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Description
In my thesis, I characterize multi-nuclear manganese cofactors in modified reaction
centers from the bacterium Rhodobacter sphaeroides. I characterized interactions
between a variety of secondary electron donors and modified reaction centers. In Chapter
1, I provide the research aims, background, and a summary of the chapters in my thesis.
In Chapter 2 and Chapter 3, I present my work with artificial four-helix bundles as
secondary electron donors to modified bacterial reaction centers. In Chapter 2, I
characterize the binding and energetics of the P1 Mn-protein, as a secondary electron
donor to modified reaction centers. In Chapter 3, I present the activity of a suite of four
helix bundles behaving as secondary electron donors to modified reaction centers. In
Chapter 4, I characterize a suite of modified reaction centers designed to bind and oxidize
manganese. I present work that characterizes bound manganese oxides as secondary
electron donors to the oxidized bacteriochlorophyll dimer in modified reaction centers. In
Chapter 5, I present my conclusions with a short description of future work in
characterizing multiple electron transfers from a multi-nuclear manganese cofactor in
modified reaction centers. To conclude, my thesis presents a characterization of a variety
of secondary electron donors to modified reaction centers that establish the feasibility to
characterize multiple turnovers from a multi-nuclear manganese cofactor.
centers from the bacterium Rhodobacter sphaeroides. I characterized interactions
between a variety of secondary electron donors and modified reaction centers. In Chapter
1, I provide the research aims, background, and a summary of the chapters in my thesis.
In Chapter 2 and Chapter 3, I present my work with artificial four-helix bundles as
secondary electron donors to modified bacterial reaction centers. In Chapter 2, I
characterize the binding and energetics of the P1 Mn-protein, as a secondary electron
donor to modified reaction centers. In Chapter 3, I present the activity of a suite of four
helix bundles behaving as secondary electron donors to modified reaction centers. In
Chapter 4, I characterize a suite of modified reaction centers designed to bind and oxidize
manganese. I present work that characterizes bound manganese oxides as secondary
electron donors to the oxidized bacteriochlorophyll dimer in modified reaction centers. In
Chapter 5, I present my conclusions with a short description of future work in
characterizing multiple electron transfers from a multi-nuclear manganese cofactor in
modified reaction centers. To conclude, my thesis presents a characterization of a variety
of secondary electron donors to modified reaction centers that establish the feasibility to
characterize multiple turnovers from a multi-nuclear manganese cofactor.
ContributorsEspiritu, Eduardo (Author) / Allen, James P. (Thesis advisor) / Jones, Anne K (Committee member) / Redding, Kevin (Committee member) / Arizona State University (Publisher)
Created2019