The effects of protein crowding in bacterial photosynthetic membranes on the flow of quinone redox species between the photochemical reaction center and the ubiquinolcytochrome c2 oxidoreductase

Membrane invaginations in Rhodobacter Sphaeroides is initiated at curved regions of the cytoplasmic membrane, then forms budded and fully detached spherical Vesicles.

Tucker, Jaimey D.
Siebert, C. Alistair
Escalante Marun, M.
Adams, Peter G.
Olsen, John D.
Otto, Cornelis
Stokes, David L.
Hunter, C. Neil

January 2010

The purple phototrophic bacteria synthesize an extensive system of intracytoplasmic membranes (ICM) ...

A Spatial Model of the Chromatophore Vesicles of Rhodobacter sphaeroides and the Position of the Cytochrome bc1 Complex

Geyer, Tihamér
Helms, Volkhard

August 2006

AbstractThe photosynthetic apparatus of purple bacteria is generally considered a well-studied and u...

Membrane invagination in Rhodobacter sphaeroides is initiated at curved regions of the cytoplasmic membrane, then forms both budded and fully detached spherical vesicles

Tucker, Jaimey D.
Siebert, C. Alistair
Escalante, Maryana
Adams, Peter G.
Olsen, John D.
Otto, Cees
Stokes, David L.
Hunter, C. Neil

January 2010

The purple phototrophic bacteria synthesize an extensive system of intracytoplasmic membranes (ICM) ...

The effects of protein crowding in bacterial photosynthetic membranes on the flow of quinone redox species between the photochemical reaction center and the ubiquinol-cytochrome c2 oxidoreductase.

Woronowicz, Kamil
Sha, Daniel
Frese, Raoul N
Sturgis, James
Nanda, Vikas
Niederman, Robert A

August 2011

International audienceAtomic force microscopy (AFM) of the native architecture of the intracytoplasm...

FRET measurement of cytochrome bc1 and reaction centre complex proximity in live Rhodobacter sphaeroides cells

Vasilev, Cvetelin
Swainsbury, David J. K.
Cartron, Michael L.
Martin, Elizabeth C.
Kumar, Sandip
Hobbs, Jamie K.
Johnson, Matthew P.
Hitchcock, Andrew
Hunter, C. Neil

February 2022

In the model purple phototrophic bacterium Rhodobacter (Rba.) sphaeroides, solar energy is converted...

Integration of energy and electron transfer processes in the photosynthetic membrane of Rhodobacter sphaeroides

Cartron, Michaël L.
Olsen, John D.
Sener, Melih
Jackson, Philip J.
Brindley, Amanda A.
Qian, Pu
Dickman, Mark J.
Leggett, Graham J.
Schulten, Klaus
Neil Hunter, C.

October 2014

AbstractPhotosynthesis converts absorbed solar energy to a protonmotive force, which drives ATP synt...

Investigation of photosynthetic membrane structure using atomic force microscopy

Liu, Lu-Ning
Scheuring, Simon

January 2013

International audiencePhotosynthetic processes, including light capture, electron transfer, and ener...

Atomic Force Microscopy of bacterial photosynthetic systems: A new model for Native Membrane Organization

Bahatyrova, S.

March 2005

The main goal of this thesis was to investigate the supramolecular architecture of a photosynthetic ...

Purple Bacteria: Photosynthetic Reaction Centers

Lancaster, C.

January 2004

Located within photosynthetic membranes, reaction centers (RCs) are defined as the minimal functiona...

Membrane Dynamics in Phototrophic Bacteria.

Mullineaux, CW
Liu, L-N

September 2020

Photosynthetic membranes are typically densely packed with proteins, and this is crucial for their f...

Membrane Dynamics in Phototrophic Bacteria

Mullineaux, Conrad W
Liu, Lu-Ning

January 2020

Photosynthetic membranes are typically densely packed with proteins, and this is crucial for their f...

Structure of the core complex of Blastochloris viridis and of Rhodobacter sphaeroides

Scheuring S.
Busselez J.
Robert B.
Rigaud J.L.
Lévy D.
FRANCIA, FRANCESCO

January 2005

In purple photosynthetic bacteria, two light harvesting complexes (LH), LH2 and LH1, ensure the coll...

Dynamics and Diffusion in Photosynthetic Membranes from Rhodospirillum Photometricum

Scheuring, Simon
Sturgis, James N.

November 2006

AbstractPhotosynthetic organisms drive their metabolism by converting light energy into an electroch...

Dynamics and diffusion in photosynthetic membranes from Rhodospirillum photometricum

Simon Scheuring
James N. Sturgisy

January 2006

ABSTRACT Photosynthetic organisms drive their metabolism by converting light energy into an electroc...

The long-range organization of a native photosynthetic membrane

Frese, R.N.
Siebert, C.A.
Niederman, R.A.
Hunter, C.N.
Otto, C.
van Grondelle, R.

January 2004

Photosynthesis relies on the delicate interplay between a specific set of membrane-bound pigment-pro...

Membrane invaginations in Rhodobacter Sphaeroides is initiated at curved regions of the cytoplasmic membrane, then forms budded and fully detached spherical Vesicles.

Tucker, Jaimey D.
Siebert, C. Alistair
Escalante Marun, M.
Adams, Peter G.
Olsen, John D.
Otto, Cornelis
Stokes, David L.
Hunter, C. Neil

January 2010

The purple phototrophic bacteria synthesize an extensive system of intracytoplasmic membranes (ICM) ...

A Spatial Model of the Chromatophore Vesicles of Rhodobacter sphaeroides and the Position of the Cytochrome bc1 Complex

Geyer, Tihamér
Helms, Volkhard

August 2006

AbstractThe photosynthetic apparatus of purple bacteria is generally considered a well-studied and u...

Membrane invagination in Rhodobacter sphaeroides is initiated at curved regions of the cytoplasmic membrane, then forms both budded and fully detached spherical vesicles

Tucker, Jaimey D.
Siebert, C. Alistair
Escalante, Maryana
Adams, Peter G.
Olsen, John D.
Otto, Cees
Stokes, David L.
Hunter, C. Neil

January 2010

The purple phototrophic bacteria synthesize an extensive system of intracytoplasmic membranes (ICM) ...

The effects of protein crowding in bacterial photosynthetic membranes on the flow of quinone redox species between the photochemical reaction center and the ubiquinol-cytochrome c2 oxidoreductase.

Woronowicz, Kamil
Sha, Daniel
Frese, Raoul N
Sturgis, James
Nanda, Vikas
Niederman, Robert A

August 2011

International audienceAtomic force microscopy (AFM) of the native architecture of the intracytoplasm...

FRET measurement of cytochrome bc1 and reaction centre complex proximity in live Rhodobacter sphaeroides cells

Vasilev, Cvetelin
Swainsbury, David J. K.
Cartron, Michael L.
Martin, Elizabeth C.
Kumar, Sandip
Hobbs, Jamie K.
Johnson, Matthew P.
Hitchcock, Andrew
Hunter, C. Neil

February 2022

In the model purple phototrophic bacterium Rhodobacter (Rba.) sphaeroides, solar energy is converted...

Integration of energy and electron transfer processes in the photosynthetic membrane of Rhodobacter sphaeroides

Cartron, Michaël L.
Olsen, John D.
Sener, Melih
Jackson, Philip J.
Brindley, Amanda A.
Qian, Pu
Dickman, Mark J.
Leggett, Graham J.
Schulten, Klaus
Neil Hunter, C.

October 2014

AbstractPhotosynthesis converts absorbed solar energy to a protonmotive force, which drives ATP synt...

Investigation of photosynthetic membrane structure using atomic force microscopy

Liu, Lu-Ning
Scheuring, Simon

January 2013

International audiencePhotosynthetic processes, including light capture, electron transfer, and ener...

Atomic Force Microscopy of bacterial photosynthetic systems: A new model for Native Membrane Organization

Bahatyrova, S.

March 2005

The main goal of this thesis was to investigate the supramolecular architecture of a photosynthetic ...

Purple Bacteria: Photosynthetic Reaction Centers

Lancaster, C.

January 2004

Located within photosynthetic membranes, reaction centers (RCs) are defined as the minimal functiona...

Membrane Dynamics in Phototrophic Bacteria.

Mullineaux, CW
Liu, L-N

September 2020

Photosynthetic membranes are typically densely packed with proteins, and this is crucial for their f...

Membrane Dynamics in Phototrophic Bacteria

Mullineaux, Conrad W
Liu, Lu-Ning

January 2020

Photosynthetic membranes are typically densely packed with proteins, and this is crucial for their f...

Structure of the core complex of Blastochloris viridis and of Rhodobacter sphaeroides

Scheuring S.
Busselez J.
Robert B.
Rigaud J.L.
Lévy D.
FRANCIA, FRANCESCO

January 2005

In purple photosynthetic bacteria, two light harvesting complexes (LH), LH2 and LH1, ensure the coll...

Dynamics and Diffusion in Photosynthetic Membranes from Rhodospirillum Photometricum

Scheuring, Simon
Sturgis, James N.

November 2006

AbstractPhotosynthetic organisms drive their metabolism by converting light energy into an electroch...

Dynamics and diffusion in photosynthetic membranes from Rhodospirillum photometricum

Simon Scheuring
James N. Sturgisy

January 2006

ABSTRACT Photosynthetic organisms drive their metabolism by converting light energy into an electroc...

The long-range organization of a native photosynthetic membrane

Frese, R.N.
Siebert, C.A.
Niederman, R.A.
Hunter, C.N.
Otto, C.
van Grondelle, R.

January 2004

Photosynthesis relies on the delicate interplay between a specific set of membrane-bound pigment-pro...

Membrane invaginations in Rhodobacter Sphaeroides is initiated at curved regions of the cytoplasmic membrane, then forms budded and fully detached spherical Vesicles.

Tucker, Jaimey D.
Siebert, C. Alistair
Escalante Marun, M.
Adams, Peter G.
Olsen, John D.
Otto, Cornelis
Stokes, David L.
Hunter, C. Neil

January 2010

The purple phototrophic bacteria synthesize an extensive system of intracytoplasmic membranes (ICM) ...

A Spatial Model of the Chromatophore Vesicles of Rhodobacter sphaeroides and the Position of the Cytochrome bc1 Complex

Geyer, Tihamér
Helms, Volkhard

August 2006

AbstractThe photosynthetic apparatus of purple bacteria is generally considered a well-studied and u...

Membrane invagination in Rhodobacter sphaeroides is initiated at curved regions of the cytoplasmic membrane, then forms both budded and fully detached spherical vesicles

Tucker, Jaimey D.
Siebert, C. Alistair
Escalante, Maryana
Adams, Peter G.
Olsen, John D.
Otto, Cees
Stokes, David L.
Hunter, C. Neil

January 2010

The purple phototrophic bacteria synthesize an extensive system of intracytoplasmic membranes (ICM) ...

The effects of protein crowding in bacterial photosynthetic membranes on the flow of quinone redox species between the photochemical reaction center and the ubiquinolcytochrome c2 oxidoreductase

Abstract

Extracted data

The effects of protein crowding in bacterial photosynthetic membranes on the flow of quinone redox species between the photochemical reaction center and the ubiquinolcytochrome c2 oxidoreductase

Abstract

Extracted data

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