Mickey S. Brown scite author profile

Abstract— Action spectra for lethality of E. coli WP2s under aerobic and anaerobic conditions. based on final slopes of the survival curves, reveal the absence of oxygen dependence at 313 nm and shorter wavelengths and a strong oxygen dependence (OER of 12 at 334 nm and 16 at 365 nm) at wavelengths longer than 313 nm. Shoulders or small peaks at340, 365, 410 and 500 nm suggest the participation of non‐DNA chromophores in aerobic lethality at these wavelength ranges.

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SENSITIVITY OF STRAINS OF ESCHERICHIA COLI DIFFERING IN REPAIR CAPABILITY TO FAR UV, NEAR UV AND VISIBLE RADIATIONS*

Webb

Brown

1976

Photochem & Photobiology

105

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Abstract— In stationary phase, strains of Escherichia coli deficient in excision (B/r Her) or recombination repair (K.12 AB2463) were more sensitive than a repair proficient strain (B/r) to monochromatic near‐ultraviolet (365 nm) and visible (460 nm) radiations. The relative increase in sensitivity of mutants deficient in excision or recombination repair, in comparision to the wildtype, was less at 365 nm than at 254 nm. However, a strain deficient in both excision and recombination repair (K12 AB2480) showed a large, almost equal, increase in sensitivity over mutants deficient in either excision or recombination repair at 365 nm and 254 nm. All strains tested were highly resistant to 650 nm radiation. Action spectra for lethality of strains B/r and B/r Her in stationary phase reveal small peaks or shoulders in the 330–340, 400–410 and 490–510 nm wavelength ranges. The presence of 5μg/ml acriflavine (an inhibitor of repair) in the plating medium greatly increased the sensitivity of strain B/r to radiation at 254, 365 and 460 nm, while strains E. coli B/r Her and K12 AB2463 were sensitized by small amounts. At each of the wavelengths tested, acriflavine in the plating medium had at most a small effect on E. coli K.12 AB2480. Acriflavine failed to sensitize any strain tested at 650 nm. Evidence supports the interpretation that lesions induced in DNA by 365 nm and 460 nm radiations play the major role in the inactivation of E. coli by these wavelengths. Single‐strand breaks (or alkali‐labile bonds), but not pyrimidine dimers are candidates for the lethal DNA lesions in uvrA and repair proficient strains. At high fluences lethality may be enhanced by damage to the excision and recombination repair systems.

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Photoreactivation of 365 nm inactivation in Escherichia coli

Brown

Webb

1972

Mutation Research/Fundamental and Molecular Mechanisms of Mutag

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ACTION SPECTRA FOR LETHALITY IN RECOMBINATION‐LESS STRAINS OF SALMONELLA TYPHIMURIUM AND *ESCHERICHIA COLI**

Mackay

Eisenstark

Webb

et al. 1976

Photochem & Photobiology

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Abstract— Action spectra for lethality of both stationary and exponentially growing cells of recombinationless (recA) mutants of Salmonella typhimurium and Escherichia coli were obtained. Maximum sensitivity was observed at 260nm which corresponds to the maximum absorbance of DNA. However, a shoulder occurred in the 280–300 nm range that departed significantly from the absorption spectrum of DNA. At wavelengths longer than 320nm, the shapes of inactivation curves departed significantly from those at wavelengths shorter than 320nm and survival curves at wavelengths longer than 320nm had a large shoulder. A small peak or shoulder occurred in the 330–340nm region of the action spectra. The special sensitivity of recA mutants to broad spectrum near‐UV radiation may be due to synergistic effects of different wavelengths. Parallels between the inactivation of recA mutants and the induction of a photoproduct of l‐tryptophan toxic for recA mutants (now known to be H2O2) suggest that H2O2 photoproduct from endogenous tryptophan may be involved in the high sensitivity of these strains to broad spectrum near‐UV radiation.

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Lethal effects of pyrimidine dimers induced at 365 nm in strains of E. coli differing in repair capability

Webb

Brown

Tyrrell

1976

Mutation Research/Fundamental and Molecular Mechanisms of Mutag

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Mickey S. Brown

ACTION SPECTRA FOR OXYGEN‐DEPENDENT AND INDEPENDENT INACTIVATION OF ESCHERZCHZA COLZ WP2s FROM 254 TO 460 NM*

SENSITIVITY OF STRAINS OF ESCHERICHIA COLI DIFFERING IN REPAIR CAPABILITY TO FAR UV, NEAR UV AND VISIBLE RADIATIONS*

Photoreactivation of 365 nm inactivation in Escherichia coli

ACTION SPECTRA FOR LETHALITY IN RECOMBINATION‐LESS STRAINS OF SALMONELLA TYPHIMURIUM AND *ESCHERICHIA COLI**

Lethal effects of pyrimidine dimers induced at 365 nm in strains of E. coli differing in repair capability

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Mickey S. Brown

ACTION SPECTRA FOR OXYGEN‐DEPENDENT AND INDEPENDENT INACTIVATION OF ESCHERZCHZA COLZ WP2s FROM 254 TO 460 NM*

SENSITIVITY OF STRAINS OF ESCHERICHIA COLI DIFFERING IN REPAIR CAPABILITY TO FAR UV, NEAR UV AND VISIBLE RADIATIONS*

Photoreactivation of 365 nm inactivation in Escherichia coli

ACTION SPECTRA FOR LETHALITY IN RECOMBINATION‐LESS STRAINS OF SALMONELLA TYPHIMURIUM AND ESCHERICHIA COLI*

Lethal effects of pyrimidine dimers induced at 365 nm in strains of E. coli differing in repair capability

Contact Info

Product

Resources

About

ACTION SPECTRA FOR LETHALITY IN RECOMBINATION‐LESS STRAINS OF SALMONELLA TYPHIMURIUM AND *ESCHERICHIA COLI**