ABSTRACT
Topramezone is a highly selective herbicide developed for broadleaf and grass weeds control in corn. In this study, the effects of topramezone on zebrafish, especially in retinoid signaling were investigated. Zebrafish embryos were treated with topramezone from 4 hours post-fertilization (hpf) to 144 hpf. Exposed to topramezone significantly reduced the retinal and retinoic levels compared to controls. The transcriptional expression levels of retinol dehydrogenase (rdh1), retinoic acid receptor subunit (raraa), retinal dehydrogenase (raldh2), retinol binding protein (rbp1a), and cellular retinoic acid binding protein (crabp1a and crabp2a) were significantly decreased. Our results suggested that topramezone significantly impaired zebrafish retinoid signaling during a short time exposure. However, treatment with topramezone significantly increased the mRNA expression levels of zfblue, zfrho, zfgr1, zfuv, and zfred. Our data demonstrated that topramezone treatment could interrupt retinoid signaling and further affect zebrafish eye development.
