Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.1.27.3 (RNase T1)
1,228 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We examined the frequency-domain intensity decays of the intrinsic tryptophan fluorescence (Trp-59) from ribonuclease T1 (EC 3.1.27.3) (RNAase T1). At pH 5.5 in the native state (below 30 degrees C), the intensity decay of the single tryptophan residue is a single-exponential process. Conditions which result in protein unfolding were found to induce more complex intensity decays. At temperatures above 40 degrees C, or in the presence of guanidine hydrochloride, the intensity decays became obviously double exponential. In general, the main effect of temperature or guanidine was to induce a second subnanosecond component in the intensity decay. The increased complexity of the decays could not be explained by a unimodal distribution of decay times. These results indicate that conformational dispersion of protein structure can be one origin of the multi-exponential decays which are generally observed for protein fluorescence.
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PMID:Conformation heterogeneity in proteins as an origin of heterogeneous fluorescence decays, illustrated by native and denatured ribonuclease T1. 337 Feb 16

The decay of the tryptophanyl emission in proteins is often complex due to the sensitivity of the tryptophan excited state to its surroundings. The traditional analysis of the decay curve using exponential components is based on the identification of each component with a particular protein conformation. An alternative approach assumes that proteins can exhibit a large number of conformations and that, at room temperature, the interconversion rate between conformations can be of the same order of magnitude as the excited-state decay rate. Following this assumption, the analysis of the protein emission was performed using continuous distributions of lifetime values. The number of average protein conformations, the range of mobility around each conformation, and the rate of interconversion between conformations determines the characteristics of the lifetime distribution. The fluorescence decay from some single tryptophan proteins was measured using multifrequency phase fluorometry and analyzed using a sum of exponentials, unimodal and bimodal probability-density functions, and the analytical form for lifetime distribution obtained for a model in which the tryptophan residue can move in a single potential well. For ribonuclease T1 and neurotoxin variant 3, the sum of two exponentials and bimodal probability-density functions gave comparable results, whereas for phospholipase A2, the description of the decay required three exponentials or bimodal probability-density functions. Also the temperature dependence of the fluorescence decay was investigated. It was found that the lifetime distribution was broader and shifted toward longer lifetime values at lower temperature. The analysis of the decay of tryptophan in buffer and of some tryptophan derivatives gave single-exponential decays. The single-potential well lifetime distribution, which has only three adjustable parameters, gave good fits for all cases investigated, but in the case of phopholipase A2, the temperature dependence of the parameters that describe the single-potential well distribution indicated the inadequacy of this model at lower temperature, suggesting that multiple potential wells can describe better the decay for this protein.
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PMID:Interpretation of fluorescence decays in proteins using continuous lifetime distributions. 360 13

The molecular structure of murine retroviruses expressed in spontaneous and radiation-induced bone tumours was studied. These viruses induce osteomas, lymphomas and osteopetrosis in mice of the NMRI strain. RNase T1 fingerprint analysis indicates the presence of mixed virus populations in the tumours, with major components showing close relationship to Akv MuLV. Cloned viruses, closely related to Akv MuLV, have the same oncogenic properties as the original mixtures. In its nucleotide sequence of the repeat segments of the transcriptional enhancer in the LTR, one cloned virus analysed was distinct from Akv MuLV, but closely related to a spontaneous bone tumour virus isolate, FBJ MuLV.
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PMID:Structure of endogenous retroviruses expressed in radiation-induced and spontaneous murine bone tumours. 373 16

The previously reported method for the preparation of Kyn 59-RNase T1 and NFK 59-RNase T1 has been improved, and these two proteins have been obtained in high purity. Kyn 59-RNase T1, fully active for the hydrolysis of GpA and GpC, emitted a 35-fold-enhanced fluorescence of kynurenine relative to acetylnurenine amide with an emission maximum at 455 nm upon excitation at 380 nm. The polarity of the environment of Kyn 59 estimated from the emission maximum corresponded to a dielectric constant of 6. Upon excitation at 325 nm, NFK 59-RNase T1, less active than Kyn 59-RNase T1, exhibited a quenched N'-formylkynurenine fluorescence with an emission maximum at 423 nm, from which the value of 12 was obtained as the dielectric constant of the surroundings of residue 59. In both modified proteins, distinct tyrosine fluorescence appeared on excitation at 280 nm. The detection of an energy transfer from tyrosine to residue 59 suggests that the tertiary structure is very similar in Kyn 59-RNase T1 and native RNase T1. With guanidine hydrochloride, Kyn 59-RNase T1 was less stable than the native protein. Carboxymethylation at Glu 58 was shown to stabilize the active site of the modified enzyme. Based on the information collected for Kyn 59-RNase T1, the local environment and possible roles of the sole tryptophan residue in RNase T1 are discussed.
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PMID:The role of the single tryptophan residue in the structure and function of ribonuclease T1. 681 71

We studied the rotational motions of tryptophan residues in proteins and peptides by measurement of steady-state fluorescence anisotropies under conditions of oxygen quenching. By fluorescence quenching we can shorten the fluorescence lifetime and thereby decrease the average time for rotational diffusion prior to fluorescence emission. This method allowed measurement of rotational correlation times ranging from 0.03 to 50 ns, when the unquenched fuorescence lifetimes are near 4 ns. A wide range of proteins and peptides were investigated with molecular weights ranging from 200 to 80 000. Many of the chosen substances possessed a single tryptophan residue to minimize the uncertainties arising from a heterogeneous population of fluorophores. In addition, we also studied a number of multi-tryptophan proteins. Proteins were studied at various temperatures, under conditions of self-association, and in the presence of denaturants. A wide variety of rotational correlation times were found. As examples we note that the single tryptophan residue of myelin basic protein was highly mobile relative to overall protein rotation whereas tryptophan residues in human serum albumin, RNase T1, aldolase, and horse liver alcohol dehydrogenase were found to be immobile relative to the protein matrix. These results indicate that one cannot generalize about the extent of segmental mobility of the tryptophan residues in proteins. This physical property of proteins is highly variable between proteins and probably between different regions of the same protein.
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PMID:Rotational freedom of tryptophan residues in proteins and peptides. 684 81

The dependence of fluorescence emission maxima of L-tryptophan and single-tryptophan-containing proteins (ribonuclease T1, melittin, and parvalbumin) on excitation wavelength has been studied in reversed micelle systems of sodium bis(2-ethyl-1-oxyl) sulfosuccinate (AOT). No effect of fluorescence maximum shift for different excitation wavelengths is observed for ribonuclease T1, in which a single tryptophan residue is located in the nonrelaxating, nonpolar protein interior. L-Tryptophan and the rest of the studied proteins, which contain single tryptophan residues exposed to the solvent, exhibit the dipolar relaxational processes of partly immobilized water molecules in micelles. This effect depends on the molar H2O/AOT ratio. Circular dichroism measurements prove that there have been no structural changes of the studied proteins in micellar systems. The results provide information about dynamic relaxational processes in proteins.
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PMID:Red-edge excitation fluorescence spectroscopy of proteins in reversed micelles. 752 18

The tryptophan fluorescence of two membrane proteins (outer membrane protein A and lactose permease), a 21-residue hydrophobic peptide, three soluble proteins (rat serum albumin, ribonuclease T1, and azurin), and N-acetyltryptophanamide (NATA) was investigated by time-resolved measurements extended over 65 ns. A long lifetime component with a characteristic time of 25 ns and an amplitude below 1% was found for outer membrane protein A, lactose permease, the peptide in lipid membranes, and azurin in water, but not for rat serum albumin, ribonuclease T1, and NATA in water. When outer membrane protein A was dissolved and unfolded in guanidinum hydrochloride, the long lifetime component disappeared. Hence, a hydrophobic environment seems to be a necessary requirement for the long lifetime component to be present. However, NATA dissolved in butanol does not exhibit the long lifetime component, while the peptide dissolved in the same solvent under conditions which preserve its helical structure does show the long lifetime. Thus, a regular secondary structure for the polypeptide chain to which the tryptophan residue belongs seems to be a second necessary requirement for the long lifetime component to be present. The long lifetime component may therefore be seen in the context of protein substates.
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PMID:A long lifetime component in the tryptophan fluorescence of some proteins. 772 67

Our recent equilibrium dialysis studies showed that proteins are able to interact preferentially with acrylamide (Punyiczki et al. (1993) Biophys. Chem. 47, 9-19). The presence of considerable amounts of acrylamide--albeit weakly bound--in the protein volume, coupled with the failure of a simple gating model of quenching to rationalise viscosity dependence of the quenching of tryptophan (Trp) fluorescence in Ribonuclease T1 (RNase T1) has prompted us to explore a new model, the two-phase model for quenching. According to this model, the dynamic quenching is accomplished by quencher molecules already in the protein phase at the moment of excitation. Some of the molecules may, at this moment, form an encounter complex with the fluorophore and thus be responsible for the observed static contribution. We use the rate equation derived from our model to study the viscosity dependence of acrylamide quenching of Trp fluorescence in RNase T1. The model allows us to separate co-solvent effects: the chemical effect on the protein and on the distribution of quencher molecules between the bulk and the protein phases and, further, the viscosity effect due to coupling between the bulk viscosity and the local friction affecting intramolecular fluctuations of the protein matrix. We express local friction in terms of bulk viscosity, eta, and a coupling constant kappa (friction = eta kappa). Addition of glycerol up to 65% is characterised by a kappa of 0.50. The viscosity dependence of the apparent bimolecular quenching constant is a combination of two compensating effects: changes in chemical activity and changes in patterns of structural fluctuations.
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PMID:Coupling between external viscosity and the intramolecular dynamics of ribonuclease T1: a two-phase model for the quenching of protein fluorescence. 794 83

We describe the theory and practical aspects of analyzing fluorescence anisotropy decays in terms of correlation times distributions. In our model the rotational motions of the fluorophores were described using Gaussian or Lorentzian distributions of the correlation times. The theory is presented both for time and frequency-domain measurements, although the simulations and measurements are focused on the frequency-domain measurements of the anisotropy decays. Analysis of simulated data is presented to illustrate the nature of the data and the resolution which can be expected with presently available frequency-domain measurements. Additionally, we describe experimental data for samples where one can reasonably expect a single exponential and/or discrete multi-exponential correlation time distributions, and for samples where the anisotropy decay might be expected to display a distribution of correlation times. These samples include small single tryptophan peptides in propylene glycol, the single tryptophan residue in S. Nuclease, and the single tryptophan residue in the native and partially unfolded states of ribonuclease T1.
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PMID:Analysis of anisotropy decays in terms of correlation time distributions, measured by frequency-domain fluorometry. 794 8

Alterations in flexibility of monomeric proteins induced by hydrostatic pressure in the predenaturational range (< or = 3 kbar) were probed through the decay kinetics of tryptophan phosphorescence. With apoazurin, ribonuclease T1, wild-type and V67G mutant and phosphoglycerate kinase, pressure effects on the triplet lifetime (tau) and the amplitudes of multicomponent decays emphasize that subtle changes in conformation are ubiquitous. With apoazurin the increase in tau attests to a tightening of the protein core that is enhanced at high temperature. On the contrary, tau decreases with ribonuclease T1, wild-type and mutant, and with phosphoglycerate kinase, indicating that pressure induces a greater flexibility to protein regions in proximity to the surface of the macromolecule. For phosphoglycerate kinase the decrease in tau and the parallel increase in fluorescence intensity and red-shift of the fluorescence spectrum unveil an "unfolding" like transition with midpoint pressures of 1.1 kbar at 5 degrees C and 1.6 kbar at 25 degrees C. Evidence that unfolding of the C-domain of this protein is, however, less than complete is provided by a delta G zero that is about half of that obtained by denaturation in guanidine hydrochloride and also by the ability of this structure to undergo conformational drift. In 70% glycerol, pressure effects on tau of apoazurin are attenuated while for ribonuclease T1 there is a reversal of the tendency with a pronounced increase in tau. With phosphoglycerate kinase glycerol abolishes entirely the "unfolding" transition and all hysteresis effects. A consistent picture of these findings is provided in terms of the location of the probe and of the opposing effects that pressure exerts on protein flexibility by reducing internal cavities and increasing the hydration of the polypeptide.
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PMID:Pressure effects on protein flexibility monomeric proteins. 808 48


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