Berthomieu C, Boussac A, Mäntele W, Breton J, Nabedryk E
Département de Biologie Cellulaire et Moléculaire, Centre d'Etudes Nucléaires de Saclay, Gif-sur-Yvette, France.
Biochemistry. 1992 Nov 24;31(46):11460-71. doi: 10.1021/bi00161a026.
The vibrational infrared absorption changes associated with the oxidation of cytochrome b559 (Cyt b559) have been characterized. In photosystem II (PS II) enriched membranes, low-potential (LP) and high-potential (HP) Cyt b559 were investigated by light-induced FTIR difference spectroscopy. The redox transition of isolated Cyt b559 is characterized by protein electrochemistry. On the basis of a model of the assembly of Cyt b559 with the two axial Fe ligands being histidine residues of two distinct polypeptides, each forming a transmembrane alpha-helix [Cramer, W.A., Theg, S.M., & Widger, W.R. (1986) Photosynth. Res. 10, 393-403], the bisimidazole and bismethylimidazole complexes of Fe protoporphyrin IX were electrochemically oxidized and reduced to detect the IR oxidation markers of the heme and its two axial ligands. Major bands at 1674/1553, 1535, and 1240 cm-1 are tentatively assigned to nu 37 (CaCm), nu 38-(CbCb) and delta (CmH) modes, respectively; other bands at 1626, 1613, 1455, 1415, and 1337 cm-1 are assigned to porphyrin skeletal and vinyl modes. Modes at 1103 and 1075/1066 cm-1 are assigned to the 4-methylimidazole and imidazole ligands, respectively. For the isolated Cyt b559, it is shown that both the heme (at 1556-1535, 1337, and 1239 cm-1), the histidine ligands at 1104 cm-1 and the protein (between 1600 and 1700 cm-1 and at 1545 cm-1) are affected by the charge stabilization. The excellent agreement between model compounds and isolated Cyt b559 reinforces the validity of the model of a heme iron coordinated to two histidine residues for Cyt b559. A differential signal at 1656/1641 cm-1 is assigned to peptide C = O mode(s). We speculate that this signal reflects the change in strength of a hydrogen bond formed between the histidine ligand(s) and the polypeptide backbone upon oxidoreduction of the cytochrome. In PS II membranes, the signals characteristic of Cyt b559 photooxidation are found at 1660/1652 and 1625 cm-1, for both the high- and low-potential forms. The differences observed in the amplitude of the 1660/1652-cm-1 band, at 1700 and 1530-1510 cm-1 in the light-induced FTIR difference spectra of Cyt b559 HP and LP, show that the mechanisms of heme oxidation in vivo imply different molecular processes for the two forms Cyt b559 HP and LP.
与细胞色素b559(Cyt b559)氧化相关的振动红外吸收变化已得到表征。在富含光系统II(PS II)的膜中,通过光诱导傅里叶变换红外差示光谱法研究了低电位(LP)和高电位(HP)的Cyt b559。分离的Cyt b559的氧化还原转变通过蛋白质电化学进行表征。基于Cyt b559组装模型,其两个轴向铁配体为两条不同多肽的组氨酸残基,每条多肽形成一个跨膜α螺旋[克莱默,W.A.,西格,S.M.,& 维德格,W.R.(1986年)光合作用研究。10,393 - 403],对亚铁血红素IX的双咪唑和双甲基咪唑配合物进行电化学氧化和还原,以检测血红素及其两个轴向配体的红外氧化标记。1674/1553、1535和1240 cm-1处的主要谱带分别初步归属为ν37(CaCm)、ν38 -(CbCb)和δ(CmH)模式;1626、1613、1455、1415和1337 cm-1处的其他谱带归属为卟啉骨架和乙烯基模式。1103和1075/1066 cm-1处的模式分别归属为4 - 甲基咪唑和咪唑配体。对于分离的Cyt b559,结果表明血红素(在1556 - 1535、1337和1239 cm-1处)、1104 cm-1处的组氨酸配体以及蛋白质(在1600至1700 cm-1之间和1545 cm-1处)均受电荷稳定化影响。模型化合物与分离的Cyt b559之间的良好一致性加强了Cyt b559的血红素铁与两个组氨酸残基配位模型的有效性。1656/1641 cm-1处的差分信号归属为肽C = O模式。我们推测该信号反映了细胞色素氧化还原时组氨酸配体与多肽主链之间形成的氢键强度变化。在PS II膜中,对于高电位和低电位形式,Cyt b559光氧化的特征信号分别出现在1660/1652和1625 cm-1处。在Cyt b559 HP和LP的光诱导傅里叶变换红外差示光谱中,1660/1652 - cm-1谱带在1700和1530 - 1510 cm-1处的振幅差异表明,体内血红素氧化机制对于Cyt b559 HP和LP这两种形式意味着不同的分子过程。
