ライフサイエンスコーパス: redox system

1 ell as at 25 degrees C (with the glutathione redox system).

2 he robustness of the subordinate glutathione redox system.

3 ications despite their relatively well-known redox system.

4 provides only static information on a given redox system.

5 that are formed by the poxvirus cytoplasmic redox system.

6 isulfide bonded via the poxvirus cytoplasmic redox system.

7 y factors that varied with the monolayer and redox system.

8 pid electron transfer in a number of dynamic redox systems.

9 olypeptide chain is exactly the same in both redox systems.

10 versible voltammetric response for all these redox systems.

11 and IrCl(6)2-/3-) and nonaqueous (ferrocene) redox systems.

12 d active voltammetric response for all three redox systems.

13 se (TGR), that exhibits specificity for both redox systems.

14 to the function of a large number of E. coli redox systems.

15 efense and functions importantly in cellular redox systems.

16 For the Fe redox system, a limit of detection of 10(-8) M was calcu

17 as examined as a representative two-electron redox system; a Nernst slope of -30.8 mV was obtained.

18 luence of ionizable residues on a particular redox system, an important step toward understanding the

19 o histones caused loss of homeostasis of the redox system and in [Ca(2+)]i, as well as defects in mit

20 fragilis lacks the glutathione/glutaredoxin redox system and possesses an extensive number of putati

21 also contain a fully functional glutathione redox system and the low-molecular-weight thiol glutathi

22 establish the relationship between these two redox systems and its impact on plant development.

23 ethod to characterize the EEI in solid-state redox systems and reactive electrochemistry at precisely

24 Both flavodoxin and ferredoxin redox systems are able to support this enzymatic activit

25 It is proposed that the Fd-FTR-Trx and NTRC redox systems are linked by the redox balance of 2-Cys P

26 t three different temperatures (with the DTT redox system) as well as at 25 degrees C (with the gluta

27 ts rapid electron exchange with outer-sphere redox systems, but not with dopamine, which requires ads

28 can be activated in vitro by a two-component redox system comprised of soluble cytochrome b5 and P450

29 -state analysis of a M. tuberculosis class I redox system comprising flavoprotein reductase A (FprA),

30 pH and the predominance of the two-electron redox system (DPDE)Rh(I)/(DPDE)Rh(III) at both low and h

31 Two different thiol redox systems exist in plant chloroplasts, the ferredoxi

32 rements are performed in the presence of the redox system ferri-/ferrocyanide and show an increase in

33 ating the importance of a full physiological redox system for activation/inactivation.

34 Thionine was used as redox system for electrochemical probe.

35 nd relies on the CoA/CoA disulfide reductase redox system for protection from oxidative damage.

36 riments show that dopamine is a well-adapted redox system for SECM in feedback mode and in unbiased c

37 ctase (TrxB)/Trx system is the major or sole redox system for thiol/disulfide cellular homeostasis in

38 solic redox couples, such as the NADH/NAD(+) redox system, for the regulation of Ca(2+) homeostasis h

39 a bifunctional active surface containing two redox systems has been obtained.

40 sion, we demonstrate that a polyph-dependent redox system in blood cells is necessary to maintain the

41 on the potential role of the plasma membrane redox system in caloric restriction-induced pathways res

42 er significance for the CoASH/CoAS-disulfide redox system in prokaryotic thiol/disulfide homeostasis.

43 the major, if not the sole, thiol/disulfide redox system in this anaerobe required for survival and

44 his failure, including the complexity of the redox system in vivo.

45 (GSH) systems are considered to be two major redox systems in animal cells.

46 nent in the thioredoxin system, one of major redox systems in mammals that links NADPH and thiol-depe

47 hemical responses for aqueous and nonaqueous redox systems in the mid- and far-IR.

48 rapid electron-transfer kinetics for aqueous redox systems, including Fe(CN)(6)(-3/-4) and Ru(NH(3))(

49 idence that light- and NADPH-dependent thiol redox systems interact at the level of Trx f1 and NTRC t

50 Of the six rainwater redox systems investigated, only manganese speciation ap

51 y, cytoskeletal proteins, protein synthesis, redox system, ion channels and those with unknown functi

52 This important redox system is believed to be driven by an enzyme or en

53 The interaction between the two thiol redox systems is indispensable to sustain photosynthesis

54 c molecular chaperone in the thiol/disulfide redox system, is unknown.

55 teractions between the PPF surface and these redox systems lead to their slow electron-transfer kinet

56 -Hush-Sutin methodology for strongly coupled redox systems lying in the (Robin-Day) Class II category

57 Thus, the NTRC, 2-Cys Prxs, and Fd-FTR-Trxs redox systems may act concertedly, but the nature of the

58 rejection and that manipulation of cellular redox systems may provide a means to protect xenogeneic

59 lation of cell growth and stimulation of the redox system of plasma membranes are correlated.

60 Here we explore the effects of cellular redox systems on the aggregation of hSOD1 proteins.

61 s with agents that modulate the antioxidants/redox system or boost endogenous antioxidants would be a

62 Plasma membrane-associated redox systems play important roles in regulation of cell

63 Thiol-based redox systems play pivotal roles in the success and surv

64 dative damage, but the involvement of the PM redox system (PMRS) in these processes is unknown.

65 on an HT-BDD electrode the [Fe(CN)6](3-/4-) redox system presents a reversible voltammetric behavior

66 Moreover, the combined deficiency of both redox systems provokes aberrant chloroplast ultrastructu

67 hange rate constant implies that this CuII/I redox system represents a true geometric "entatic state.

68 These parasites possess a unique thiol redox system required for DNA synthesis and defense agai

69 Treatment with inhibitors of these redox systems resulted in an increase of hSOD1 aggregate

70 Dysregulation in cellular redox systems results in accumulation of reactive oxygen

71 lectrochemical response, with five different redox systems serving as probes (Fe(CN)(6)(3)(-)(/4)(-),

72 iline film using Fe(2+)/Fe(3+) in HCl as the redox system shows five distinct linear segments (bands)

73 ansfer rates similar to those on GC, but for redox systems such as Fe3+/2+, ascorbic acid, dopamine,

74 ytes contain an unidentified plasma membrane redox system that can reduce extracellular monodehydroas

75 nd thioredoxin (Trx) define a major cellular redox system that maintains cysteine residues in numerou

76 n oxidoreductase central to the unique thiol-redox system that operates in trypanosomatid protozoa, h

77 ve shown that in addition to these cytosolic redox systems the parasite also has an important mitocho

78 For all five redox systems, the forward reaction peak current varied

79 Here, we exploit bacterial redox systems to induce a copper-mediated radical polyme

80 as implied by the inability of other related redox systems to substitute for Rv3230c.

81 these pathways and their crosstalk with the redox system under shear stress is lacking.

82 ve detection for the study of solution-phase redox systems under strict diffusion control.

83 itroreductases (Nrs) play important roles in redox system via NADPH or NADH as a reductant.

84 lectrodes was evaluated using nine different redox systems; well-defined and stable diffusion-limited

85 ate constants, k degrees (app), for all five redox systems were determined from deltaE(p)-nu experime

86 eneous electron-transfer kinetics of various redox systems were evaluated.

87 th ultramicroelectrodes (UMEs) even for fast redox systems, where different sizes of UMEs are used to

88 forded 1, making a fully reversible 1 <--> 3 redox system, whereas two-electron oxidation with AuCl p

89 ion could be indicative of the presence of a redox system, which would regulate the activity of this