Ultraviolet (193, 216 and 254 Nm) Photoinactivation of Escherichia Coli Strains with Different Repair Deficiencies

Overview

Journal Radiat Res

Specialties Genetics
Radiology

Date 1995 Mar 1

PMID 7871151

Citations 22

Authors

G G Gurzadyan

H Gorner

Affiliations

Soon will be listed here.

Abstract

Escherichia coli K12 bacteria strains AB1157 (repair-deficient wild-type, uvrA+ recA+), AB1886 (urvA-), AB2463 (recA-) and AB2480 (urvA- recA-) were exposed to 254 nm germicidal UV and 216 or 193 nm laser radiation. The mean lethal incident dose (D37) for AB1157 does not change significantly with wavelength, whereas it increases for the other strains on going from lambda irr = 254 to 193 nm, e.g. eightfold for AB2480. Quantum yields for inactivation, due to light absorbed by the chromosomal DNA, have been estimated from the D37 values. The large differences in D37 between uvrA+ and uvrA- strains indicate a significant contribution of pyrimidine dimers and (6-4) photoproducts to photodamage of DNA in the cells. The formation of dimers even with lambda irr = 193 nm is supported by the result that the photoreactivable sector is larger than 63%. Inactivation of E. coli upon irradiation at 193 and 216 nm is therefore due to damage to intracellular DNA rather than to membrane or protein damage as is the case for mammalian cells. The ratio of the lethal doses for AB1157 vs AB2480 is approximately 900 with lambda irr = 254 nm, but only 160 with lambda irr = 193 nm. We propose that this is due to the better repair of photodimers and (6-4) photoproducts than of damage induced by photoionization via upper excited states. Irradiation at 193 nm inactivates AB1157 mainly by damage due to photoionization and AB2480 by damage due to photodimers in the chromosomal DNA.

Citing Articles

Portable and Air Conditioner-Based Bio-Protection Devices to Prevent Airborne Infections in Acute and Long-Term Healthcare Facilities, Public Gathering Places, Public Transportation, and Similar Entities.

Pisharodi M Cureus. 2024; 16(3):e55950.

PMID: 38469370 PMC: 10926937. DOI: 10.7759/cureus.55950.

Wind of change: Better air for microbial environmental control.

Messina G, Amodeo D, Taddeini F, De Palma I, Puccio A, Cevenini G Case Stud Chem Environ Eng. 2023; 6:100240.

PMID: 37520926 PMC: 9339158. DOI: 10.1016/j.cscee.2022.100240.

Real-Life Assessment of the Ability of an Ultraviolet C Lamp (SanificaAria 200, Beghelli) to Inactivate Airborne Microorganisms in a Healthcare Environment.

Foschi C, Giorgi B, Ambretti S, Lazzarotto T, Violante F Life (Basel). 2023; 13(5).

PMID: 37240866 PMC: 10224295. DOI: 10.3390/life13051221.

A Review of Recent Evidence for Utilizing Ultraviolet Irradiation Technology to Disinfect Both Indoor Air and Surfaces.

Memarzadeh F Appl Biosaf. 2022; 26(1):52-56.

PMID: 36033964 PMC: 8869636. DOI: 10.1089/apb.20.0056.

Investigation on Potential ESKAPE Surrogates for 222 and 254 nm Irradiation Experiments.

Gierke A, Hessling M Front Microbiol. 2022; 13:942708.

PMID: 35847114 PMC: 9284107. DOI: 10.3389/fmicb.2022.942708.