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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)
Using frequency domain methods, the fluorescence decay of Trp-140 in
staphylococcal nuclease
and its site-directed mutant (Pro-117----Gly) has been examined. Based on nuclear magnetic resonance (NMR) studies (
Evans
, P. A., C. M. Dobson, R. A. Kautz, G. Hatfull, and R. O. Fox. 1987. Nature [Lond.]. 329:266-268), it is believed that nuclease exists in two macroscopic, native conformations and that the slow interconversion of these conformations is controlled by the cis----trans isomerization of Pro-117. The above mutant shows only one native conformation in NMR experiments. To test the hypothesis that the biexponential fluorescence decay of Trp-140 of nuclease can also be related to the existence of these conformational states of the protein, we have compared the decay patterns of the wild type and mutant. Essentially no difference was observed, which indicates that there is some other basis for the nonexponential decay of Trp-140. We have used global nonlinear least squares analysis to link the fit of data at several temperatures.
...
PMID:Fluorescence lifetime studies with staphylococcal nuclease and its site-directed mutant. Test of the hypothesis that proline isomerism is the basis for nonexponential decays. 264 65
It has been known for several years that 1H NMR spectra of the enzyme
staphylococcal nuclease
contain resonances due to conformational heterogeneity [Markley, J. L., Williams, M. N., & Jardetzky, O. (1970) Proc. Natl. Acad. Sci. U.S.A. 65, 645-651]. One source of conformational heterogeneity has been attributed recently to cis/trans isomeriation of the Lys116-Pro117 peptide bond [
Evans
, P. A., Dobson, C. M., Kautz, R. A., Hatfull, G., & Fox, R. O. (1987) Nature (London) 329, 266-268]. In this paper we present evidence for three interconverting folded forms of nuclease. Forms N and N' are monomeric; form N" appears at higher nuclease concentrations and probably corresponds to dimerized enzyme. Saturation transfer was used to demonstrate that exchange occurs between the denatured state and N". The effects of temperature, pH, and Ca2+ and nucleotide binding on NMR spectra of nuclease were examined. When the temperature is increased or the pH is lowered, form N' is favored relative to N. Binding of a competitive inhibitor (thymidine 3',5'-bisphosphate plus calcium ion) strongly favors one form of nuclease. 1H NMR spectra of wild-type nuclease, the single-mutant nucleases L89F and H124L, and the double-mutant nuclease F76V+H124L were compared. In the unligated proteins, the equilibrium constant for the conformational equilibrium N in equilibrium with N' is approximately 0.1 in wild-type nuclease and nuclease H124L; by contrast, this equilibrium constant is about 0.7 in nuclease L89F and 1.2 in nuclease F76V+H124L under similar conditions.
...
PMID:Hydrogen-1 NMR evidence for three interconverting forms of staphylococcal nuclease: effects of mutations and solution conditions on their distribution. 270 43
The equilibrium between alternative folded states of a globular protein,
staphylococcal nuclease
, has been investigated by using 1H NMR. Magnetization-transfer experiments have revealed the existence of a related structural heterogeneity of the unfolded state, and quantitative analysis of a series of these experiments has permitted the kinetics of folding and interconversion of the different states to be explored. A model based on cis/trans isomerism at the peptide bond preceding Pro-117 has been developed to account for the results. This model, recently supported by a protein-engineering experiment [
Evans
et al. (1987) Nature (London) 329, 266], has been used to interpret the kinetic data, providing insight into the nature of the folding processes. The predominance of the cis-proline form in the folded state is shown to derive from a large favorable enthalpy term resulting from more effective overall folding interactions. The kinetics of folding and isomerization are shown to occur on similar time scales, such that more than one pathway between two states may be significant. It has been possible, however, to compare the direct folding and unfolding rates within the cis- and trans-proline-containing populations, with results suggesting that the specific stabilization of the cis peptide bond is effective only at a late stage in the folding process.
...
PMID:A magnetization-transfer nuclear magnetic resonance study of the folding of staphylococcal nuclease. 270 62
In the present study we have used high hydrostatic pressure coupled with either time-resolved and steady-state fluorescence or NMR spectroscopy in order to investigate the effects of amino acid substitutions on the high-pressure denaturation properties of
staphylococcal nuclease
. This protein has been shown previously to be structurally heterogeneous in its native state. On the NMR time scale, four distinct interconverting conformational forms arise from the population of both cis and trans Xaa-Pro peptide bonds (His46-Pro47 and Lys116-Pro117) [
Evans
et al. (1989) Biochemistry 28, 362; Loh et al. (1991) in Techniques in Protein Chemistry II, pp 275-282, Academic Press, New York]. Mutations in the protein sequence have been shown to change the distribution among the various forms [Alexandrescu et al. (1989) Biochemistry 28, 204; Alexandrescu et al. (1990) Biochemistry 29, 4516]. Time-resolved fluorescence on a series of mutants with altered equilibria for cis/trans isomerism about the 116-117 peptide bond did not reveal any simple relationship between the position of the cis/trans equilibrium in the folded state and the heterogeneity of the fluorescence decay. However, the specific dynamic properties of each mutant, as revealed by time-resolved fluorescence, do appear to be correlated with their partial molar volume changes of denaturation. A striking finding is that mutation of either (or both) of the prolines that exhibits structural heterogeneity to glycine greatly alters the stability of the protein to pressure. These mutations also result in decreased chain mobility as assessed by time-resolved fluorescence. It appears that packing defects, which allow for peptide bond cis/trans heterogeneity in the wild-type protein, are removed by the Pro-->Gly substitutions.
...
PMID:Effects of amino acid substitutions on the pressure denaturation of staphylococcal nuclease as monitored by fluorescence and nuclear magnetic resonance spectroscopy. 849 99
The fact that cleavage of single peptide linkages in proteins often leads to extensive conformational alteration, including regions far removed from the cleavage site is not fully understood. We propose, based on the work of Linderstrom-Lang and Schellman, that disruption primarily occurs within protein structural domains that are stabilized by cooperative interactions and that cleavage of single peptide linkages of the domain perturbs the entire cooperative interaction. For this model we review experimental observations: on fragment complexation (ribonuclease A,
staphylococcal nuclease
and cytochrome c), destabilized N-terminal large fragments (ribonuclease A and nuclease), cooperative folding and stabilization of proteins (ribonuclease A, nuclease and cytochrome c), the close relationship of the three-dimensional structure between fragment complexes and the original protein (ribonuclease A and nuclease), ligand induced stabilization (nuclease), 3D domain swapping, circular permutation (dihydrofolate reductase), evolutionary conservation (cytochrome c fold). Based on analysis of these observations, we conclude that the cooperative interactions of domains are important for the mechanism of 3D domain swapping as well as for stabilization and thereby, determination of the ground state of native proteins. Furthermore, analysis of the observations reveals that domains generally contain a hydrophobic core. Further, based on studies of cytochrome c and the Tsao,
Evans
and Wennerstrom model of electrostatic interactions between two hydrophobic monolayers, we propose the model that the hydrophobic core of a domain is polarizable and responds to the surface charges through its polarizability to stabilize the domain, explaining in part the nature of the cooperative interactions.
...
PMID:Linderstrom-Lang-Schellman's model for protein stabilization revisited. 1532 Jul 34
