Thomas DiChristina

Thrust Area 3:Mutagenesis and Functional Characterization of Shewanella oneidensis Genes Involved in Fe(III) and Mn(IV) Oxide Reduction (LDRD #3)

Lead Institution

Environmental Molecular Sciences Laboratory

Principal Investigator

Alex Beliaev

Project type

Grand Challenge

Although microbial metal reduction has been extensively studied from standpoints of ecology, physiology, genetics and biochemistry, little is known about the molecular mechanisms and pathways of…

The Secretome of Metal-Reducing Shewanella oneidensis

Lead Institution

Georgia Institute of Technology

Principal Investigator

Thomas DiChristina

Project type

Large-Scale EMSL Research

The metabolic reactions catalyzed by metal- and radionuclide-reducing bacteria greatly influence the geochemistry of natural and contaminated environments. One of the more remarkable activities…

Sensing External Metals by Outer Membrane Beta-Barrel Proteins

Lead Institution

Georgia Institute of Technology

Principal Investigator

Thomas DiChristina

Project type

FICUS Research

Metal-reducing bacteria drive a variety of environmentally important processes, including the biogeochemical cycling of carbon and metals, the bioremediation of radionuclides and organohalides, and…

Integration of Omics into a New Comprehensive Rate Law for Competitive Terminal Electron-Accepting Processes in Reactive Transport Models: Application to N, Fe, S, and Contaminant Transformations in Stream and Wetland Sediments

Lead Institution

Georgia Institute of Technology

Principal Investigator

Frank Stewart

Project type

Exploratory Research

We recently received notification that our DOE-BER proposal (ID: 0000231737, Program Manager: Paul Bayer) was funded to define a new comprehensive rate law for metabolic processes in freshwater…

Alternative Technologies for In Situ Bioremediation of Radioactive Iodine: Microbial Reductive Methylation of Iodate to Iodocarbon Gas

Lead Institution

Georgia Institute of Technology

Principal Investigator

Thomas DiChristina

Project type

FICUS Research

The reductive methylation of water soluble iodate (IO3-) to volatile iodine (iodocarbon) gas forms the basis of alternative remediation technologies in iodine-contaminated subsurface environments…

EMSL Science Overview

Thomas DiChristina

Projects

Thrust Area 3:Mutagenesis and Functional Characterization of Shewanella oneidensis Genes Involved in Fe(III) and Mn(IV) Oxide Reduction (LDRD #3)

The Secretome of Metal-Reducing Shewanella oneidensis

Sensing External Metals by Outer Membrane Beta-Barrel Proteins

Integration of Omics into a New Comprehensive Rate Law for Competitive Terminal Electron-Accepting Processes in Reactive Transport Models: Application to N, Fe, S, and Contaminant Transformations in Stream and Wetland Sediments

Alternative Technologies for In Situ Bioremediation of Radioactive Iodine: Microbial Reductive Methylation of Iodate to Iodocarbon Gas