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两种嗜盐古菌中的嘌呤补救途径:补救途径的表征及对嘌呤类似物具有抗性的突变体的分离

Purine salvage in two halophilic archaea: characterization of salvage pathways and isolation of mutants resistant to purine analogs.

作者信息

Stuer-Lauridsen B, Nygaard P

机构信息

Department of Biological Chemistry, Institute of Molecular Biology, University of Copenhagen, Denmark.

出版信息

J Bacteriol. 1998 Feb;180(3):457-63. doi: 10.1128/JB.180.3.457-463.1998.

Abstract

In exponentially growing cultures of the extreme halophile Halobacterium halobium and the moderate halophile Haloferax volcanii, growth characteristics including intracellular protein levels, RNA content, and nucleotide pool sizes were analyzed. This is the first report on pool sizes of nucleoside triphosphates, NAD, and PRPP (5-phosphoribosyl-alpha-1-pyrophosphate) in archaea. The presence of a number of salvage and interconversion enzymes was determined by enzymatic assays. The levels varied significantly between the two organisms. The most significant difference was the absence of GMP reductase activity in H. halobium. The metabolism of exogenous purines was investigated in growing cultures. Both purine bases and nucleosides were readily taken up and were incorporated into nucleic acids. Growth of both organisms was affected by a number of inhibitors of nucleotide synthesis. H. volcanii was more sensitive than H. halobium, and purine base analogs were more toxic than nucleoside analogs. Growth of H. volcanii was inhibited by trimethoprim and sulfathiazole, while these compounds had no effect on the growth of H. halobium. Spontaneous mutants resistant to purine analogs were isolated. The most frequent cause of resistance was a defect in purine phosphoribosyltransferase activity coupled with reduced purine uptake. A single phosphoribosyltransferase seemed to convert guanine as well as hypoxanthine to nucleoside monophosphates, and another phosphoribosyltransferase had specificity towards adenine. The differences in the metabolism of purine bases and nucleosides and the sensitivity to purine analogs between the two halobacteria were reflected in differences in purine enzyme levels. Based on our results, we conclude that purine salvage and interconversion pathways differ just as much between the two archaeal species as among archaea, bacteria, and eukarya.

摘要

在嗜盐菌盐生盐杆菌(Halobacterium halobium)和嗜盐嗜热菌沃氏嗜盐碱杆菌(Haloferax volcanii)的指数生长培养物中,分析了包括细胞内蛋白质水平、RNA含量和核苷酸库大小在内的生长特性。这是关于古菌中三磷酸核苷、NAD和PRPP(5-磷酸核糖-α-1-焦磷酸)库大小的首次报道。通过酶促测定确定了多种补救和相互转化酶的存在。两种生物体之间的水平差异显著。最显著的差异是盐生盐杆菌中缺乏GMP还原酶活性。在生长的培养物中研究了外源嘌呤的代谢。嘌呤碱和核苷都很容易被吸收并掺入核酸中。两种生物体的生长都受到多种核苷酸合成抑制剂的影响。沃氏嗜盐碱杆菌比盐生盐杆菌更敏感,嘌呤碱类似物比核苷类似物毒性更大。沃氏嗜盐碱杆菌的生长受到甲氧苄啶和磺胺噻唑的抑制,而这些化合物对盐生盐杆菌的生长没有影响。分离出了对嘌呤类似物具有抗性的自发突变体。抗性最常见的原因是嘌呤磷酸核糖转移酶活性缺陷以及嘌呤摄取减少。一种磷酸核糖转移酶似乎能将鸟嘌呤和次黄嘌呤转化为核苷单磷酸,另一种磷酸核糖转移酶对腺嘌呤具有特异性。两种嗜盐菌在嘌呤碱和核苷代谢以及对嘌呤类似物敏感性方面的差异反映在嘌呤酶水平的差异上。根据我们的结果,我们得出结论,嘌呤补救和相互转化途径在这两种古菌物种之间的差异与古菌、细菌和真核生物之间的差异一样大。

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