Bradley Tebo | Environmental Molecular Sciences Laboratory

Visualizing Manganese Biomineralization by the Mnx Protein Complex within the Exosporium of Mn-oxidizing Bacillus species

Lead Institution

University of Washington

Principal Investigator

Bradley Tebo

Project type

Large-Scale EMSL Research

Microbial production of manganese oxide minerals is a globally important biomineralization process that drives the manganese cycle in the environment. This cycle supports life through the manganese…

Bradley Tebo's Proposal

Lead Institution

University of Washington

Principal Investigator

Bradley Tebo

Project type

Large-Scale EMSL Research

Mn oxides are important mineral phases in a variety of environments and have potential application in solar energy capture and conversion and contaminant remediation technologies. In nature,…

Molecular-level mechanisms of microbial basalt alteration

Lead Institution

University of Washington

Principal Investigator

Bradley Tebo

Project type

Capability Research

Basaltic glass is one of the most reactive components of the ocean crust and the high concentrations of reduced Fe and Mn it contains offers an enormous potential energy source for diverse Fe- and…

Characterization of Iron Sulfide Mineral Phases Associated with the Reductive Sequestration of Technetium

Lead Institution

Oregon Health & Science University

Principal Investigator

Paul Tratnyek

Project type

Large-Scale EMSL Research

Under reducing conditions, TcO4- is readily reduced to TcIV, which forms highly insoluble oxides such as TcO2-nH2O, but (re)oxidation of TcIV oxides can lead to remobilization. Under sulfidogenic…

Mn oxide mineral formation by an expressed bacterial Mn(II,III)-oxidizing multicopper oxidase

Lead Institution

University of Washington

Principal Investigator

Bradley Tebo

Project type

Large-Scale EMSL Research

Microbial Mn(II) oxidation is an important environmental process that links the biogeochemical cycle of Mn with the cycling of C, N, P, and many trace metals and radionuclides. The Mn oxides…

Characterization of an Expressed Bacterial Mn(II,III)-Oxidizing Multicopper Oxidase Complex and its Mn Oxide Products

Lead Institution

University of Washington

Principal Investigator

Bradley Tebo

Project type

Large-Scale EMSL Research

Microbial Mn(II) oxidation is an important environmental process that links the biogeochemical cycle of Mn with the cycling of C, N, P, and many trace metals and radionuclides. Microbes that oxidize…

Collaborative Access Team: Pacific Northwest Cryo-EM Center (PNCC)

Lead Institution

Environmental Molecular Sciences Laboratory

Principal Investigator

James Evans

PNNL will create and operate the Pacific Northwest Center for Cryo-EM (PNCC), a state-of-the-art national center for cryo-electron microscopy (Cryo-EM) that will rapidly and efficiently collect and…

Manganese biomineralization by the bacterial protein complex Mnx

Lead Institution

University of Washington

Principal Investigator

Bradley Tebo

Project type

Large-Scale EMSL Research

Manganese-oxide mineral formation by bacterial oxidation of dissolved Mn(II) is an important process in aquatic and soil environments and is a key part of the global Mn cycle. The Mn bio-oxides…

Structure of the first purified manganese oxidase Mnx

Lead Institution

University of Washington

Principal Investigator

Bradley Tebo

Microbial production of manganese oxide (MnO2) is a globally important biomineralization process. MnO2 is a key component of the Mn cycle, which supports life through the Mn catalytic centers of many…

Structure of the first purified manganese oxidase Mnx

Lead Institution

University of Washington

Principal Investigator

Bradley Tebo

This project aims to obtain high-resolution atomic structure of the first purified bacterial manganese-oxidizing complex, Mnx. This complex, containing the novel multicopper oxidase MnxG enzyme, has…

Projects