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首页> 外文期刊>Applied and Environmental Microbiology >Small, Acid-Soluble Spore Proteins of the α/β Type Do Not Protect the DNA in Bacillus subtilis Spores against Base Alkylation
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Small, Acid-Soluble Spore Proteins of the α/β Type Do Not Protect the DNA in Bacillus subtilis Spores against Base Alkylation

机译:酸性的小溶性孢子蛋白(α/β型)不能保护枯草芽孢杆菌孢子中的DNA免受碱烷基化的影响

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摘要

Ethyl methanesulfonate (EMS) killed wild-type Bacillus subtilis spores as rapidly as spores lacking small, acid-soluble proteins (SASP) of the α/β type (α?β?spores), and 20% of the survivors had obvious mutations. ArecA mutation increased the EMS sensitivity of wild-type and α?β? spores similarly but reduced their mutagenesis; EMS treatment of dormant spores also resulted in the induction of RecA synthesis during spore germination. EMS generated similar levels of alkylated bases in wild-type and α?β? spore DNAs, in purified DNA, or in DNA saturated with α/β-type SASP. Ethylene oxide (EtO) also generated similar levels of base alkylation in wild-type and α?β? spore DNAs. These data indicate that EMS and EtO kill spores at least in part by DNA damage but that α/β-type SASP, which protect DNA against many types of damage, do not protect spore DNA from base alkylation.
机译:甲磺酸乙酯(EMS)杀死野生型枯草芽孢杆菌孢子的速度与缺乏α/β型小酸溶性蛋白质(SASP)的孢子(α?β?孢子)一样快,并且20%的幸存者具有明显的突变。 ArecA突变增加了野生型和α?β的EMS敏感性。孢子类似,但减少了诱变; EMS对休眠孢子的处理还导致在孢子萌发过程中诱导RecA合成。 EMS在野生型和α?β?中产生相似水平的烷基化碱基。孢子DNA,纯化的DNA或被α/β型SASP饱和的DNA。环氧乙烷(EtO)在野生型和α?β?中也产生相似水平的碱基烷基化。孢子DNA。这些数据表明,EMS和EtO至少部分地通过DNA损伤杀死孢子,但是保护DNA免受多种损伤的α/β型SASP不能保护孢子DNA免受碱基烷基化。

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