Title page for ETD etd-31298-165021


Type of Document Dissertation
Author Alban, Patrick Scott II
Author's Email Address palban@vt.edu
URN etd-31298-165021
Title A Study of Peroxide Resistance in the Microaerophile, Spirillum volutans
Degree PhD
Department Biology
Advisory Committee
Advisor Name Title
Krieg, Noel R. Committee Chair
Esen, Asim Committee Member
Gregory, Eugene M. Committee Member
Krieg, Noel R. Committee Member
Potts, Malcolm Committee Member
Yousten, Allan A. Committee Member
Keywords
  • Microaerophile
  • Spirillum
  • Oxidative Stress
Date of Defense 1998-04-06
Availability unrestricted
Abstract
Studies of adaptive responses of the microaerophile Spirillum volutans to various stresses such as heat and peroxide shock have been hampered by an inability to obtain reliable colony counts of the organism by the spread plate method. Colony counts approaching direct microscopic counts (DMCs) were obtained by inoculating culture dilutions into a semisolid version of the medium and by supplementing the medium with pyruvate, which destroys hydrogen peroxide. Use of the new overlay/pyruvate method for colony counts revealed that exposure of S. volutans to 40 degrees C for 100 min results in a greater survival at 45 degrees C compared with cells having no prior exposure to 40 degrees C. Spirillum volutans is catalase-negative and is rapidly killed by levels of H2O2 greater than 10 micromolar. A mutant isolated by single step mutagenesis with diethyl sulfate was able to survive and grow after exposure to 40 micromolar H2O2 and was effective in eliminating H2O2 concentrations added to the medium. In addition, the mutant had high NADH peroxidase activity (0.072 I.U. mg-1) whereas the wild type had no detectable activity (<0.0002 I.U. mg-1). Nevertheless, the mutant was no more tolerant to O2 than the wild type. NADH peroxidase activity has not previously been reported in bacteria having a strictly respiratory type of metabolism. The peroxide-resistant mutant constitutively expresses a 21.5 kDa protein as determined by one and two-dimensional PAGE. This protein was undetectable and noninducible in the wild type cells. Part of the gene that encodes the protein was cloned by using amino acid sequence data obtained by both mass spectrometry and NH2-terminal sequencing. The deduced 158 amino acid polypeptide showed high similarity to rubrerythrin and nigerythrin previously described in the anaerobes Clostridium perfringens and Desulfovibrio vulgaris and to putative rubrerythrin proteins found in some anaerobic archeons. This is the first report of this type of protein in an organism that must respire with oxygen. This rubreythrin-like protein may play a role in the peroxide resistance of the mutant. The methodology may be useful for rapid cloning of genes in other bacteria.
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