Reddy A V, Behnke W D, Freisheim J H
Biochim Biophys Acta. 1978 Apr 26;533(2):415-27. doi: 10.1016/0005-2795(78)90387-2.
Interaction of several representative folate, quinazoline and pyridine nucleotide derivatives with dihydrofolate reductase from amethopterin-resistant Lactobacillus casei induces dramatic changes in its circular dichroic spectral properties. The binding of dihydrofolate induces a large extrinsic Cotton effect at 295 nm ([theta] = 113 800 deg . cm2 . dm-1). The generation of this band by dihydrofolate is strictly dependent on complex formation with a single substrate binding site and a KD = 7 . 10(-6) M. The other binary complexes examined include the enzyme . NADPH, enzyme . amethopterin, enzyme . folate, and enzyme . methasquin. All such complexes differ in spectral detail, the negative ellipticity at 330 nm being characteristic of the "folate site" complexes. The circular dichroic spectrum of the ternary complex of reductase . NADPH . methotrexate shows a positive symmetrical band centered at 360 nm ([theta] - 32 000 deg . cm2 . dm-1). Since both of the corresponding binary complexes exhibit negative bands in this region, this induced band represents a unique molecular property of the ternary complex. Chemical modification of a single tryptophan residue of the enzyme, as determined from magnetic circular dichroism spectra, results in a complete loss in the ability to bind either dihydrofolate or NADPH.
几种具有代表性的叶酸、喹唑啉和吡啶核苷酸衍生物与来自耐氨甲蝶呤干酪乳杆菌的二氢叶酸还原酶相互作用,会使其圆二色光谱特性发生显著变化。二氢叶酸的结合在295 nm处诱导出一个大的外在科顿效应([θ]=113800度·厘米²·分升⁻¹)。二氢叶酸产生的这条谱带严格依赖于与单个底物结合位点形成复合物,解离常数KD = 7×10⁻⁶ M。所检测的其他二元复合物包括酶·NADPH、酶·氨甲蝶呤、酶·叶酸和酶·美法喹。所有这些复合物在光谱细节上都有所不同,330 nm处的负椭圆率是“叶酸位点”复合物的特征。还原酶·NADPH·甲氨蝶呤三元复合物的圆二色光谱显示在360 nm处有一个以其为中心的正对称谱带([θ]=32000度·厘米²·分升⁻¹)。由于相应的两种二元复合物在该区域都呈现负谱带,所以这个诱导谱带代表了三元复合物独特的分子特性。根据磁圆二色光谱确定,对该酶的单个色氨酸残基进行化学修饰,会导致其结合二氢叶酸或NADPH的能力完全丧失。
