Sugiura Y, Tamai Y, Tanaka H
Bioinorg Chem. 1978 Aug;9(2):167-80. doi: 10.1016/s0006-3061(00)80288-4.
In determining the protection of selenium against mercury toxicity, the binding affinity of methylmercury by various selenium-containing ligands was investigated by proton magnetic resonance (PMR) spectroscopy. The most striking feature was the small J199Hg-1H value of the selenocysteamine- and selenocysteine-methylmercury complexes, namely, the high affinity of the selenohydryl group to the mercury in comparison with those of the sulfhydryl and amino groups. The order of binding affinity of the coordination groups toward methylmercury is clearly SeH greater than SH greater than or equal to Se-Se greater than NH2 greater than S-S, SeCH3, SCH3. A definite correlation was found to exist between the mercury-proton coupling constants and the chemical shifts of methyl groups of the methylmercury complexes. A relationship between the order (Se greater than S greater than NH2) of affinity for methylmercury and the basicity (or electronegativity and covalent radius) of the donor groups was also discussed. These results suggest the high covalency of the CH3Hg-Se bond, which involves dpi-dpi back bonding.
在确定硒对汞毒性的防护作用时,通过质子磁共振(PMR)光谱研究了各种含硒配体与甲基汞的结合亲和力。最显著的特征是硒代半胱胺和硒代半胱氨酸 - 甲基汞配合物的J199Hg - 1H值较小,即与巯基和氨基相比,硒氢基团对汞具有高亲和力。配位基团对甲基汞的结合亲和力顺序明显为SeH大于SH大于或等于Se - Se大于NH2大于S - S、SeCH3、SCH3。发现汞 - 质子耦合常数与甲基汞配合物甲基基团的化学位移之间存在明确的相关性。还讨论了对甲基汞的亲和力顺序(Se大于S大于NH2)与供体基团的碱性(或电负性和共价半径)之间的关系。这些结果表明CH3Hg - Se键具有高共价性,涉及dπ - dπ反馈键。
