Solar near-ultraviolet radiation (near-UV; 290-4OOnm), because of its abundance, is perhaps one of the most mutagenic agents to which organisms are exposed. In addition to genetic effects, near-UV influences biological systems in unique and often subtle ways. Many animal, microbial, and plant biochemical reactions may be induced, cued, and modulated by near-UV in the organism's developmental, growth and behavioral activities. Near-UV generates excess active oxygen species that have been implicated in a wide variety of environmental and health effects including premature aging, circulatory diseases, rheumatoid arthritis, and induction of cancers, cataracts and repression of the immune system. In addition to the """"""""ozone effect,"""""""" many humans receive excessive near-UV from natural sunlight and from sun lamps. The broad Objective of this research is to identify specific biological components involved in damage, protection and recovery from excess near-UV radiation. The experimental approach is to analyze mutants of Escherichia coli cells that are defective in dealing with protection and recovery from near-UV assault. Because characterization of genes under control of sigma factor rpoS (katF) may be key to understanding the damage and recovery processes, research will focus on the biological role(s) of the rpoS gene products. Specifically, we plan: (1) To determine unique DNA base changes that result from near-UV radiation especially in the absence or overproduction of cellular antioxidants and repair proteins (e.g., catalases, superoxide dismutases, and exonuclease III). (2). To characterize the roles of rpoS-regulated genes and their products in sensitization, protection and recovery from near-UV stress and in mutagenesis; to identify new rpoS regulated genes. (3). To determine regulatory overlaps of rpoS with other known regulons (e.g. oxidative stress, superoxide stress, anaerobic stress, iron regulation). (4). To determine the transcriptional/post-transcriptional roles of rpoS, including the identification of rpoS sequence segments that are involved in the interactions with some, but not all, promoters of genes under rpoS control, thus explaining variable phenotypes. (5) To identify immunochemically the functional domain(s) of rpoS protein using DNA binding assay, in vitro transcription assay, and monoclonal antibody against synthetic peptide epitopes of rpoS protein. (6) To determine the genetic relationship between """"""""near-UV death"""""""" and """"""""stationary-phase death"""""""" in rpoS, and other mutants. (7) To assess the near-UV effects at fluences that are anticipated with ca. 15% depletion of stratospheric ozone. The experimental design and methods will utilize (1) genetic engineering techniques, including polymerase chain reactions (PCR), DNA footprinting and DNA sequencing; (2) biochemical assays, primarily for hydroperoxidases, superoxide dismutase, ribonucleotide reductase, glutathione reductase, and alkyl peroxidase, and (3) immunological assays.

Agency
National Institute of Health (NIH)
Institute
National Institute of Environmental Health Sciences (NIEHS)
Type
Research Project (R01)
Project #
2R01ES004889-07
Application #
2153813
Study Section
Radiation Study Section (RAD)
Project Start
1988-08-01
Project End
1997-07-31
Budget Start
1994-08-01
Budget End
1995-07-31
Support Year
7
Fiscal Year
1994
Total Cost
Indirect Cost
Name
Cancer Research Center
Department
Type
DUNS #
City
Columbia
State
MO
Country
United States
Zip Code
65201
Eisenstark, Abraham (2010) Genetic diversity among offspring from archived Salmonella enterica ssp. enterica serovar typhimurium (Demerec Collection): in search of survival strategies. Annu Rev Microbiol 64:277-92
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Sutton, A; Buencamino, R; Eisenstark, A (2000) rpoS mutants in archival cultures of Salmonella enterica serovar typhimurium. J Bacteriol 182:4375-9
Eisenstark, A (1998) Bacterial gene products in response to near-ultraviolet radiation. Mutat Res 422:85-95
Ahmad, S I; Kirk, S H; Eisenstark, A (1998) Thymine metabolism and thymineless death in prokaryotes and eukaryotes. Annu Rev Microbiol 52:591-625
Calcutt, M J; Lewis, M S; Eisenstark, A (1998) The oxyR gene from Erwinia carotovora: cloning, sequence analysis and expression in Escherichia coli. FEMS Microbiol Lett 167:295-301
Mhlanga-Mutangadura, T; Morlin, G; Smith, A L et al. (1998) Evolution of the major pilus gene cluster of Haemophilus influenzae. J Bacteriol 180:4693-703
Calcutt, M J; Becker-Hapak, M; Gaut, M et al. (1998) The rpoS gene of Erwinia carotovora: gene organization and functional expression in E. coli. FEMS Microbiol Lett 159:275-81
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Becker-Hapak, M; Troxtel, E; Hoerter, J et al. (1997) RpoS dependent overexpression of carotenoids from Erwinia herbicola in OXYR deficient Escherichia coli. Biochem Biophys Res Commun 239:305-9

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