ライフサイエンスコーパス: dissociation reaction

1 time scales in the prototypical formaldehyde dissociation reaction.

2 periments on a well-characterized DNA strand dissociation reaction.

3 h thereby facilitates the rate-limiting O(2)-dissociation reaction.

4 c product formation reaction and the product dissociation reaction.

5 so observed for the first time in the phenol dissociation reaction.

6 e the volume change associated with the acid-dissociation reaction.

7 r a low-affinity site that is coupled to the dissociation reaction.

8 y and with a reversal of these steps for the dissociation reaction.

9 on primarily during the actual ATP-dependent dissociation reaction.

10 (6) M-1 s-1) as are the several terms of the dissociation reaction.

11 measured immediately after initiation of the dissociation reaction.

12 r evidence that the primary defect is in the dissociation reaction.

13 population of a kinetic intermediate in the dissociation reaction.

14 lteration in the deltaH of subsequent ligand dissociation reactions.

15 importance of different K effects on the CO dissociation reactions.

16 lyte models for various structural or strand-dissociation reactions.

17 fragment ions obtained by collision-induced dissociation reactions.

18 erium exchange (HDX) occurring after ion/ion dissociation reactions.

19 ong electric fields can accelerate molecular dissociation reactions.

20 ustrate how the interplay of association and dissociation reactions across phase boundaries can culmi

21 scovered a dramatic difference in dominating dissociation reactions, activation barriers, and reactio

22 by the proximal accessory region, while the dissociation reaction and specificity of binding are con

23 ESI FAIMS HRMS, we were able to prevent ion dissociation reactions and obtained high quality spectra

24 es are carbon-carbon bond cleavage reaction, dissociation reaction, and hydrogen abstraction and addi

25 and thermal "on" (recombination) and "off" (dissociation) reactions are the different processes invo

26 The 93 kJ/mol activation energy for the dissociation reaction at ambient pressure is lowered by

27 that has traversed the early portion of the dissociation reaction coordinate through endothermic bon

28 can be computed along the entire association/dissociation reaction coordinate.

29 For many protein multimers, association and dissociation reactions fail to reach the same end point;

30 Arrhenius plots for both the association and dissociation reactions for the equilibrium binding step

31 experiments to reverse an endothermic domain-dissociation reaction hypothesized to gate binding to Se

32 s that fluorescence measurements of a single dissociation reaction in one spectral region are adequat

33 ble-order form of the Marcus equation to the dissociation reactions in correlating the enthalpy of re

34 Dna2 mutant, we reconstituted the sequential dissociation reactions in the proposed RPA/Dna2/FEN1 pat

35 the direct protein substitution and assisted dissociation reactions indicate that these two unique pr

36 The fibrillization was reversible, and the dissociation reaction involved two phases.

37 This method requires that the acid dissociation reaction involving the thermally equilibrat

38 e kinetics of the individual association and dissociation reactions is hampered by the fact that forw

39 information from protein-protein association/dissociation reactions is particularly valuable for reve

40 (-)(1) K(-)(1) for the coupled unfolding and dissociation reaction (NL(2) --> D + 2L).

41 ly predict the equilibrium for the effective dissociation reaction of [C4mim][NTf2] ions, in excellen

42 ation methods, we found that the association-dissociation reaction of ApoE can be modeled with a mono

43 ielding a negative activation volume for the dissociation reaction of DeltaV(++) = -16 A(3).

44 We show that the dissociation reaction of rhodopsin to 11CR and opsin has

45 ectroscopy) and the results suggest that the dissociation reaction of the SfiI-DNA complex has a sing

46 aviour is incomplete on the timescale of the dissociation reactions of [Formula: see text], suggestin

47 has recently been discovered in unimolecular dissociation reactions of isolated molecules in the gas

48 ort results of a study of the characteristic dissociation reactions of pseudouridine-containing oligo

49 The association and dissociation reactions of single Nile Red molecules with

50 valuate (in a model-free manner) association/dissociation reactions of solvent components (e.g., prot

51 endence of the rate constants of binding and dissociation reactions of two structurally different bet

52 that showcases how to control rebound versus dissociation reaction pathway selectivity.

53 Ionization and dissociation reactions play a fundamental role in aqueou

54 [(*)OH((aq))](S), while the electron-impact dissociation reactions play significant roles in the gen

55 Simulations of capsid assembly and dissociation reactions recapitulate and provide an expla

56 tic experiments indicates that the unfolding/dissociation reactions remain largely two-state.

57 However, dissociation reactions resulting in the formation of eit

58 The water dissociation reaction runs as long as the surface can tr

59 en 300 and 3000 K indicate that the proposed dissociation reactions should be important in the decomp

60 Spectral analysis of the dissociation reaction showed that it caused structural c

61 This turnover results from association and dissociation reactions that are mediated by each of the

62 kMech into a set of fundamental association-dissociation reactions that are translated by Cellerator

63 kMech into a set of fundamental association-dissociation reactions that are translated by Cellerator

64 provides an alternative picture, where in a dissociation reaction, the bond breaking is frustrated a

65 liance, i.e., the susceptibility of the bond dissociation reaction to applied force.

66 f the data from the coupled unfolding/ligand dissociation reaction to obtain the sulfate dissociation

67 coordinate the Ran-dependent association and dissociation reactions underlying nuclear import.

68 y process in this context is the water (auto)dissociation reaction (WD), which governs acid-base aque

69 erefore, the kinetics of the association and dissociation reactions were studied in this work using t

70 All four undergo biphasic association and dissociation reactions with NO.

71 d with proton transfer and electron transfer dissociation reactions with peptides.