Bioproject ID: PRJNA397221

bioproject id PRJNA397221      to NCBI
key word Chemical; Emerging contaminants; Mixture toxicology; Freshwater fish; Ecotoxicogenomics; Iron homeostasis; In vivo exposure; SUBSTITUTED DIPHENYLAMINE ANTIOXIDANTS; UV STABILIZERS; MASS-SPECTROMETRY; URBAN CREEK; EXPRESSION; GENES; BIOACCUMULATION; ABSORBENTS; EXTRACTION; ESTUARINE
experiment type chemical
publication Giraudo, M. , et al. "Food‐Borne Exposure of Juvenile Rainbow Trout (Oncorhynchus mykiss) to Benzotriazole Ultraviolet Stabilizers Alone and in Mixture Induces Specific Transcriptional Changes", Environmental Toxicology and Chemistry 39.4(2020).
description Oncorhynchus mykiss trasncriptomic response to benzotriazole UV stabilizers
abstract Benzotriazole ultraviolet‐stabilizers (BZT‐UVs) are commonly used as additives to protect from light‐induced degradation in a variety of consumer goods. Despite their widespread presence in aquatic ecosystems, information on the effects of these compounds remains largely unknown. The objectives of the present study were to evaluate the chronic effects of 2 BZT‐UVs alone and in a mixture, 2‐(2H‐benzotriazol‐2‐yl)‐4,6‐bis(1‐methyl‐1‐phenylethyl)phenol (UV‐234) and 2‐(2H‐benzotriazol‐2‐yl)‐4,6‐di‐tert‐pentylphenol (UV‐328), in juvenile rainbow trout (Oncorhynchus mykiss) chronically exposed (for 28 d) through the diet. Chemical analyses of livers from exposed trout suggested liver accumulation and potential metabolism of the 2 compounds. Hepatic RNA‐sequencing analyses revealed specific effects of each compound on gene transcription profiles; UV‐234 affected mainly genes involved in cellular metabolism, whereas UV‐328 induced the transcription of ribosomal proteins and downregulated genes involved in immune responses. Both compounds regulated iron homeostasis genes in an opposite manner. The mixture of both BZT‐UVs did not produce significant evidence of additive or synergistic effects. Environ Toxicol Chem 2020;39:852–862. © 2020 Her Majesty the Queen in Right of Canada.

Sample Information

sample id sample name tissue strain treatment description
1. SRR5950209 CA-234-7 liver nan UV-234 nan
2. SRR5950211 T-234-2 liver nan UV-234 nan
3. SRR5950212 T-234-1 liver nan UV-234 nan
4. SRR5950213 CA-234-3 liver nan UV-234 nan
5. SRR5950214 CA-234-1 liver not applicable UV-234 nan
6. SRR5950215 CA-234-5 liver nan UV-234 nan
7. SRR5950222 T-MIX-1 liver nan UV-234+UV-328 nan
8. SRR5950223 T-MIX-4 liver nan UV-234+UV-328 nan
9. SRR5950224 T-MIX-3 liver nan UV-234+UV-328 nan
10. SRR5950225 CA-328-7 liver nan UV-328 nan
11. SRR5950228 CA-328-4 liver nan UV-328 nan
12. SRR5950229 CA-328-2 liver nan UV-328 nan
13. SRR5950230 CA-328-1 liver nan UV-328 nan
14. SRR5950233 T-329-3 liver nan UV-328 nan
15. SRR5950236 CA-MIX-6 liver nan UV-234+UV-328 nan
16. SRR5950239 CA-MIX-1 liver nan UV-234+UV-328 nan
17. SRR5950240 CA-MIX-2 liver nan UV-234+UV-328 nan
18. SRR5950242 T-328-7 liver nan UV-328 nan
19. SRR5950243 T-328-4 liver nan UV-328 nan
20. SRR5950219 T-MIX-6 liver nan UV-234+UV-328 nan
21. SRR5950220 T-MIX-5 liver nan UV-234+UV-328 nan
22. SRR5950232 T-234-5 liver nan UV-234 nan
23. SRR5950235 CA-MIX-5 liver nan UV-234+UV-328 nan
24. SRR5950226 CA-328-6 liver nan UV-328 nan
25. SRR5950217 T-234-4 liver nan UV-234 nan
26. SRR5950216 CA-234-4 liver nan UV-234 nan
27. SRR5950221 T-MIX-2 liver nan UV-234+UV-328 nan
28. SRR5950238 CA-MIX-4 liver nan UV-234+UV-328 nan
29. SRR5950227 CA-328-5 liver nan UV-328 nan
30. SRR5950234 T-328-1 liver nan UV-328 nan
31. SRR5950244 T-328-5 liver nan UV-328 nan
32. SRR5950231 T-234-6 liver nan UV-234 nan
33. SRR5950237 CA-MIX-3 liver nan UV-234+UV-328 nan
34. SRR5950241 T-328-6 liver nan UV-328 nan
35. SRR5950210 CA-234-6 liver nan UV-234 nan
36. SRR5950218 T-234-3 liver nan UV-234 nan