Ogasawara Y, Lacourciere G, Stadtman T C
Department of Environmental Biology, Meiji Pharmaceutical University, Kiyose, Tokyo 204-8588, Japan.
Proc Natl Acad Sci U S A. 2001 Aug 14;98(17):9494-8. doi: 10.1073/pnas.171320998. Epub 2001 Aug 7.
Selenophosphate is the active selenium-donor compound required by bacteria and mammals for the specific synthesis of Secys-tRNA, the precursor of selenocysteine in selenoenzymes. Although free selenide can be used in vitro for the synthesis of selenophosphate, the actual physiological selenium substrate has not been identified. Rhodanese (EC ) normally occurs as a persulfide of a critical cysteine residue and is believed to function as a sulfur-delivery protein. Also, it has been demonstrated that a selenium-substituted rhodanese (E-Se form) can exist in vitro. In this study, we have prepared and characterized an E-Se rhodanese. Persulfide-free bovine-liver rhodanese (E form) did not react with SeO(3)(2-) directly, but in the presence of reduced glutathione (GSH) and SeO(3)(2-) E-Se rhodanese was generated. These results indicate that the intermediates produced from the reaction of GSH with SeO(3)(2-) are required for the formation of a selenium-substituted rhodanese. E-Se rhodanese was stable in the presence of excess GSH at neutral pH at 37 degrees C. E-Se rhodanese could effectively replace the high concentrations of selenide normally used in the selenophosphate synthetase in vitro assay in which the selenium-dependent hydrolysis of ATP is measured. These results show that a selenium-bound rhodanese could be used as the selenium donor in the in vitro selenophosphate synthetase assay.
硒代磷酸酯是细菌和哺乳动物特异性合成硒代半胱氨酸-tRNA(硒酶中硒代半胱氨酸的前体)所需的活性硒供体化合物。尽管游离硒化物可在体外用于合成硒代磷酸酯,但实际的生理硒底物尚未确定。硫氰酸酶(EC )通常以关键半胱氨酸残基的过硫化物形式存在,被认为起着硫传递蛋白的作用。此外,已证明硒取代的硫氰酸酶(E-Se形式)可在体外存在。在本研究中,我们制备并表征了一种E-Se硫氰酸酶。无过硫化物的牛肝硫氰酸酶(E形式)不直接与SeO(3)(2-)反应,但在还原型谷胱甘肽(GSH)和SeO(3)(2-)存在下会生成E-Se硫氰酸酶。这些结果表明,GSH与SeO(3)(2-)反应产生的中间体是形成硒取代硫氰酸酶所必需的。E-Se硫氰酸酶在37℃中性pH条件下,在过量GSH存在时是稳定的。E-Se硫氰酸酶可有效替代体外测定硒代磷酸合成酶时通常使用的高浓度硒化物,该测定用于测量ATP的硒依赖性水解。这些结果表明,结合硒的硫氰酸酶可在体外硒代磷酸合成酶测定中用作硒供体。