al-Mustafa J, Sykora M, Kincaid J R
Chemistry Department, Marquette University, Milwaukee, Wisconsin 53233, USA.
J Biol Chem. 1995 May 5;270(18):10449-60. doi: 10.1074/jbc.270.18.10449.
Resonance Raman spectroscopy has been used to investigate the properties of cyanide-bound beef liver catalase (BLC) and Aspergillus niger catalase (ANC) in the pH range 4.9-11.5. Evidence has been obtained for the binding of cyanide to both BLC and ANC in two binding geometries. The first conformer, exhibiting the nu[Fe-CN] stretching mode at a higher frequency than the delta[Fe-C-N] bending mode, exists as an essentially linear Fe-C-N linkage. For both BLC-CN and ANC-CN, the nu[Fe-CN] and delta[Fe-C-N] frequencies of this conformer were practically identical and observed at approximately 434 and approximately 413 cm-1, respectively. The second conformer exhibits a nu[Fe-CN] mode at lower frequency than the delta[Fe-C-N] mode, and is thus characteristic of a bent Fe-C-N linkage. The nu[Fe-CN] and delta[Fe-C-N] modes were identified at 349 and 445 cm-1, respectively, for BLC-CN, and at 350 and 456 cm-1, respectively, for ANC-CN. The two conformers persist in the pH range 4.9-11.5. Furthermore, upon raising the pH to 11.5, the nu[Fe-CN] mode of the linear conformer of BLC-CN downshifts to 429 cm-1 while that of the bent conformer remains unchanged. The observed pH-dependent shift is attributed to the deprotonation of a distal-side amino acid residue, probably a distal histidine. The Fe-C-N axial vibrations of the two conformers identified for ANC-CN did not show any significant pH-dependent shifts, indicating a more stable hydrogen bonding interaction relative to BLC-CN.
共振拉曼光谱已被用于研究在pH值范围为4.9 - 11.5时,与氰化物结合的牛肝过氧化氢酶(BLC)和黑曲霉过氧化氢酶(ANC)的性质。已获得证据表明,氰化物以两种结合几何构型与BLC和ANC结合。第一种构象体,其ν[Fe - CN]伸缩模式的频率高于δ[Fe - C - N]弯曲模式,以基本线性的Fe - C - N键存在。对于BLC - CN和ANC - CN,该构象体的ν[Fe - CN]和δ[Fe - C - N]频率实际上是相同的,分别约为434和413 cm⁻¹。第二种构象体表现出ν[Fe - CN]模式的频率低于δ[Fe - C - N]模式,因此是弯曲的Fe - C - N键的特征。对于BLC - CN,ν[Fe - CN]和δ[Fe - C - N]模式分别在349和445 cm⁻¹处被识别,对于ANC - CN,分别在350和456 cm⁻¹处被识别。这两种构象体在pH值范围4.9 - 11.5内持续存在。此外,将pH值提高到11.5时,BLC - CN线性构象体的ν[Fe - CN]模式向下位移至429 cm⁻¹,而弯曲构象体的该模式保持不变。观察到的pH依赖性位移归因于远端侧氨基酸残基(可能是远端组氨酸)的去质子化。为ANC - CN鉴定的两种构象体的Fe - C - N轴向振动未显示出任何显著的pH依赖性位移,表明相对于BLC - CN,其氢键相互作用更稳定。
