Sáez de Córdova C, Cohén R, González-Cadavid N F
Biochem J. 1977 Sep 15;166(3):305-13. doi: 10.1042/bj1660305.
To determine whether the prosthetic group of cytochrome c is synthesized and linked to the apoprotein in the cytosol or in connexion with the endoplasmic reticulum, we have studied the incorporation in vitro of delta-amino[(14)C]laevulinate into porphyrin compounds and cytochrome c by the cell sap from rat liver. The radioactive precursor was incorporated into a trichloroacetic acid-precipitable form partially resistant to extractions by acid solvents, suggesting the existence of a fraction covalently linked to protein. The activity was proportional to the amount of protein incubated, did not increase substantially by supplementation with the microsomal fraction and an energy source, and was very low in the pH5 fraction. Addition of increasing amounts of haemin inhibited the incorporation, as with purified delta-aminolaevulinate dehydratase. [(14)C]Protoporphyrin IX was identified by paper chromatography, together with a shoulder running as protohaem IX. The cell sap in the absence of ribosomes was also able to incorporate radioactivity into purified cytochrome c, and the addition of ribosomes significantly enhanced the activity. The precursors of haem c were synthesized in the soluble system by the known haem-synthetic pathway, as shown by the kinetics of labelling of the coproporphyrin, protoporphyrin and haem fractions, and the activities were concentrated in the precipitate obtained between 40 and 60% saturation with (NH(4))(2)SO(4). The presence of ferrochelatase was indicated by the incorporation of (55)Fe into proto- and haemato-haem identified by paper chromatography. It is concluded that the cell sap from rat liver contains the complete set of enzymes for the synthesis from delta-aminolaevulinate of haem c and its linkage to a small pool of free apoprotein c present in soluble form. This suggests that an ancillary pathway of haem synthesis occurs in the cytosol for at least the formation of the prosthetic group, which is linked post-translationally to that pool of apoprotein c synthesized by free polyribosomes.
为了确定细胞色素c的辅基是在细胞质中还是与内质网相关联的情况下合成并与脱辅基蛋白相连,我们研究了大鼠肝脏细胞液将δ-氨基[¹⁴C]戊酸掺入卟啉化合物和细胞色素c的体外掺入情况。放射性前体被掺入到对酸性溶剂提取有部分抗性的三氯乙酸可沉淀形式中,这表明存在与蛋白质共价连接的部分。该活性与孵育的蛋白量成正比,补充微粒体部分和能量来源后活性没有显著增加,并且在pH5部分活性非常低。与纯化的δ-氨基戊酸脱水酶一样,添加越来越多的血红素会抑制掺入。通过纸色谱法鉴定出了[¹⁴C]原卟啉IX,以及一个与原血红素IX一起迁移的肩峰。无核糖体的细胞液也能够将放射性掺入纯化的细胞色素c中,添加核糖体显著增强了活性。血红素c的前体是通过已知的血红素合成途径在可溶性系统中合成的,粪卟啉、原卟啉和血红素部分的标记动力学表明了这一点,并且活性集中在硫酸铵饱和度为40%至60%之间获得的沉淀物中。通过纸色谱法鉴定出将⁵⁵Fe掺入原血红素和血红素血红素中,表明存在亚铁螯合酶。结论是,大鼠肝脏细胞液含有从δ-氨基戊酸合成血红素c并将其与以可溶性形式存在的一小部分游离脱辅基蛋白c相连所需的全套酶。这表明至少在细胞质中发生了血红素合成的辅助途径以形成辅基,该辅基在翻译后与由游离多核糖体合成的脱辅基蛋白c池相连。