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嗜热古菌中氨依赖型氨甲酰磷酸的合成及代谢通道化

Ammonia-dependent synthesis and metabolic channelling of carbamoyl phosphate in the hyperthermophilic archaeon .

作者信息

Legrain Christianne, Demarez Marc, Glansdorff Nicolas, Piérard André

机构信息

Research Institute, CERIA-COOVl, Vrije Universiteit Brussel, Brussels, Belgium.

Vlaams Interuniversitair Instituut voor Biotechnologie, Université Libre de Bruxelles, 1, avenue Emile Gryson, B-1070 Brussels, Belgium.

出版信息

Microbiology (Reading). 1995 May;141(5):1093-1099. doi: 10.1099/13500872-141-5-1093.

DOI:10.1099/13500872-141-5-1093
PMID:33820113
Abstract

SUMMARYThe biosynthesis of carbamoyl phosphate (CP), a metabolic precursor of arginine and the pyrimidines was investigated in the hyperthermophilic archaeon . The half-life of CP was found to be less than 2 s in the optimum temperature range of this organism (100-102 °C). The carbamoyl-phosphate synthase (CPSase) of uses ammonia as the nitrogen donor, and not glutamine like all micro-organisms investigated so far. The of the enzyme, which is devoid of regulatory properties, is 70000, at variance with that of known CPSases. The possible significance of these findings with regard to hyperthermophilic nitrogen metabolism is discussed. Competition experiments with crude extracts indicated a marked preference of ornithine carbamoyltransferase (OTCase) for CP synthesized by CPSase rather than for CP added to the reaction mixture. In addition, the bisubstrate analogue --phosphonoacetyl-L-ornithine inhibits the formation of citrulline from bicarbonate, ammonia, ATP and ornithine much less than its synthesis from ornithine and CP in the presence of free OTCase. Such results suggest that, , CPSase and OTCase associate in a complex able to channel CP. Such a channelling may confer protection to CP, thus avoiding the accumulation of toxic amounts of cyanate arising from its decomposition as well as the waste of the two molecules of ATP required for its synthesis.

摘要

摘要

对嗜热古菌中精氨酸和嘧啶的代谢前体氨甲酰磷酸(CP)的生物合成进行了研究。在该生物体的最佳温度范围(100 - 102°C)内,发现CP的半衰期小于2秒。该菌的氨甲酰磷酸合成酶(CPSase)以氨作为氮供体,与迄今为止研究的所有微生物不同,后者使用谷氨酰胺。该酶分子量为70000,缺乏调节特性,这与已知的CPSases不同。讨论了这些发现对于嗜热氮代谢的可能意义。用该菌粗提物进行的竞争实验表明,鸟氨酸氨甲酰转移酶(OTCase)明显优先选择由CPSase合成的CP,而不是添加到反应混合物中的CP。此外,双底物类似物膦酰乙酰 - L - 鸟氨酸抑制由碳酸氢盐、氨、ATP和鸟氨酸合成瓜氨酸的程度,远小于在游离OTCase存在下由鸟氨酸和CP合成瓜氨酸的程度。这些结果表明,在该菌中,CPSase和OTCase形成了一个能够转运CP的复合物。这种通道化作用可能会保护CP,从而避免因CP分解产生有毒量的氰酸盐以及合成CP所需的两分子ATP的浪费。

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