SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2001735644> ?p ?o ?g. }

Showing items 1 to 100 of ±146 with 100 items per page.

W2001735644 endingPage "55" @default.
W2001735644 startingPage "42" @default.
W2001735644 abstract "The thioredoxin system, which consists of a family of proteins, including thioredoxin (Trx), peroxiredoxin (Prx), and thioredoxin reductase (TrxR), plays a critical role in the defense against oxidative stress by removing harmful hydrogen peroxide (H2O2). Specifically, Trx donates electrons to Prx to remove H2O2 and then TrxR maintains the reduced Trx concentration with NADPH as the cofactor. Despite a great deal of kinetic information gathered on the removal of H2O2 by the Trx system from various sources/species, a mechanistic understanding of the associated enzymes is still not available. We address this issue by developing a thermodynamically consistent mathematical model of the Trx system which entails mechanistic details and provides quantitative insights into the kinetics of the TrxR and Prx enzymes. Consistent with experimental studies, the model analyses of the available data show that both enzymes operate by a ping-pong mechanism. The proposed mechanism for TrxR, which incorporates substrate inhibition by NADPH and intermediate protonation states, well describes the available data and accurately predicts the bell-shaped behavior of the effect of pH on the TrxR activity. Most importantly, the model also predicts the inhibitory effects of the reaction products (NADP(+) and Trx(SH)2) on the TrxR activity for which suitable experimental data are not available. The model analyses of the available data on the kinetics of Prx from mammalian sources reveal that Prx operates at very low H2O2 concentrations compared to their human parasite counterparts. Furthermore, the model is able to predict the dynamic overoxidation of Prx at high H2O2 concentrations, consistent with the available data. The integrated Prx-TrxR model simulations well describe the NADPH and H2O2 degradation dynamics and also show that the coupling of TrxR- and Prx-dependent reduction of H2O2 allowed ultrasensitive changes in the Trx concentration in response to changes in the TrxR concentration at high Prx concentrations. Thus, the model of this sort is very useful for integration into computational H2O2 degradation models to identify its role in physiological and pathophysiological functions." @default.
W2001735644 created "2016-06-24" @default.
W2001735644 creator A5061756444 @default.
W2001735644 creator A5071504380 @default.
W2001735644 date "2015-01-01" @default.
W2001735644 modified "2023-09-23" @default.
W2001735644 title "Mechanistic characterization of the thioredoxin system in the removal of hydrogen peroxide" @default.
W2001735644 cites W1551392207 @default.
W2001735644 cites W1787410800 @default.
W2001735644 cites W184318590 @default.
W2001735644 cites W1969779044 @default.
W2001735644 cites W1970519591 @default.
W2001735644 cites W1978772332 @default.
W2001735644 cites W1984387620 @default.
W2001735644 cites W1984697058 @default.
W2001735644 cites W1989400319 @default.
W2001735644 cites W1991238715 @default.
W2001735644 cites W1992673961 @default.
W2001735644 cites W1993250284 @default.
W2001735644 cites W1999382188 @default.
W2001735644 cites W2001338101 @default.
W2001735644 cites W2006723796 @default.
W2001735644 cites W2007148145 @default.
W2001735644 cites W2007458764 @default.
W2001735644 cites W2008820074 @default.
W2001735644 cites W2010703980 @default.
W2001735644 cites W2013159801 @default.
W2001735644 cites W2015837249 @default.
W2001735644 cites W2018659476 @default.
W2001735644 cites W2020735633 @default.
W2001735644 cites W2029342214 @default.
W2001735644 cites W2029996404 @default.
W2001735644 cites W2036451354 @default.
W2001735644 cites W2037083980 @default.
W2001735644 cites W2037586146 @default.
W2001735644 cites W2040327999 @default.
W2001735644 cites W2041489973 @default.
W2001735644 cites W2042084220 @default.
W2001735644 cites W2050897300 @default.
W2001735644 cites W2053516538 @default.
W2001735644 cites W2057857670 @default.
W2001735644 cites W2058028795 @default.
W2001735644 cites W2069981583 @default.
W2001735644 cites W2075584603 @default.
W2001735644 cites W2077883552 @default.
W2001735644 cites W2079310705 @default.
W2001735644 cites W2079557671 @default.
W2001735644 cites W2079912175 @default.
W2001735644 cites W2082467091 @default.
W2001735644 cites W2086896843 @default.
W2001735644 cites W2088161908 @default.
W2001735644 cites W2088688594 @default.
W2001735644 cites W2089818796 @default.
W2001735644 cites W2098048169 @default.
W2001735644 cites W2103650142 @default.
W2001735644 cites W2104266345 @default.
W2001735644 cites W2111757377 @default.
W2001735644 cites W2121455793 @default.
W2001735644 cites W2121926391 @default.
W2001735644 cites W2122341467 @default.
W2001735644 cites W2133125506 @default.
W2001735644 cites W2151524726 @default.
W2001735644 cites W2153831810 @default.
W2001735644 cites W2163913536 @default.
W2001735644 cites W4245543343 @default.
W2001735644 cites W4247088117 @default.
W2001735644 cites W4249820148 @default.
W2001735644 doi "https://doi.org/10.1016/j.freeradbiomed.2014.10.508" @default.
W2001735644 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/4280359" @default.
W2001735644 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/25451645" @default.
W2001735644 hasPublicationYear "2015" @default.
W2001735644 type Work @default.
W2001735644 sameAs 2001735644 @default.
W2001735644 citedByCount "50" @default.
W2001735644 countsByYear W20017356442015 @default.
W2001735644 countsByYear W20017356442016 @default.
W2001735644 countsByYear W20017356442017 @default.
W2001735644 countsByYear W20017356442018 @default.
W2001735644 countsByYear W20017356442019 @default.
W2001735644 countsByYear W20017356442020 @default.
W2001735644 countsByYear W20017356442021 @default.
W2001735644 countsByYear W20017356442022 @default.
W2001735644 countsByYear W20017356442023 @default.
W2001735644 crossrefType "journal-article" @default.
W2001735644 hasAuthorship W2001735644A5061756444 @default.
W2001735644 hasAuthorship W2001735644A5071504380 @default.
W2001735644 hasBestOaLocation W20017356442 @default.
W2001735644 hasConcept C121332964 @default.
W2001735644 hasConcept C12554922 @default.
W2001735644 hasConcept C134651460 @default.
W2001735644 hasConcept C148898269 @default.
W2001735644 hasConcept C162008176 @default.
W2001735644 hasConcept C181199279 @default.
W2001735644 hasConcept C185592680 @default.
W2001735644 hasConcept C18903297 @default.
W2001735644 hasConcept C2777289219 @default.
W2001735644 hasConcept C2777737464 @default.
W2001735644 hasConcept C2780416994 @default.