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High-energy exchange reactions

These considerations introduce a new perspective to explain modulation of the ATP synthetase activities and medium exchange reactions by energy input, substrate concentration, and in general any factor which could affect the microenvironment of the enzyme, provided that proper conditions for "diffusion control" exist (high reaction rate and low diffusibility of substrates, products, or effectors). [Pg.499]

The existence of the Ei, and E2 states of the phosphorylated protein, i.e., the high-and low-energy phosphoenzyme intermediate, has been demonstrated by the ATP ADP exchange reaction [92,93] and by the exchange between inorganic phosphate and water [94]. [Pg.35]

This study presents kinetic data obtained with a microreactor set-up both at atmospheric pressure and at high pressures up to 50 bar as a function of temperature and of the partial pressures from which power-law expressions and apparent activation energies are derived. An additional microreactor set-up equipped with a calibrated mass spectrometer was used for the isotopic exchange reaction (DER) N2 + N2 = 2 N2 and the transient kinetic experiments. The transient experiments comprised the temperature-programmed desorption (TPD) of N2 and H2. Furthermore, the interaction of N2 with Ru surfaces was monitored by means of temperature-programmed adsorption (TPA) using a dilute mixture of N2 in He. The kinetic data set is intended to serve as basis for a detailed microkinetic analysis of NH3 synthesis kinetics [10] following the concepts by Dumesic et al. [11]. [Pg.318]

Labile species are usually main group metal ions with the exception of Cr2+ and Cu2+, whose lability can be ascribed to Jahn-Teller effects. Transition metals of classes II and III are species with small ligand field stabilization energies, whereas the inert species have high ligand field stabilization energies (LFSE). Examples include Cr3+ (3d3) and Co3+ (3d6). Jahn-Teller effects and LFSE are discussed in Section 1.6. Table 1.9 reports rate constant values for some aqueous solvent exchange reactions.8... [Pg.9]

The ESR signal due to 02 demonstrates that the heterolytic activation of R-H has occurred. An interesting feature of the H-D exchange reactions over the MgO surface is the low activation energy, i.e., Ea 2 kcal/mol. This is lower than the gas phase for the reaction H + D2 —> 2 D + HD. The high activity of the ionic oxides has been attributed to the presence of basic sites and in particular to defect sites that are formed during the oxide preparation that persist even at elevated temperatures.41 42... [Pg.52]


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See also in sourсe #XX -- [ Pg.201 ]




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Exchange energy

Exchange, energy reactions

High reactions

High-energy

High-energy Reactions

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