Wang J, Stuehr D J, Ikeda-Saito M, Rousseau D L
AT&T Bell Laboratories, Murray Hill, New Jersey 07974.
J Biol Chem. 1993 Oct 25;268(30):22255-8.
Nitric oxide (NO), recently found to play many physiological roles, is generated by the catalysis of L-arginine and O2 to L-citrulline and NO by nitric oxide synthases (NOSs). Resonance Raman spectra from the heme of resting, reduced, and CO-bound forms of rat brain NOS firmly establish that the enzyme belongs to the P-450 class of enzymes. The electron density marker line (V4) in the Raman spectrum of ligand-free ferrous NOS has a low frequency (1347 cm-1), indicating a thiolate axial ligand on the heme. The assignment of a thiolate axial ligand is confirmed in the CO-bound form of the enzyme by the frequency of the Fe-C-O bending mode at 562 cm-1. The heme is resting NOS is five-coordinate high spin and thereby differs from the resting state of most substrate-free P-450s, which are predominantly six-coordinate low spin. The frequency of the Fe-CO stretching mode in the CO-bound enzyme at 491 cm-1, identified by isotope substitution, in higher than that in substrate-free P-450s. Thus, in the ferric and the CO-bound forms of the enzyme, the sixth-ligand binding site on the heme is restricted by steric or hydrophobic interactions. In addition, the Fe-CO stretching mode is broad (30 cm-1) and may be resolved into two overlapping lines of equal intensity, indicating that the heme domains can adopt two distinct conformations.
一氧化氮(NO)最近被发现具有多种生理作用,它是由一氧化氮合酶(NOSs)催化L-精氨酸和O2生成L-瓜氨酸和NO的过程中产生的。大鼠脑NOS的静息态、还原态和CO结合态血红素的共振拉曼光谱有力地证明该酶属于P-450酶类。无配体亚铁NOS的拉曼光谱中的电子密度标记线(V4)频率较低(1347 cm-1),表明血红素上有一个硫醇盐轴向配体。在酶的CO结合态中,通过562 cm-1处的Fe-C-O弯曲模式频率证实了硫醇盐轴向配体的归属。静息态的NOS血红素是五配位高自旋的,因此不同于大多数无底物P-450的静息态,后者主要是六配位低自旋。通过同位素取代确定,CO结合酶中Fe-CO伸缩模式的频率为491 cm-1,高于无底物P-450中的频率。因此,在酶的铁离子态和CO结合态中,血红素上的第六配体结合位点受到空间或疏水相互作用的限制。此外,Fe-CO伸缩模式很宽(30 cm-1),可能分解为两条强度相等的重叠谱线,这表明血红素结构域可以采取两种不同的构象。
