嘌呤核苷酸循环。大鼠脑原位产生氨以及腺嘌呤和次黄嘌呤核苷酸与核苷相互转化的研究。

The purine nucleotide cycle. Studies of ammonia production and interconversions of adenine and hypoxanthine nucleotides and nucleosides by rat brain in situ.

作者信息

Schultz V, Lowenstein J M

出版信息

J Biol Chem. 1978 Mar 25;253(6):1938-43.

Abstract

Electrical shock treatment produces a rapid loss of high energy phosphates in rat brain. The [ATP]/[ADP] ratio decreases to one-third of its control value within 10 s. The ammonia content increases 3-fold during the first minute after starting the stimulus. The total adenine nucleotide plus adenosine content of brain decreases an equivalent amount of hypoxanthine-containing compounds appears. Adenosine, inosine, and hypoxanthine accumulate, and there is a transitory accumulation of adenylosuccinate. The contents of ATP and creatine phosphate, and the [ATP]/[ADP] ratio, are rapidly restored to control values, but other metabolite contents are restored more slowly. The transient rise in adenylosuccinate and IMP provides evidence that the ammonia production is due in part, and possibly in whole, to the operation of the purine nucleotide cycle.

摘要

电击治疗会使大鼠大脑中的高能磷酸盐迅速流失。[ATP]/[ADP]比值在10秒内降至对照值的三分之一。在开始刺激后的第一分钟内，氨含量增加了3倍。大脑中总腺嘌呤核苷酸加腺苷的含量减少，等量含次黄嘌呤的化合物出现。腺苷、肌苷和次黄嘌呤积累，腺苷酸琥珀酸有短暂积累。ATP和磷酸肌酸的含量以及[ATP]/[ADP]比值迅速恢复到对照值，但其他代谢物含量恢复得较慢。腺苷酸琥珀酸和肌苷酸的短暂升高证明，氨的产生部分或可能全部归因于嘌呤核苷酸循环的运作。

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