Your search keyword '"Kaufman SB"' showing total 66 results

51. Binding of a single Rb+ increases Na+/K+-ATPase, activating dephosphorylation without stoichiometric occlusion.

Author

Kaufman SB, González-Lebrero RM, Rossi RC, and Garrahan PJ

Subjects

Animals, Kidney enzymology, Kinetics, Phosphorylation, Protein Binding, Swine, Rubidium metabolism, Sodium-Potassium-Exchanging ATPase metabolism

Abstract

We used partially purified Na+/K+-ATPase from pig kidney to study dephosphorylation, occlusion, and ATPase activity in the same enzyme preparation and in media of identical composition containing 10 microM ATP and different concentrations of Rb+, used as a K+ congener. The experiments were performed using a rapid-mixing apparatus with a time resolution of 3.5 ms. The main findings were as follows. (i) At sufficiently low Rb+ concentration the initial rate of dephosphorylation was higher than that of occlusion, (ii) as [Rb+] tended to zero the slope of the time course of occlusion but not that of the time course of dephosphorylation approached zero and, (iii) as Rb+ concentration increased, ATPase activity first increased and, after passing through a maximum, tended to a value that was lower than that observed in media without Rb+. None of these results is compatible with the currently held idea that binding of a single Rb+ to the E2P conformer of the ATPase does not modify the rate of dephosphorylation and strongly suggest that a single Rb+ does promote dephosphorylation through a mechanism that is not stoichiometrically coupled to Rb+ occlusion. If this mechanism is included in the currently accepted scheme for ATP hydrolysis by the Na+/K+-ATPase, a reasonable prediction of the experimental results is obtained.

Published

2006

52. J/psi polarization in 800-GeV p-Cu interactions.

Author

Chang TH, Beddo ME, Brown CN, Carey TA, Cooper WE, Gagliardi CA, Garvey GT, Geesaman DF, Hawker EA, He XC, Isenhower LD, Kaplan DM, Kaufman SB, Koetke DD, McGaughey PL, Lee WM, Leitch MJ, Moss JM, Mueller BA, Papavassiliou V, Peng JC, Reimer PE, Sadler ME, Sondheim WE, Stankus PW, Towell RS, Tribble RE, Vasiliev MA, Webb JC, Willis JL, and Young GR

Abstract

We present measurements of the polarization of the J/psi produced in 800-GeV proton interactions with a copper target. Polarization of the J/psi is sensitive to the ccmacr; production and hadronization processes. A longitudinal polarization is observed at large x(F), while at small x(F) the state is produced essentially unpolarized or slightly transversely polarized. No significant variation of the polarization is observed versus p(T).

Published

2003

53. Binding of 1 Rb+ accelerates dephosphorylation of the Na+,K+-ATPase without leading to Rb+ occlusion.

Author

Kaufman SB, González-Lebrero RM, Garrahan PJ, and Rossi RC

Subjects

Animals, Kidney enzymology, Kinetics, Phosphorylation, Rubidium pharmacology, Sodium-Potassium-Exchanging ATPase antagonists & inhibitors, Swine, Rubidium pharmacokinetics, Sodium-Potassium-Exchanging ATPase metabolism

Abstract

In steady-state conditions and for concentrations of the K(+)-congener Rb(+) less than 2.5 mM, Rb(+)-dependent ATPase activity is significantly higher than the steady-state rate of breakdown of Rb(+)-occluded states, a discrepancy that disappears at sufficiently high [Rb(+)]. Direct experimental evidence is provided that supports the explanation that the binding of a single Rb(+) to the phosphoenzyme conformer E(2)P accelerates dephosphorylation without leading to the occlusion of the cation.

Published

2003

54. The sidedness of the direct route of occlusion of K+ in the Na+/K+-ATPase.

Author

González-Lebrero RM, Kaufman SB, Garrahan PJ, and Rossi RC

Subjects

Kinetics, Models, Molecular, Phosphates metabolism, Potassium chemistry, Rubidium pharmacology, Potassium metabolism, Sodium-Potassium-Exchanging ATPase chemistry, Sodium-Potassium-Exchanging ATPase metabolism

Published

2003

55. The Occlusion of Rb(+) in the Na(+)/K(+)-ATPase. I. The identity of occluded states formed by the physiological or the direct routes: occlusion/deocclusion kinetics through the direct route.

Author

González-Lebrero RM, Kaufman SB, Montes MR, Nørby JG, Garrahan PJ, and Rossi RC

Subjects

Adenosine Triphosphate metabolism, Animals, Kidney enzymology, Kinetics, Models, Theoretical, Phosphates metabolism, Phosphates pharmacology, Regression Analysis, Sodium-Potassium-Exchanging ATPase metabolism, Swine, Rubidium metabolism, Sodium-Potassium-Exchanging ATPase physiology

Abstract

Occlusion of K(+) or its congeners in the Na(+)/K(+)-ATPase occurs after K(+)-dependent dephosphorylation (physiological route) or in media lacking ATP and Na(+) (direct route). The effects of P(i) or ATP on the kinetics of deocclusion of the K(+)-congener Rb(+) formed by each of the above mentioned routes was independent of the route of occlusion, which suggests that both routes lead to the same enzyme intermediate. The time course of occlusion via the direct route can be described by the sum of two exponential functions plus a small component of very high velocity. At equilibrium, occluded Rb(+) is a hyperbolic function of free [Rb(+)] suggesting that the direct route results in enzyme states holding either one or two occluded Rb(+). Release of occluded Rb(+) follows the sum of two decreasing exponential functions of time, corresponding to two phases with similar sizes. These phases are not caused by independent physical compartments. The rate constant of one of the phases is reduced up to 30 times by free Rb(+). When Rb(+) is the only pump ligand, the kinetics of occlusion and deocclusion through the direct route are consistent with an ordered-sequential process with additional independent step(s) interposed between the uptake or the release of each occluded Rb(+).

Published

2002

56. The Occlusion of Rb(+) in the Na(+)/K(+)-ATPase. II. The effects of Rb(+), Na(+), Mg2(+), or ATP on the equilibrium between free and occluded Rb(+).

Author

Gonzalez-Lebrero RM, Kaufman SB, Garrahan PJ, and Rossi RC

Subjects

Adenosine Triphosphate pharmacology, Animals, Kidney enzymology, Kinetics, Magnesium pharmacology, Models, Theoretical, Rubidium pharmacology, Sodium pharmacology, Swine, Rubidium metabolism, Sodium-Potassium-Exchanging ATPase metabolism

Abstract

We used the direct route of occlusion to study the equilibrium between free and occluded Rb(+) in the Na(+)/K(+)-ATPase, in media with different concentrations of ATP, Mg(2+), or Na(+). An empirical equation, with the restrictions imposed by the stoichiometry of ligand binding was fitted to the data. This allowed us to identify which states of the enzyme were present in each condition and to work out the schemes and equations that describe the equilibria between the ATPase, Rb(+), and ATP, Mg(2+), or Na(+). These equations were fitted to the corresponding experimental data to find out the values of the equilibrium constants of the reactions connecting the different enzyme states. The three ligands decreased the apparent affinity for Rb(+) occlusion without affecting the occlusion capacity. With [ATP] tending to infinity, enzyme species with one or two occluded Rb(+) seem to be present and full occlusion seems to occur in enzymes saturated with the nucleotide. In contrast, when either [Mg(2+)] or [Na(+)] tended to infinity no occlusion was detectable. Both Mg(2+) and Na(+) are displaced by Rb(+) through a process that seems to need the binding and occlusion of two Rb(+), which suggests that in these conditions Rb(+) occlusion regains the stoichiometry of the physiological operation of the Na(+) pump.

Published

2002

57. Observation of polarization in bottomonium production at square root of s = 38.8 GeV.

Author

Brown CN, Awes TC, Beddo ME, Brooks ML, Bush JD, Carey TA, Chang TH, Cooper WE, Gagliardi CA, Garvey GT, Geesaman DF, Hawker EA, He XC, Isenhower LD, Kaplan DM, Kaufman SB, Kirk PN, Koetke DD, Kyle G, Lee DM, Lee WM, Leitch MJ, Makins N, McGaughey PL, Moss JM, Mueller BA, Nord PM, Papavassiliou V, Park BK, Peng JC, Petitt G, Reimer PE, Sadler ME, Sondheim WE, Stankus PW, Thompson TN, Towell RS, Tribble RE, Vasiliev MA, Webb JC, Willis JL, Wise DK, and Young GR

Abstract

We present a measurement of the polarization observed for bottomonium states produced in p-Cu collisions at square root of s = 38.8 GeV. The angular distribution of the decay dimuons of the Upsilon(1S) state shows no polarization at small values of the fractional longitudinal momentum x(F) and transverse momentum p(T) but significant positive transverse production polarization for either p(T)>1.8 GeV/c or for x(F)>0.35. The Upsilon(2S+3S) (unresolved) states show a large transverse production polarization at all values of x(F) and p(T) measured. These observations challenge NRQCD calculations of the polarization expected in the hadronic production of bottomonium states.

Published

2001

58. Measurement of differences between J/psi and psi(') suppression in p-A collisions

Author

Leitch MJ, Lee WM, Beddo ME, Brown CN, Carey TA, Chang TH, Cooper WE, Gagliardi CA, Garvey GT, Geesaman DF, Hawker EA, He XC, Isenhower LD, Kaplan DM, Kaufman SB, Koetke DD, McGaughey PL, Moss JM, Mueller BA, Papavassiliou V V, Peng JC, Petitt G, Reimer PE, Sadler ME, Sondheim WE, and Stankus PW

Abstract

Measurements of the suppression of the yield per nucleon of J/psi and psi(') production for 800 GeV/ c protons incident on heavy nuclear targets, relative to light nuclear targets, have been made with very broad coverage in x(F) and p(T). The observed suppression is smallest at x(F) values of 0.25 and below, and increases at larger values of x(F). It is also strongest at small p(T). Substantial differences between psi(') and J/psi production are observed for the first time in p-A collisions. The suppression for psi(') production is stronger than that for J/psi for x(F) near zero, but becomes comparable to that for J/psi for x(F)>0.6.

Published

2000

59. Are the states that occlude rubidium obligatory intermediates of the Na(+)/K(+)-ATPase reaction?

Author

Kaufman SB, González-Lebrero RM, Schwarzbaum PJ, Nørby JG, Garrahan PJ, and Rossi RC

Subjects

Animals, Hydrolysis, Ion Transport, Kidney metabolism, Substrate Specificity, Swine, Adenosine Triphosphate metabolism, Rubidium metabolism, Sodium-Potassium-Exchanging ATPase metabolism

Abstract

In the Albers-Post model, occlusion of K(+) in the E(2) conformer of the enzyme (E) is an obligatory step of Na(+)/K(+)-ATPase reaction. If this were so the ratio (Na(+)/K(+)-ATPase activity)/(concentration of occluded species) should be equal to the rate constant for deocclusion. We tested this prediction in a partially purified Na(+)/K(+)-ATPase from pig kidney by means of rapid filtration to measure the occlusion using the K(+) congener Rb(+). Assuming that always two Rb(+) are occluded per enzyme, the steady-state levels of occluded forms and the kinetics of deocclusion were adequately described by the Albers-Post model over a very wide range of [ATP] and [Rb(+)]. The same happened with the kinetics of ATP hydrolysis. However, the value of the parameters that gave best fit differed from those for occlusion in such a way that the ratio (Na(+)/K(+)-ATPase activity)/(concentration of occluded species) became much larger than the rate constant for deocclusion when [Rb(+)] <10 mM. This points to the presence of an extra ATP hydrolysis that is not Na(+)-ATPase activity and that does not involve occlusion. A possible way of explaining this is to posit that the binding of a single Rb(+) increases ATP hydrolysis without occlusion.

Published

1999

60. An attachment for nondestructive, fast quenching of samples in rapid-mixing experiments.

Author

Rossi RC, Kaufman SB, González Lebrero RM, Nørby JG, and Garrahan PJ

Subjects

Adenosine Triphosphate metabolism, Animals, In Vitro Techniques, Indicators and Reagents, Kidney enzymology, Kinetics, Micropore Filters, Rubidium metabolism, Sodium-Potassium-Exchanging ATPase metabolism, Swine, Chemistry Techniques, Analytical instrumentation, Enzymes metabolism

Abstract

The present paper describes a quenching-and-washing chamber (QWC) to be used with a rapid-mixing apparatus (RMA) for the study of processes in the millisecond time scale. The QWC enables fast, nondestructive quenching by cooling and dilution of reactants in particulate systems that can be trapped on a filter. The reaction mixture (e.g., at 25 degrees C) is injected from the RMA into the QWC where it is immediately mixed with a stream of ice-cold solution flowing at a rate of 15-40 ml s-1. Quenching requires that the process studied is slowed considerably by cooling to 0-2 degrees C and/or by removal of reactants by dilution. The equipment was characterized through a study of the tight binding (occlusion) of 86Rb+ to purified, membrane-bound Na+/K+-ATPase. Millipore filters of 0.22-0.80 microm pore size trapped close to 100% of the enzyme protein. Enzyme with occluded 86Rb+ was formed in the RMA under conditions where the rate constant for release of Rb+ at 25 degrees C is up to 25 s-1 and then injected into the QWC. The high off-rate constant is due to the presence of 2.5 mM ATP, which accelerates release of Rb+. The recovery of occluded 86Rb+ on the filter was at least 90%, indicating that both cooling of the reactants and dilution of ATP are fast enough to stop the reaction. The quenching time was 3-4 ms., (Copyright 1999 Academic Press.)

Published

1999

61. Kinetic properties of the Na,K-ATPase of goldfish kidney.

Author

García MP, Schwarzbaum PJ, Rossi RC, and Kaufman SB

Subjects

Adenosine Triphosphate metabolism, Animals, Goldfish, Kinetics, Microsomes enzymology, Models, Chemical, Phosphates metabolism, Phosphoproteins metabolism, Kidney enzymology, Sodium-Potassium-Exchanging ATPase metabolism

Published

1997

62. Relationship between ouabain-sensitive ATPase activity and occluded Rb+ at micromolar ATP concentrations.

Author

Rossi RC, Garrahan PJ, Kaufman SB, Nørby JG, and Schwarzbaum PJ

Subjects

Animals, Cations, Monovalent metabolism, Kidney enzymology, Kinetics, Models, Chemical, Sodium-Potassium-Exchanging ATPase antagonists & inhibitors, Swine, Adenosine Triphosphate metabolism, Ouabain pharmacology, Rubidium metabolism, Sodium-Potassium-Exchanging ATPase metabolism

Published

1997

63. An unexpected effect of ATP on the ratio between activity and phosphoenzyme level of Na+/K(+)-ATPase in steady state.

Author

Schwarzbaum PJ, Kaufman SB, Rossi RC, and Garrahan PJ

Subjects

Adenosine Triphosphatases metabolism, Animals, Hydrolysis, Kinetics, Models, Chemical, Phosphorylation, Swine, Adenosine Triphosphate metabolism, Cation Transport Proteins, Sodium-Potassium-Exchanging ATPase metabolism

Abstract

According to the Albers-Post model the hydrolysis of ATP catalyzed by the Na+/K(+)-ATPase requires the sequential formation of at least two conformers of a phosphoenzyme (E1P and E2P), followed by the K(+)-stimulated hydrolysis of E2P. In this paper we show that this model is a particular case of a more general class of models in all of which the ratio between ATPase activity (v) and total phosphoenzyme level (EP) in steady state is determined solely by the rate constants of interconversion between phosphoconformers and of dephosphorylation. Since these are thought to be unaffected by ATP, the substrate curves for ATPase activity and EP should be identical in shape so that the ratio v/EP ought to be independent of the concentration of ATP. We tested this prediction by parallel measurements of v and EP as a function of [ATP] in the absence or presence of non-limiting concentrations of K+, Rb+ or NH+4. In the absence of K+ or its congeners, both curves followed Michaelis-Menten kinetics, with almost identical Km values (0.16 microM) so that v/EP remained independent of [ATP]. In the presence of either K+, Rb+ or NH+4, v and EP increased with [ATP] along the sum of two Michaelis-Menten equations. The biphasic response of v is well known but, to the best of our knowledge, our results are the first demonstration that the response of EP to [ATP] is also biphasic. Under these conditions, the ratio v/EP increased with [ATP] from 19.8 to 40.1 s-1 along a hyperbola that was half-maximal at 9.5 microM. To preserve the validity of the current model it seems necessary to assume that ATP acts on the E1P <--> E2P transition and/or on the rate of hydrolysis of E2P. The latter possibility was ruled out. We also found that to fit the Albers-Post model to our data, the rate constant for K+ deocclussion from E2 has to be about 10-times higher than that reported from measurements of partial reactions. The results indicate that the Albers-Post model quantitatively predicts the experimental behavior of the Na(+)-ATPase activity but is unable to do this for the Na+/K(+)-ATPase activity, unless additional and yet unproved hypothesis are included.

Published

1995

64. Light fragment emission as studied by the (p,pHe) reactions on Be and Ag with 300 MeV protons.

Author

Korteling RG, Green RE, D'Auria JM, Helmer RL, Jackson KP, Kaufman SB, and Wilkins BD

Published

1990

65. Emission of 3He and 4He in reactions of 70- and 160-MeV pi +/- mesons with Ag.

Author

Kaufman SB, Wilkins BD, Henderson DJ, Green RE, Korteling RG, and Butler GW

Published

1985

66. Distribution of reaction strength in 32S

Author

Keller JG, Back BB, Glagola BG, Henderson D, Kaufman SB, Sanders SJ, Siemssen RH, Videbaek F, Wilkins BD, and Worsham A

Published

1987