Studies of some of the Myxobacteria isolated from soils of the Tucson area

Elbein, Alan David, 1933-

January 1956

No description available.

Myxobacterales.

Soil microbiology -- Arizona.

Ecophysiology and diversity of anaeromyxobacter spp. and implications for uranium bioremediation

Thomas, Sara Henry.

January 2009

Thesis (M. S.)--Civil and Environmental Engineering, Georgia Institute of Technology, 2009. / Committee Chair: Dr. Frank E. Löffler; Committee Member: Dr. Joseph B. Hughes; Committee Member: Dr. Kurt D. Pennell; Committee Member: Dr. Lawrence J. Shimkets; Committee Member: Dr. Robert A. Sanford; Committee Member: Dr. Thomas DiChristina.

Ein eindimensionales Modell zum Schwarmverhalten der Myxobakterien unter besonderer Berücksichtigung der Randzonenentwicklung

Pfistner, Beate.

January 1993

Thesis (doctoral)--Rheinische Friedrich-Wilhelms-Universität Bonn, 1992. / Includes bibliographical references (p. 140-145).

Myxobacterales. One-dimensional flow.

Ecophysiology and diversity of anaeromyxobacter spp. and implications for uranium bioremediation

Thomas, Sara Henry

24 March 2009

Uranium has been released into the environment due to improper practices associated with mining and refinement for energy and weapons production. Soluble U(VI) species such as uranyl carbonate can be reduced to form the insoluble U(IV) mineral uraninite (UO2) via microbial respiratory processes. Formation of UO2 diminishes uranium mobility and prevents uranium-laden groundwater from being discharged into surface water; however, oxygen and other oxidants re-solubilize UO2. Many organisms have been shown to reduce uranium, but variations in microbial physiology change the dynamics of microbial uranium reduction in situ and affect uraninite stability. Anaeromyxobacter dehalogenans is a metal-reducing delta-Proteobacterium in the myxobacteria family that displays remarkable respiratory versatility and efficiently reduces U(VI). The approach of this research was to enhance characterization of A. dehalogenans by identifying unique genetic traits, describing variability within the species, and examining the environmental distribution of A. dehalogenans strains. Genome analysis revealed that A. dehalogenans shares many traits with the myxobacteria including type IV pilus-based motility and an aerobic-like electron transport chain. In addition, the genome revealed genes that share sequence similarity with strict anaerobes and other metal-reducing organisms. Physiological examination of microaerophilism in A. dehalogenans strain 2CP-C revealed growth at sub-atmospheric oxygen partial pressure. Physiological characterization of novel isolates demonstrated that strain-level variation in the 16S rRNA gene coincides with metabolic changes that can be linked to the loss of specific gene homologs. Anaeromyxobacter spp. were present at the Oak Ridge Integrated Field-scale Subsurface Research Challenge (IFC) site and multiplex qPCR tools designed using a minor-groove binding probe gave insights into strain and species differences in the community. Finally, 16S rRNA gene sequences were identified which suggest a novel Anaeromyxobacter species that is responsible for uranium reduction at the Oak Ridge IFC site. This research contributes new knowledge of the ecophysiology of a widely distributed, metal-reducing bacterial group capable of uranium immobilization. The characterization of Anaeromyxobacter spp. helps to elucidate the dynamics of biological cycling of metals at oxic-anoxic interfaces, like those at the Oak Ridge IFC, and contributes to the broader study of microbial ecology in groundwater and sediment environments.

Microbial ecology

Uranium reduction

Bioremediation

Uranium Environmental aspects

In situ bioremediation

Myxobacterales

Biosynthesis studies and mutasynthesis of myxobacterial secondary metabolites /

Knight, Eva W.

January 1900

Thesis (M.S.)--Oregon State University, 2007. / Printout. Includes bibliographical references (leaves 81-83). Also available on the World Wide Web.