Pels Rijcken W R, Hooghwinkel G J, Ferwerda W
Department of Medical Chemistry, Vrije Universiteit, Amsterdam, The Netherlands.
Biochem J. 1990 Mar 15;266(3):777-83. doi: 10.1042/bj2660777.
With radioactive precursors, the labelling kinetics of the soluble pyrimidine nucleotides and of RNA were measured in rat liver to determine the contribution of the metabolic flows through synthesis de novo and the salvage pathway. To separate and quantify all pyrimidine nucleotides, an h.p.l.c. technique was developed using anion-exchange chromatography and reversed-phase chromatography. The concentrations of cytidine nucleotides were in the range of 30-45 nmol/g wet weight, and the concentrations of the uridine phosphates and of the UDP-sugars were approx. 6 and 20 times higher respectively. After a single injection of [14C]orotic acid and of [3H]cytidine, the specific radioactivities were determined as a function of time. The 14C/3H ratio was calculated and gave a good indication of the involvement of the different flows. It could be concluded that UTP derived from synthesis de novo and from the salvage pathway is not completely mixed before being utilized. The flow of the salvage pathway is relatively more directed to RNA synthesis in the nucleus and that of synthesis de novo to cytoplasmic processes. For CTP it could also be concluded that the flow of the salvage pathway was relatively more directed to RNA synthesis in the nucleus. Because of the nuclear localization of the enzyme CMP-NeuAc (N-acetylneuraminate) synthase, special attention was paid to CMP-NeuAc. However, a conclusion about a location about the synthesis of CMP-NeuAc could not unequivocally be drawn, because of the small differences in 14C/3H ratio and the different values for the CDP-lipids.
利用放射性前体,在大鼠肝脏中测量了可溶性嘧啶核苷酸和RNA的标记动力学,以确定从头合成和补救途径的代谢流的贡献。为了分离和定量所有嘧啶核苷酸,开发了一种使用阴离子交换色谱和反相色谱的高效液相色谱技术。胞苷核苷酸的浓度在30 - 45 nmol/g湿重范围内,尿苷磷酸和UDP - 糖的浓度分别约高6倍和20倍。单次注射[14C]乳清酸和[3H]胞苷后,测定比放射性随时间的变化。计算14C/3H比值,它能很好地表明不同代谢流的参与情况。可以得出结论,从头合成和补救途径产生的UTP在被利用之前并未完全混合。补救途径相对更直接地参与细胞核中的RNA合成,而从头合成途径则更直接地参与细胞质过程。对于CTP,也可以得出结论,补救途径相对更直接地参与细胞核中的RNA合成。由于CMP - NeuAc(N - 乙酰神经氨酸)合酶的核定位,对CMP - NeuAc给予了特别关注。然而,由于14C/3H比值的微小差异以及CDP - 脂质的不同值,无法明确得出关于CMP - NeuAc合成位置的结论。