嗜热古菌激烈火球菌对热诱导的DNA主链断裂具有极强抗性。
Extreme resistance to thermally induced DNA backbone breaks in the hyperthermophilic archaeon Pyrococcus furiosus.
作者信息
Peak M J, Robb F T, Peak J G
机构信息
Center for Mechanistic Biology and Biotechnology, Argonne National Laboratory, Illinois 60439, USA.
出版信息
J Bacteriol. 1995 Nov;177(21):6316-8. doi: 10.1128/jb.177.21.6316-6318.1995.
Abstract
Pyrococcus furiosus is a hyperthermophilic archaeon that grows optimally at 100 degrees C. It is not conceivable that these organisms could survive with genomic DNA that was subject to thermal destruction, yet the mechanisms protecting the genomes of this and other hyperthermophiles against such destruction are obscure. We have determined the effect of elevated temperatures up to 110 degrees C on the molecular weight of DNA in intact P. furiosus cells, compared with the effect of elevated temperatures on DNA in the mesothermophilic bacterium Escherichia coli. At 100 degrees C, DNA in P. furiosus cells is about 20 times more resistant to thermal breakage than that in E. coli cells, and six times fewer breaks were found in P. furiosus DNA after exposure to 110 degrees C for 30 min than in E. coli DNA at 95 degrees C. Our hypothesis for this remarkable stability of DNA in a hyperthermophile is that this hyperthermophile possesses DNA-binding proteins that protect against hydrolytic damage, as well as other endogenous protective mechanisms and DNA repair enzyme systems.
摘要
嗜热栖热菌是一种嗜热古生菌,在100摄氏度时生长最佳。很难想象这些生物能够凭借易受热破坏的基因组DNA存活下来,然而保护这种嗜热菌以及其他嗜热菌基因组免受此类破坏的机制却不清楚。我们已经测定了高达110摄氏度的高温对完整嗜热栖热菌细胞中DNA分子量的影响,并与高温对嗜温细菌大肠杆菌中DNA的影响进行了比较。在100摄氏度时,嗜热栖热菌细胞中的DNA对热断裂的抗性比大肠杆菌细胞中的DNA高约20倍,在110摄氏度下暴露30分钟后,嗜热栖热菌DNA中的断裂数比大肠杆菌DNA在95摄氏度下的断裂数少6倍。我们对嗜热菌中DNA这种非凡稳定性的假设是,这种嗜热菌拥有防止水解损伤的DNA结合蛋白,以及其他内源性保护机制和DNA修复酶系统。
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