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1 s it is not caused by a direct effect on the electron transport system.
2 ivergence across different components of the electron transport system.
3 t putatively monitors the redox state of the electron transport system.
4 ation and the expression of the genes of the electron transport system.
5 y that links disulfide bond formation to the electron transport system.
6 drogenase, which are integral members of the electron transport system.
7 is type of behavior is originated within the electron transport system.
8 . brasilense are triggered by changes in the electron transport system.
9 tabolism dependent and required a functional electron transport system.
10 the flow of reducing equivalents through the electron transport system.
11 stulated to interact with a component of the electron transport system.
12 onferred in part by multicomponent, branched electron transport systems.
13 affects the onset but not the progression of electron transport system abnormalities, thereby, limiti
14 light, redox carriers that interact with the electron transport system and metabolized carbon sources
15 erichia coli is a response to changes in the electron transport system and not oxygen per se.
16 uggest reduced activity of the mitochondrial electron transport system and reduced levels of cardiac-
17 g point for defining this organism's complex electron transport systems and metal ion-reducing capabi
18 tility responses triggered by changes in the electron transport system are collectively known as ener
19 e production by inhibiting the mitochondrial electron transport system, did not inhibit IL-1beta-indu
20 al respiration, transmembrane potential, and electron transport system enzymatic activities showed no
21                                        These electron transport system (ETS) abnormalities accumulate
22 restriction and aging on the accumulation of electron transport system (ETS) abnormalities was studie
23 roduced per pair of electrons donated to the electron transport system (ETS) and energy-maintenance r
24       The menaquinone pool is central to the electron transport system (ETS) and therefore provides a
25 mplexes II, III, and IV of the mitochondrial electron transport system (ETS) is reduced in postmortem
26                   These results suggest that electron transport system (ETS) proteins form coadapted
27 remove critical subunits that encode for the electron transport system (ETS).
28 of VL muscle fibers exhibiting mitochondrial electron-transport-system (ETS) abnormalities increased
29     The bacterial P450cin utilizes a similar electron transport system except the FAD/FMN reductase c
30 hich requires the proton motive force and/or electron transport system for signaling.
31 irment, particularly within complex I of the electron transport system, has been implicated in the pa
32 ailable, the former requiring an alternative electron transport system in a simplified mitochondrion.
33 actions of three complex III proteins of the electron transport system in F2 hybrid copepods resultin
34 c acid pathway and all five complexes of the electron transport system in mitochondria.
35      Since utilization of menaquinone in the electron transport system is a characteristic of Gram-po
36 bacterium, Shewanella oneidensis MR-1, whose electron transport system is being investigated for rene
37 MPTP is believed to inhibit complex I of the electron transport system leading to the generation of r
38  The fully assembled complex functions as an electron transport system, moving electrons from cytosol
39 noids that play key roles in the respiratory electron transport system of some prokaryotes by shuttli
40    As quinones play an essential role in the electron transport systems of microbes, the proposed met
41 n is a central feature of the photosynthetic electron-transport system of all oxygenic organisms.
42 n directly, Aer detects redox changes in the electron transport system or cytoplasm when the bacteria
43 ide (FAD) domain senses redox changes in the electron transport system or cytoplasm.
44 ecules can be generated endogenously via the electron transport system or may arise from a host of ex
45  consume oxygen through an integral membrane electron transport system, the physiological role of thi
46  least three different trans Plasma Membrane Electron Transport systems (tPMETs), and that four media
47 li, senses changes in the redox state of the electron transport system via an flavin adenine dinucleo
48 t monitor changes in the redox status of the electron transport system via the FAD cofactor associate
49 A number of genes encoding components of the electron transport system were also differentially expre
50 nsfer the generated electrons to the aerobic electron transport system where energy is formed by oxid
51 anella putrefaciens MR-1 possesses a complex electron transport system which facilitates its ability

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