Hydroxytriazine Antibody (HYB283-02): sc-57877

Hydroxytriazine Antibody (HYB283-02) is a mouse monoclonal IgG1 antibody that detects Hydroxytriazine protein of non-species reactive by enzyme-linked immunosorbent assay (ELISA). Anti-Hydroxytriazine antibody (HYB283-02) is available as a non-conjugated format. Hydroxytriazines, also known as hydroxyatrazines or ATOHs, are significant metabolites resulting from triazine degradation, a class of chemicals widely employed as herbicides. Hydroxytriazine protein plays a crucial role in environmental persistence, as this primary metabolite is found in nearly all surface soils. The structure of triazine compounds, characterized by heterocyclic rings containing three nitrogen atoms, is essential for herbicide function through effective photosynthesis inhibition in target plants. Hydroxytriazines can form stable complexes with soil-bound humic substances, leading to prolonged environmental presence. While health risks associated with triazine exposure are generally considered low, studies indicate that atrazine, a common triazine herbicide, may disrupt endocrine function, particularly affecting puberty onset in male rats. This finding emphasizes the importance of monitoring Hydroxytriazine levels in agricultural and environmental contexts, making Hydroxytriazine (HYB283-02) antibody a valuable research tool for studying these compounds.

Alexa Fluor^® is a trademark of Molecular Probes Inc., OR., USA

LI-COR^® and Odyssey^® are registered trademarks of LI-COR Biosciences

Hydroxytriazine Antibody (HYB283-02) References:

1. On the interaction mechanisms of atrazine and hydroxyatrazine with humic substances.  |  Martin-Neto, L., et al. 2001. J Environ Qual. 30: 520-5. PMID: 11285913
2. The effects of atrazine metabolites on puberty and thyroid function in the male Wistar rat.  |  Stoker, TE., et al. 2002. Toxicol Sci. 67: 198-206. PMID: 12011479
3. Pubertal development in female Wistar rats following exposure to propazine and atrazine biotransformation by-products, diamino-S-chlorotriazine and hydroxyatrazine.  |  Laws, SC., et al. 2003. Toxicol Sci. 76: 190-200. PMID: 12970575
4. Quantitative microarray pesticide analysis.  |  Belleville, E., et al. 2004. J Immunol Methods. 286: 219-29. PMID: 15087234
5. New approach to large-volume injection in reversed-phase high performance liquid chromatography: determination of atrazine and hydroxyatrazine in soil samples.  |  Hutta, M., et al. 2006. J Sep Sci. 29: 1977-87. PMID: 17017010
6. Studies of the leaching of atrazine, of its chlorinated derivatives, and of hydroxyatrazine from soil using 14C ring-labeled compounds under outdoor conditions.  |  Schiavon, M. 1988. Ecotoxicol Environ Saf. 15: 46-54. PMID: 3359955
7. Studies of the movement and the formation of bound residues of atrazine, of its chlorinated derivatives, and of hydroxyatrazine in soil using 14C ring-labeled compounds under outdoor conditions.  |  Schiavon, M. 1988. Ecotoxicol Environ Saf. 15: 55-61. PMID: 3359956
8. Metabolism of atrazine and 2-hydroxyatrazine by the rat.  |  Bakke, JE., et al. 1972. J Agric Food Chem. 20: 602-7. PMID: 5072315
9. Extraction of hydroxyatrazine from soil.  |  Hance, RJ. and Chesters, G. 1970. Analyst. 95: 106. PMID: 5409900
10. Metabolism of deethylatrazine, deisopropylatrazine, and hydroxyatrazine by the soluble fraction (105000 g) from goose liver homogenates.  |  Foster, TS., et al. 1980. J Agric Food Chem. 28: 1083-5. PMID: 6892511