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小的酸溶性芽孢蛋白与DNA的结合在枯草芽孢杆菌芽孢对过氧化氢的抗性中起重要作用。

Binding of small, acid-soluble spore proteins to DNA plays a significant role in the resistance of Bacillus subtilis spores to hydrogen peroxide.

作者信息

Setlow B, Setlow P

机构信息

Department of Biochemistry, University of Connecticut Health Center, Farmington 06030-3305.

出版信息

Appl Environ Microbiol. 1993 Oct;59(10):3418-23. doi: 10.1128/aem.59.10.3418-3423.1993.

DOI:10.1128/aem.59.10.3418-3423.1993
PMID:8250563
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC182468/
Abstract

Dormant spores of Bacillus subtilis which lack the majority of the alpha/beta-type small, acid-soluble proteins (SASP) (termed alpha- beta- spores) that coat the DNA in wild-type spores are significantly more sensitive to hydrogen peroxide than are wild-type spores. Hydrogen peroxide treatment of alpha- beta- spores causes DNA strand breaks more readily than does comparable treatment of wild-type spores, and alpha- beta- spores, but not wild-type spores, which survive hydrogen peroxide treatment have acquired a significant number of mutations. The hydrogen peroxide resistance of wild-type spores appears to be acquired in at least two incremental steps during sporulation. The first increment is acquired at about the time of alpha/beta-type SASP synthesis, and the second increment is acquired approximately 2 h later, at about the time of dipicolinic acid accumulation. During sporulation of the alpha- beta- strain, only the second increment of hydrogen peroxide resistance is acquired. In contrast, sporulation mutants which accumulate alpha/beta-type SASP but progress no further in sporulation acquire only the first increment of hydrogen peroxide resistance. These findings strongly suggest that binding of alpha/beta-type SASP to DNA provides one increment of spore hydrogen peroxide resistance. Indeed, binding of alpha/beta-type SASP to DNA in vitro provides strong protection against cleavage of DNA by hydrogen peroxide.

摘要

枯草芽孢杆菌的休眠孢子缺乏大多数α/β型小的酸性可溶性蛋白(SASP)(称为α-β孢子),这些蛋白可包裹野生型孢子中的DNA,与野生型孢子相比,α-β孢子对过氧化氢的敏感性显著更高。用过氧化氢处理α-β孢子比用类似方法处理野生型孢子更容易导致DNA链断裂,并且在过氧化氢处理后存活下来的α-β孢子(而非野生型孢子)获得了大量突变。野生型孢子对过氧化氢的抗性似乎是在孢子形成过程中至少分两个阶段逐步获得的。第一个阶段大约在α/β型SASP合成时获得,第二个阶段大约在2小时后获得,即在吡啶二羧酸积累时。在α-β菌株的孢子形成过程中,仅获得了第二个阶段的过氧化氢抗性。相反,积累α/β型SASP但在孢子形成过程中没有进一步进展的孢子形成突变体仅获得了第一个阶段的过氧化氢抗性。这些发现有力地表明,α/β型SASP与DNA的结合为孢子提供了一部分过氧化氢抗性。实际上,α/β型SASP在体外与DNA的结合能为DNA提供强大的保护,防止其被过氧化氢切割。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b432/182468/c3fcab0ac699/aem00039-0264-b.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b432/182468/613499e0f31d/aem00039-0264-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b432/182468/c3fcab0ac699/aem00039-0264-b.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b432/182468/613499e0f31d/aem00039-0264-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b432/182468/c3fcab0ac699/aem00039-0264-b.jpg

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