脱氧胞苷不仅可以补救合成进入DNA,还可以进入磷脂前体。
Deoxycytidine is salvaged not only into DNA but also into phospholipid precursors.
作者信息
Spasokukotskaja T, Spyrou G, Staub M
机构信息
Institute of Biochemistry I., Semmelweis University Medical School, Budapest, Hungary.
出版信息
Biochem Biophys Res Commun. 1988 Sep 15;155(2):923-9. doi: 10.1016/s0006-291x(88)80584-9.
Deoxycytidine metabolism was investigated in light density human tonsillar lymphocytes using 5-3H-deoxycytidine as extracellular precursor. A significant portion of the deoxycytidine (more than 50% of ethanol soluble pool) was found to incorporate into dCDP-choline and dCDP-ethanolamine beside the well-known pathway i.e. incorporation into DNA in form of dCMP and dTMP. Hydroxyurea increased the labeling of the deoxyliponucleotides from 5-3H-deoxycytidine in spite of its inhibition of DNA synthesis.
利用5-³H-脱氧胞苷作为细胞外前体,对低密度人扁桃体淋巴细胞中的脱氧胞苷代谢进行了研究。结果发现,除了众所周知的途径(即脱氧胞苷以dCMP和dTMP的形式掺入DNA)外,相当一部分脱氧胞苷(超过乙醇可溶池的50%)掺入到dCDP-胆碱和dCDP-乙醇胺中。尽管羟基脲抑制DNA合成,但它增加了5-³H-脱氧胞苷对脱氧脂核苷酸的标记。
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