SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2895887252> ?p ?o ?g. }

Showing items 1 to 100 of ±175 with 100 items per page.

W2895887252 endingPage "247" @default.
W2895887252 startingPage "234" @default.
W2895887252 abstract "Erythromycin (ERY) is one of the most common antibiotics used in human and veterinary practices, leading to ubiquitous environmental distribution and possible toxicity to non-target organisms. The purpose of this study was to determine sub-lethal effects of ERY towards the marine fish Sparus aurata (gilthead seabream). S. aurata were acutely (0.3–323 μg/L, 96 h) and chronically (0.7–8.8 μg/L, 28 d) exposed to ERY. Detoxification [7-ethoxyresorufin O-deethylase (EROD), glutathione S-transferases (GSTs), uridine-diphosphate-glucuronosyltransferase (UGT)], oxidative stress [catalase (CAT), glutathione peroxidase (GPx), glutathione reductase (GRed)], lipid peroxidation [thiobarbituric acid reactive substances - (TBARS)], genotoxicity [genetic damage index (GDI) and erythrocytic nuclear abnormalities (ENAs)], neurotransmission [acetylcholinesterase (AChE)] and energy metabolism [lactate dehydrogenase (LDH)] biomarkers were evaluated. Results showed that ERY did not promote significant effects in detoxification biomarkers, but induced slight pro-oxidative effects (decrease of GPx activity in the liver after acute exposure and an increase in gills after chronic exposure; and an increase of hepatic GRed activity following chronic exposure). There was a significant decrease in TBARS after chronic exposure, which contradicts a full scenario of oxidative stress. In terms of genotoxicity, both ERY exposures caused only a significant increase of GDI. Neurotransmission and energy metabolism were not also affected by ERY. Although few toxic effects of ERY have been previously documented (involving different metabolic pathways, as tested in this work), these were mainly observed for freshwater species. These findings suggest low vulnerability of S. aurata to ERY at levels close to the ones found in the wild." @default.
W2895887252 created "2018-10-26" @default.
W2895887252 creator A5000077758 @default.
W2895887252 creator A5018124739 @default.
W2895887252 creator A5021624563 @default.
W2895887252 creator A5029013333 @default.
W2895887252 creator A5030381798 @default.
W2895887252 creator A5033285765 @default.
W2895887252 date "2019-02-01" @default.
W2895887252 modified "2023-10-18" @default.
W2895887252 title "Assessment of toxic effects of the antibiotic erythromycin on the marine fish gilthead seabream (Sparus aurata L.) by a multi-biomarker approach" @default.
W2895887252 cites W1033408991 @default.
W2895887252 cites W1546592314 @default.
W2895887252 cites W1581414347 @default.
W2895887252 cites W1590457525 @default.
W2895887252 cites W1680649039 @default.
W2895887252 cites W1965555285 @default.
W2895887252 cites W1967849499 @default.
W2895887252 cites W1968741249 @default.
W2895887252 cites W1969445695 @default.
W2895887252 cites W1971048984 @default.
W2895887252 cites W1974277158 @default.
W2895887252 cites W1978723581 @default.
W2895887252 cites W1984910700 @default.
W2895887252 cites W1985688868 @default.
W2895887252 cites W1990652438 @default.
W2895887252 cites W1991618257 @default.
W2895887252 cites W1992190019 @default.
W2895887252 cites W1996656423 @default.
W2895887252 cites W1997648148 @default.
W2895887252 cites W2000863285 @default.
W2895887252 cites W2001344342 @default.
W2895887252 cites W2001438897 @default.
W2895887252 cites W2004650380 @default.
W2895887252 cites W2005208204 @default.
W2895887252 cites W2006895781 @default.
W2895887252 cites W2010660868 @default.
W2895887252 cites W2016623506 @default.
W2895887252 cites W2017473279 @default.
W2895887252 cites W2018497432 @default.
W2895887252 cites W2019380311 @default.
W2895887252 cites W2020847254 @default.
W2895887252 cites W2022443390 @default.
W2895887252 cites W2023285135 @default.
W2895887252 cites W2027369414 @default.
W2895887252 cites W2029339022 @default.
W2895887252 cites W2029614032 @default.
W2895887252 cites W2030593025 @default.
W2895887252 cites W2030802598 @default.
W2895887252 cites W2031837213 @default.
W2895887252 cites W2033910655 @default.
W2895887252 cites W2035595493 @default.
W2895887252 cites W2043639070 @default.
W2895887252 cites W2044785671 @default.
W2895887252 cites W2046401194 @default.
W2895887252 cites W2050052945 @default.
W2895887252 cites W2054038465 @default.
W2895887252 cites W2060879226 @default.
W2895887252 cites W2061364532 @default.
W2895887252 cites W2061704819 @default.
W2895887252 cites W2063014286 @default.
W2895887252 cites W2063028264 @default.
W2895887252 cites W2065427800 @default.
W2895887252 cites W2066070625 @default.
W2895887252 cites W2069441678 @default.
W2895887252 cites W2070630876 @default.
W2895887252 cites W2074693161 @default.
W2895887252 cites W2075223850 @default.
W2895887252 cites W2076702754 @default.
W2895887252 cites W2080120166 @default.
W2895887252 cites W2085506878 @default.
W2895887252 cites W2094359179 @default.
W2895887252 cites W2095209063 @default.
W2895887252 cites W2103944369 @default.
W2895887252 cites W2118452576 @default.
W2895887252 cites W2121778715 @default.
W2895887252 cites W2131147754 @default.
W2895887252 cites W2131655628 @default.
W2895887252 cites W2144832528 @default.
W2895887252 cites W2145937475 @default.
W2895887252 cites W2150662496 @default.
W2895887252 cites W2197332903 @default.
W2895887252 cites W2200175498 @default.
W2895887252 cites W2492711527 @default.
W2895887252 cites W2539918446 @default.
W2895887252 cites W2558568777 @default.
W2895887252 cites W2567414023 @default.
W2895887252 cites W2745179860 @default.
W2895887252 cites W2747435094 @default.
W2895887252 cites W2748626976 @default.
W2895887252 cites W2790107799 @default.
W2895887252 cites W2791306801 @default.
W2895887252 cites W4293247451 @default.
W2895887252 doi "https://doi.org/10.1016/j.chemosphere.2018.10.124" @default.
W2895887252 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/30384292" @default.
W2895887252 hasPublicationYear "2019" @default.
W2895887252 type Work @default.
W2895887252 sameAs 2895887252 @default.