron microscope and found that the A protein is located specifically at the flared end of the I-form particle, through which the DNA is extruded and at which contraction into spheroids begins. The implications of these results with regard to the orientation of the DNA within the capsid and the process of infection are discussed.
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PMID:Minor coat protein composition and location of the A protein in bacteriophage f1 spheroids and I-forms. 709 58

Two crystal structures of ternary complexes of staphylococcal nuclease, cobalt(II), and the mononucleotide pdTp are reported. The first has been refined at 1.7 A to a crystallographic R value of 0.198; the second, determined from a crystal soaked for 9 months in a slightly different mother liquor than the first crystal, has been refined at 1.85 A to an R value of 0.174. In the first structure, the cobalt ion is displaced 1.94 A from the normal calcium position, and the active site is dominated by a salt bridge between Asp-21 and Lys-70 from a symmetry-related molecule in the crystal lattice. The Co2+ ion appears unable to displace this lysine; consequently, the metal is bound in a vestibular site adjacent to the calcium site. The metal-binding pocket in the second structure adopts a configuration similar to that of the calcium complex, with the cobalt ion binding only 0.36 A from the calcium position. However, an inner sphere water seen in the calcium structure is missing from this structure. The cobalt ion in the second structure appears to be loosely or transiently coordinated within the calcium binding pocket, as evidenced by the high value of its refined thermal factor. Loss of catalytic activity for cobalt(II)-substituted nuclease is perhaps due to its inability to bind this inner sphere water.
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PMID:X-ray crystal structures of staphylococcal nuclease complexed with the competitive inhibitor cobalt(II) and nucleotide. 770 45

Alignment of homologous amino acid sequences reveals that insertion mutations are fairly common in evolution. Hitherto, the structural consequences of insertion mutations on the surface and in the interior of proteins of known structures have received little attention. We report here the high-resolution X-ray crystal structures of 2 site-directed insertion mutants of staphylococcal nuclease. The structure of the first insertion mutant, in which 2 glycine residues were inserted on the protein surface in the amino-terminal beta-strand, has been solved to 1.70 A resolution and refined to a crystallographic R value of 0.182. The inserted residues are accommodated in a special 3-residue beta-bulge. A bridging water molecule in the newly created cavity satisfies the hydrogen bonding requirements of the beta-sheet by forming a bifurcated hydrogen bond to 1 beta-strand, and a single hydrogen bond to the other beta-strand. The second insertion mutant contains a single leucine residue inserted at the end of the third beta-strand. The structure was solved to 2.0 A resolution and refined to a final R value of 0.196. The insertion is accommodated in a register shift that changes the conformation of the flexible loop portion of the molecule, relaxing and widening the omega turn. This structural alteration results in changes in position and coordination of a bound calcium ion important for catalysis. These structures illustrate important differences in how amino acid insertions are accommodated: as localized bulges, and as extensive register shifts.
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PMID:Accommodation of insertion mutations on the surface and in the interior of staphylococcal nuclease. 801 10

The dynamical fluorescence properties of the sole tryptophan residue (Trp-140) in Staphylococcus aureus nuclease (EC 3.1.31.1) have been investigated in aqueous solution and reversed micelles composed of either sodium bis(2-ethylhexyl)sulfosuccinate (AOT) in isooctane or cetyltrimethylammonium chloride (CTAC) in isooctane/hexanol (12:1 by volume). The fluorescence decay of nuclease in the different environments can be described by a trimodal distribution of fluorescence lifetimes at approx. 0.5, 1.5 and 5.0 ns. The relative amplitudes depend on the environment. For pH 9.0 solutions the contribution of the two shortest lifetime components in the distribution is largest for AOT and smallest for CTAC reversed micelles. There is reasonable agreement between the average fluorescence lifetime and the fluorescence quantum efficiency confirming a significant fluorescence quenching in AOT reversed micelles. Fluorescence anisotropy decay revealed that the tryptophan environment in aqueous nuclease solutions is rigid on a nanosecond timescale. When nuclease was entrapped into reversed micelles the tryptophan gained some internal flexibility as judged from the distinct presence of a shorter correlation time. The longer correlation time reflected the rotational properties of the protein-micellar system. Modulation of the overall charge of nuclease (isoelectric point pH 9.6) by using buffer of pH 9.0 and pH 10.4, respectively, and of the size of empty micelles by selecting two values of the water to surfactant molar ratio, had only a minor effect on the rotational properties of nuclease in the positively charged reversed micelles. Encapsulation of nuclease in anionic reversed micelles resulted in the development of protein bound to aggregated structures which are immobilised on a nanosecond timescale. According to far UV circular dichroism results the secondary structure of nuclease only followed the already published pH-dependent changes. Encapsulation had no major effect on the overall secondary structure.
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PMID:Fluorescence dynamics of staphylococcal nuclease in aqueous solution and reversed micelles. 814 63

In the X-ray structure of the staphylococcal nuclease-Ca(2+)-3',5'-pdTp complex, the conformation of the inhibitor 3',5'-pdTp is distorted by Lys-70* and Lys-71* from an adjacent molecule of staphylococcal nuclease (Loll, P.J., Lattman, E.E. Proteins 5:183-201, 1989). In order to correct this crystal packing problem, the solution conformation of enzyme-bound 3',5'-pdTp in the staphylococcal nuclease-metal-pdTp complex determined by NMR methods was docked into the X-ray structure of the enzyme [Weber, D.J., Serpersu, E.H., Gittis, A.G., Lattman, E.E., Mildvan, A.S. (preceding paper)]. In the NMR-docked structure, the 5'-phosphate of 3',5'-pdTp overlaps with that in the X-ray structure. However, the 3'-phosphate accepts a hydrogen bond from Lys-49 (2.89 A) rather than from Lys-84 (8.63 A), and N3 of thymine donates a hydrogen bond to the OH of Tyr-115 (3.16 A) which does not occur in the X-ray structure (5.28 A). These interactions have been tested by binding studies of 3',5'-pdTp, Ca2+, and Mn2+ to the K49A, K84A, and Y115A mutants of staphylococcal nuclease using water proton relaxation rate and EPR methods. Each mutant was fully active and structurally intact, as found by CD and two-dimensional NMR spectroscopy, but bound Ca2+ 9.1- to 9.9-fold more weakly than the wild-type enzyme. While the K84A mutation did not significantly weaken 3',5'-pdTp binding to the enzyme (1.5 +/- 0.7 fold), the K49A mutation weakened 3',5'-pdTp binding to the enzyme by the factor of 4.4 +/- 1.8-fold. Similarly, the Y115A mutation weakened 3',5'-pdTp binding to the enzyme 3.6 +/- 1.6-fold. Comparable weakening effects of these mutations were found on the binding of Ca(2+)-3',5'-pdTp. These results are more readily explained by the NMR-docked structure of staphylococcal nuclease-metal-3',5'-pdTp than by the X-ray structure.
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PMID:Mutational tests of the NMR-docked structure of the staphylococcal nuclease-metal-3',5'-pdTp complex. 823 43

We performed molecular dynamics (MD)/free energy perturbation (FEP) calculations to reproduce the experimental free energy difference of denaturation for staphylococcal nuclease mutant Met32-->Ala (M32A) and to predict the stability of the mutant Met32-->Leu (M32L). The calculated free energy difference of denaturation for the M32A of -1.9 kcal/mol was in good agreement with the experimental value. In the M32A, a small hydrophobic core formed by three aromatic rings (Tyr-27, Phe-34, Phe-76) in a wild-type crumbled as a result of exposure to water. The van der Waals interactions in the native state of the M32A were weaker than those of the wild-type, which strongly suggests that the Met-32 is important for the stability of the enzyme. The M32L has not been available yet, but is expected to retain the small hydrophobic core. The free energy difference of denaturation for the M32L was calculated to be 1.6 kcal/mol. The MD/FEP simulation showed that the native state structure of the M32L was only slightly changed when compared with that of the wild-type. It was suggested that the M32L is more stable than the wild-type because the electrostatic interactions in the denatured state are more disadvantageous than those in the native state.
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PMID:Estimation of stabilities of staphylococcal nuclease mutants (Met32-->Ala and Met32-->Leu) using molecular dynamics/free energy perturbation. 826 7

The D/H fractionation factor (sigma) is the extent to which a hydrogen at a particular site becomes enriched in 2H over 1H relative to the solvent. A growing body of experimental evidence suggest that there is a correlation between the value of the fractionation factor and hydrogen-bond strength, with a lower sigma value reflecting a stronger hydrogen bond. Fractionation factors of 60% of the individual backbone amide hydrogens in the staphylococcal nuclease V8 variant (H124L) have been measured for the enzyme in the presence and absence of bound ligands (the activating ion Ca2+ and the inhibitor thymidine 3',5'-bisphosphate). The method used employed two-dimensional 1H-15N nuclear magnetic resonance analysis of uniformly 15N-labeled protein in mixed H2O/D2O solvents. Fractionation factors of individual residues were found to range from 0.3 (T120) to 1.5 (L38). The sigma value of 0.3 for the NH of T120, which is the lowest fractionation factor reported for any system yet studied, suggests that the hydrogen bond between T120 HN and D77 O delta 1 is unusually strong. The results of previous site-directed mutagenesis experiments [Hinck, A. P. (1993) Ph.D. Thesis, University of Wisconsin-Madison, Madison, WI] support the notion that formation of this hydrogen bond is important to maintain the stability and conformation of the native state. The sigma value averaged over all residues was approximately 0.85 for both the unligated and ligated enzymes. Residues in alpha-helices displayed a slightly lower average sigma value (0.79), whereas residues with solvent-exposed amide hydrogens exhibited a slightly higher average figure (0.98).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Hydrogen bonding in proteins as studied by amide hydrogen D/H fractionation factors: application to staphylococcal nuclease. 830 30

The stability of two mutants G88V (Gly-88-->Val) and A69T (Ala-69-->Thr) of staphylococcal nuclease was analyzed by molecular dynamics simulations. The calculated free energy differences of denaturation for G88V and A69T were -1.1 and -2.8 kcal/mol, respectively. These values are in good agreement with the experimental values. The free energy differences divided into electrostatic and van der Waals components were analyzed. These two mutants are mainly destabilized due to van der Waals interactions. There is little difference between the electrostatic contribution to the free energy change in the native state and that in the denatured state. In each mutant structure, a small cavity appears in the vicinity of the perturbed residue. It is suggested that intramolecular van der Waals interactions of the mutants are weaker than those of the wild-type. Furthermore, analyses of the contributions of each residue near the perturbed residue and of water to the free energy difference of denaturation suggest that the interaction between water and the perturbed residue plays a very important role in the stability of staphylococcal nuclease, and that a small hydrophobic core consisting of the three aromatic rings (Tyr-27, Phe-34, Phe-76) and the side chain of Met-32 is also important for the stability.
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PMID:Molecular dynamics study of the stability of staphylococcal nuclease mutants: component analysis of the free energy difference of denaturation. 847 33

A technique for separating intramolecular NOE and solvent-proton exchange peaks in exchange spectroscopy is demonstrated. This method utilizes the large differences in relaxation and coupling properties of water and macromolecules to separate the two effects. The spin-echo filter consists of a water-frequency selective 90 degrees pulse followed by a spin-echo sequence. If the echo time is sufficiently long, protein resonances (e.g. C alpha H protons) excited by the selective pulse are removed due to their much shorter T2 values and J-coupling evolution. By combining the filter with exchange spectroscopy (EXSY) or water exchange (WEX) filter experiments, exchange peaks can be selectively observed. In this paper the filter is combined with a modified version of the WEX filter (WEX II filter) with 1D and 2D detection and applied to a zinc finger peptide and to staphylococcal nuclease, allowing estimation of the contribution of intramolecular NOEs to the exchange spectra.
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PMID:Separation of intramolecular NOE and exchange peaks in water exchange spectroscopy using spin-echo filters. 872 Aug 34

NMR-based structural studies of macromolecules focus to a large extent on the establishment of interproton distances within the molecule based on the nuclear Overhauser effect (NOE). Despite the improvements in resolution resulting from multidimensional NMR experiments, the detailed characterization of disordered states of proteins or highly overlapped regions of folded molecules using current NMR methods remains challenging. A suite of triple-resonance NOESY-type pulse schemes is presented which require uniform 15N and 13C labeling and make use of the chemical shift dispersion of backbone 15N and 13C' (carbonyl) resonances to increase the spectral resolution. In particular, for the case of partially folded and unfolded proteins, the experiments exploit the fact that the dispersion of 15N and 13C' resonances is comparable to that observed in folded states. Ambiguities that arise in the assignment of NOEs as a result of the severe chemical shift degeneracy in 1H and aliphatic 13C nuclei are resolved, therefore, by recording the chemical shifts of 15N or 13C' either before or after the NOE mixing period. Applications of these methods to the study of the unfolded state of the N-terminal SH3 domain of drk (drkN SH3) and a partially folded large fragment of staphylococcal nuclease (SNase), delta 131 delta, are presented. In addition, an application to folded SNase in complex with the ligands thymidine 3',5'-bisphosphate (pdTp) and Ca2+ is illustrated which allows the assignment of NOEs between degenerate H alpha protons or protons resonating close to water.
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PMID:Triple-resonance NOESY-based experiments with improved spectral resolution: applications to structural characterization of unfolded, partially folded and folded proteins. 909 Jan 32

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