SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4309775112> ?p ?o ?g. }

Showing items 1 to 100 of ±148 with 100 items per page.

W4309775112 endingPage "106356" @default.
W4309775112 startingPage "106356" @default.
W4309775112 abstract "The global sequencing of microRNA (miRNA; miR) and integration to downstream mRNA expression profiles in early life stages (ELS) of fish following exposure to crude oil determined consistently dysregulated miRNAs regardless of the oil source or fish species. The overlay of differentially expressed miRNAs and mRNAs into in silico software determined that the key roles of these miRNAs were predicted to be involved in cardiovascular, neurological and visually-mediated pathways. Of these, altered expression of miRNAs, miR-203a and miR-34b were predicted to be primary targets of crude oil. To better characterize the effect of these miRNAs to downstream transcript changes, zebrafish embryos were microinjected at 1 h post fertilization (hpf) with either a miR-203a inhibitor or miR-34b. Since both miRs have been shown to be associated with aryl hydrocarbon receptor (AhR) function, benzo(a)pyrene (BaP), a potent AhR agonist, was used as a potential positive control. Transcriptomic profiling was conducted on injected and exposed larvae at 7 and 72 hpf, and eye morphology assessed following exposure at 72 hpf. The top predicted physiological system disease and functions between differentially expressed genes (DEGs) shared with miR-203a inhibitor-injected and miR-34b-injected embryos were involved in brain formation, and the development of the central nervous system and neurons. When DEGs of miR-203a inhibitor-injected embryos were compared with BaP-exposed DEGs, alterations in nervous system development and function, and abnormal morphology of the neurosensory retina, eye and nervous tissue were predicted, consistent with both AhR and non-AhR pathways. When assessed morphologically, the eye area of miR-203a inhibitor and miR-34b-injected and BaP-exposed embryos were significantly reduced. These results suggest that miR-203a inhibition and miR-34b overexpression contribute to neurological, cardiovascular and eye toxicity responses that are caused by oil and PAH exposure in ELS fish, and are likely mediated through both AhR and non-AhR pathways." @default.
W4309775112 created "2022-11-29" @default.
W4309775112 creator A5004179735 @default.
W4309775112 creator A5048844635 @default.
W4309775112 creator A5049318081 @default.
W4309775112 creator A5066736696 @default.
W4309775112 creator A5078463294 @default.
W4309775112 creator A5084881168 @default.
W4309775112 creator A5088307368 @default.
W4309775112 date "2023-01-01" @default.
W4309775112 modified "2023-09-26" @default.
W4309775112 title "Transcriptomic profiling of miR-203a inhibitor and miR-34b-injected zebrafish (Danio rerio) validates oil-induced neurological, cardiovascular and eye toxicity response pathways" @default.
W4309775112 cites W1967510146 @default.
W4309775112 cites W1983826553 @default.
W4309775112 cites W1990131329 @default.
W4309775112 cites W1998647454 @default.
W4309775112 cites W1999726176 @default.
W4309775112 cites W2006519425 @default.
W4309775112 cites W2011684983 @default.
W4309775112 cites W2017479709 @default.
W4309775112 cites W2032135034 @default.
W4309775112 cites W2033551842 @default.
W4309775112 cites W2061349122 @default.
W4309775112 cites W2064266303 @default.
W4309775112 cites W2071573213 @default.
W4309775112 cites W2072775209 @default.
W4309775112 cites W2083158631 @default.
W4309775112 cites W2086182067 @default.
W4309775112 cites W2086358395 @default.
W4309775112 cites W2088872648 @default.
W4309775112 cites W2096304780 @default.
W4309775112 cites W2099540110 @default.
W4309775112 cites W2101681543 @default.
W4309775112 cites W2107277218 @default.
W4309775112 cites W2112998807 @default.
W4309775112 cites W2122244280 @default.
W4309775112 cites W2125349610 @default.
W4309775112 cites W2125491749 @default.
W4309775112 cites W2144765329 @default.
W4309775112 cites W2145832243 @default.
W4309775112 cites W2149888309 @default.
W4309775112 cites W2155794059 @default.
W4309775112 cites W2169632799 @default.
W4309775112 cites W2290156440 @default.
W4309775112 cites W2401349198 @default.
W4309775112 cites W2408909105 @default.
W4309775112 cites W2471426571 @default.
W4309775112 cites W2554572110 @default.
W4309775112 cites W2583745971 @default.
W4309775112 cites W2593926329 @default.
W4309775112 cites W2740530421 @default.
W4309775112 cites W2768453151 @default.
W4309775112 cites W2804906403 @default.
W4309775112 cites W2836324815 @default.
W4309775112 cites W2893210423 @default.
W4309775112 cites W2899474776 @default.
W4309775112 cites W2920470886 @default.
W4309775112 cites W2945126542 @default.
W4309775112 cites W2966909665 @default.
W4309775112 cites W3006255648 @default.
W4309775112 cites W3014417479 @default.
W4309775112 cites W3021751495 @default.
W4309775112 cites W3087642682 @default.
W4309775112 cites W3094566339 @default.
W4309775112 cites W3095447794 @default.
W4309775112 cites W3110327814 @default.
W4309775112 cites W3124736418 @default.
W4309775112 cites W3134982279 @default.
W4309775112 cites W3200509168 @default.
W4309775112 cites W3209596366 @default.
W4309775112 cites W4220970040 @default.
W4309775112 cites W4225009849 @default.
W4309775112 doi "https://doi.org/10.1016/j.aquatox.2022.106356" @default.
W4309775112 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36423467" @default.
W4309775112 hasPublicationYear "2023" @default.
W4309775112 type Work @default.
W4309775112 citedByCount "1" @default.
W4309775112 countsByYear W43097751122023 @default.
W4309775112 crossrefType "journal-article" @default.
W4309775112 hasAuthorship W4309775112A5004179735 @default.
W4309775112 hasAuthorship W4309775112A5048844635 @default.
W4309775112 hasAuthorship W4309775112A5049318081 @default.
W4309775112 hasAuthorship W4309775112A5066736696 @default.
W4309775112 hasAuthorship W4309775112A5078463294 @default.
W4309775112 hasAuthorship W4309775112A5084881168 @default.
W4309775112 hasAuthorship W4309775112A5088307368 @default.
W4309775112 hasConcept C104317684 @default.
W4309775112 hasConcept C134018914 @default.
W4309775112 hasConcept C145059251 @default.
W4309775112 hasConcept C150194340 @default.
W4309775112 hasConcept C162317418 @default.
W4309775112 hasConcept C169760540 @default.
W4309775112 hasConcept C172680121 @default.
W4309775112 hasConcept C179335377 @default.
W4309775112 hasConcept C18431079 @default.
W4309775112 hasConcept C2775905019 @default.
W4309775112 hasConcept C2776878037 @default.
W4309775112 hasConcept C2779234561 @default.