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φ-X-174病毒、单链DNA和双链环状复制型DNA生物活性的紫外线敏感性

Ultraviolet sensitivity of the biological activity of phi-X-174 virus, single-stranded DNA, and RF DNA.

作者信息

Yarus M, Sinsheimer R L

出版信息

Biophys J. 1967 May;7(3):267-78. doi: 10.1016/S0006-3495(67)86587-1.

DOI:10.1016/S0006-3495(67)86587-1
PMID:6035124
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1368031/
Abstract

Action spectra for inactivation of varphiX virus, free varphiX single-stranded DNA, and double-stranded varphiX DNA (RF) have been measured using light of wavelength 225-302 mmu. The sensitivity of RF has been determined using bacterial hosts both capable and incapable of reactivation of UV damage. The inactivation of varphiX virus is due, at all wavelengths, to damage to its DNA; it appears that, below 240 mmu, energy absorbed by viral structural protein may inactivate the viral DNA. The variation of the probability of inactivation by an absorbed quantum (quantum yield) with wavelength, in the case of free-single-stranded varphiX DNA, suggests that energy absorbed by pyrimidine residues is more likely to yield inactivation than absorption by purines. This implies that energy transfer is not so extensive as to make all absorbed energy available to pyrimidines.

摘要

利用波长为225 - 302毫微米的光测量了φX病毒、游离的φX单链DNA和双链φX DNA(RF)失活的作用光谱。已使用有能力和无能力修复紫外线损伤的细菌宿主来测定RF的敏感性。在所有波长下,φX病毒的失活都是由于其DNA受到损伤;似乎在240毫微米以下,病毒结构蛋白吸收的能量可能会使病毒DNA失活。就游离的单链φX DNA而言,被吸收量子使DNA失活的概率(量子产率)随波长的变化表明,嘧啶残基吸收的能量比嘌呤吸收的能量更有可能导致失活。这意味着能量转移并不广泛到使所有吸收的能量都能被嘧啶利用。

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A Growth-Delaying Effect of Ultraviolet Radiation.紫外线辐射的生长延迟效应。
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