The journey of Deinococcus radiodurans; a perspective

G. M. Baldodiya
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引用次数: 1

Abstract

Deinococcus radiodurans has been recognized for its robustness and recorded in the Guinness Book of World Records as the world's toughest known bacterium. In essence, the title comes from its ability to survive extreme conditions such as severe drought (desiccation) and radiation tolerance up to 15000 Gy, which is more than 250 times of E. coli and about 3000 times of humans. Due to its high tolerance to all kinds of genotoxic stress, such as desiccation, UV, X-rays, and oxidants, D. radiodurans is a well-suited model organism for microbial radiation resistance studies. The DNA damage-responsive gene expression is an important component of post-stress recovery where the cell shows a great multiplicity of genomes leading to the highly proficient recombinational DNA repair. This article pitches light on the unique properties of D. radiodurans, unfolding its journey so far as well as important molecular discoveries, prospects, and biotechnological applications.
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耐辐射球菌的旅程;一个透视图
耐辐射球菌因其坚固性而得到认可,并被吉尼斯世界纪录记录为世界上已知最坚韧的细菌。从本质上讲,这个名字来自于它在严重干旱(干燥)等极端条件下的生存能力,以及高达15000 Gy的辐射耐受性,这是大肠杆菌的250倍以上,人类的3000倍左右。由于其对干燥、紫外线、x射线和氧化剂等各种遗传毒性胁迫具有较高的耐受性,因此耐辐射菌是微生物辐射抗性研究的理想模式生物。DNA损伤反应性基因表达是应激后恢复的重要组成部分,细胞显示出大量的基因组多样性,导致高度熟练的重组DNA修复。本文介绍了耐辐射球菌的独特特性,揭示了其迄今为止的历程以及重要的分子发现、前景和生物技术应用。
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