S-Mecoprop Antibody (HYB337-01): sc-58015

S-Mecoprop Antibody (HYB337-01) is a mouse monoclonal IgG2a antibody that detects S-Mecoprop protein of non-species reactive by enzyme-linked immunosorbent assay (ELISA). Anti-S-Mecoprop antibody (HYB337-01) is available as a non-conjugated isotype antibody, specifically designed for research applications. S-Mecoprop protein, a member of the phenoxy family of herbicides, plays a crucial role in agricultural practices by selectively targeting broad-leaved weeds while minimizing damage to cereal crops. S-Mecoprop protein alters plant growth and enzyme activity, effectively controlling unwanted vegetation in corn fields and other agricultural settings. S-Mecoprop exists as two enantiomers, S-Mecoprop and R-Mecoprop, with the former being the active form absorbed by plant leaves and translocated to the roots, where S-Mecoprop exerts herbicidal effects. Taking three to four weeks for full efficacy allows for a more controlled approach to weed management, although potential carcinogenic properties and persistence in groundwater raise environmental concerns. S-Mecoprop monoclonal antibody (HYB337-01) serves as an essential tool for researchers studying the impact of herbicides on plant biology and environmental health.

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S-Mecoprop Antibody (HYB337-01) References:

1. Fate of the herbicides mecoprop, dichlorprop, and 2,4-D in aerobic and anaerobic sewage sludge as determined by laboratory batch studies and enantiomer-specific analysis.  |  Zipper, C., et al. 1999. Biodegradation. 10: 271-8. PMID: 10633543
2. Atrazine, isoproturon, mecoprop, 2,4-D, and bentazone adsorption onto iron oxides.  |  Clausen, L. and Fabricius, I. 2001. J Environ Qual. 30: 858-69. PMID: 11401274
3. Mineralization of aged atrazine, terbuthylazine, 2,4-D, and mecoprop in soil and aquifer sediment.  |  Johannesen, H. and Aamand, J. 2003. Environ Toxicol Chem. 22: 722-9. PMID: 12685704
4. Changes in enantiomeric fraction as evidence of natural attenuation of mecoprop in a limestone aquifer.  |  Williams, GM., et al. 2003. J Contam Hydrol. 64: 253-67. PMID: 12814883
5. Genetic and phenotypic diversity of (R/S)-mecoprop [2-(2-methyl-4-chlorophenoxy)propionic acid]-degrading bacteria isolated from soils.  |  Lim, JS., et al. 2004. J Microbiol. 42: 87-93. PMID: 15357300
6. Electrochemical combustion of herbicide mecoprop in aqueous medium using a flow reactor with a boron-doped diamond anode.  |  Flox, C., et al. 2006. Chemosphere. 64: 892-902. PMID: 16516266
7. Studies on phenoxy acid herbicides. I. Field study. Occupational exposure to phenoxy acid herbicides (MCPA, dichlorprop, mecoprop and 2,4-D) in agriculture.  |  Kolmodin-Hedman, B., et al. 1983. Arch Toxicol. 54: 257-65. PMID: 6667116
8. Effects of dichlorprop and mecoprop on respiration and transformation of nitrogen in two soils.  |  Marsh, JA. and Davies, HA. 1981. Bull Environ Contam Toxicol. 26: 108-15. PMID: 7225612
9. Involvement of two alpha-ketoglutarate-dependent dioxygenases in enantioselective degradation of (R)- and (S)-mecoprop by Sphingomonas herbicidovorans MH.  |  Nickel, K., et al. 1997. J Bacteriol. 179: 6674-9. PMID: 9352915