PMID-sentid Pub_year Sent_text comp_official_name comp_offsetprotein_name organism prot_offset 9851290-5 1998 The 17beta-hydroxysteroid dehydrogenase (17beta-HSD) of human placenta also catalyzes the redox cycling of these quinones, and cycling is inhibited by SOD. Quinones 113-121 superoxide dismutase 1 Homo sapiens 151-154 12049845-5 2002 SOD inhibits Cyt(III)c reduction rates in the presence of these quinones and X/XO in a manner which is also dependent on the quinone half-wave redox potential. Quinones 64-72 superoxide dismutase 1 Homo sapiens 0-3 2154955-5 1990 This is also confirmed by the effect of superoxide dismutase (SOD): in the presence of a BABQ derivative, cytochrome c reduction can be totally inhibited by SOD, although the required amount of SOD depends on the redox potential of the quinones. Quinones 236-244 superoxide dismutase 1 Homo sapiens 40-60 2154955-5 1990 This is also confirmed by the effect of superoxide dismutase (SOD): in the presence of a BABQ derivative, cytochrome c reduction can be totally inhibited by SOD, although the required amount of SOD depends on the redox potential of the quinones. Quinones 236-244 superoxide dismutase 1 Homo sapiens 62-65 2154955-5 1990 This is also confirmed by the effect of superoxide dismutase (SOD): in the presence of a BABQ derivative, cytochrome c reduction can be totally inhibited by SOD, although the required amount of SOD depends on the redox potential of the quinones. Quinones 236-244 superoxide dismutase 1 Homo sapiens 157-160 2154955-5 1990 This is also confirmed by the effect of superoxide dismutase (SOD): in the presence of a BABQ derivative, cytochrome c reduction can be totally inhibited by SOD, although the required amount of SOD depends on the redox potential of the quinones. Quinones 236-244 superoxide dismutase 1 Homo sapiens 157-160 35202787-5 2022 These reactions consume and require oxygen and are augmented by addition of SOD suggesting that the quinones, not superoxide, oxidize H2S. Quinones 100-108 superoxide dismutase 1 Homo sapiens 76-79 31568946-6 2020 Moreover, the treatment with Cu(II) and quinones increased the activities and the expression of genes involved in the redox response, SOD1 and GPX, suggesting that PM components induced cellular damage due to redox imbalances. Quinones 40-48 superoxide dismutase 1 Homo sapiens 134-138 27768525-4 2017 Significant change of redox status, loss of mitochondrial membrane potentials ( Psi) and increase of superoxide dismutase (SOD) activity were induced by exposure to quinones. Quinones 165-173 superoxide dismutase 1 Homo sapiens 101-121 27768525-4 2017 Significant change of redox status, loss of mitochondrial membrane potentials ( Psi) and increase of superoxide dismutase (SOD) activity were induced by exposure to quinones. Quinones 165-173 superoxide dismutase 1 Homo sapiens 123-126