Spatial dynamics of electron transport
Lead Research Organisation:
Imperial College London
Department Name: Life Sciences
Abstract
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Technical Summary
The thylakoid membranes of cyanobacteria contain both photosynthetic and respiratory electron transport complexes. This allows the possibility of multiple electron transport routes, including routes in which electrons are transferred from respiratory donors to photosynthetic acceptors, and vice versa. The routes taken by electrons are crucial for cellular physiology, since they control both the redox balance of the cell and its main means of energy conversion. The question we wish to address in this proposal is what controls the probability of the different possible electron pathways. The problem in cyanobacteria is a specific example of a more general problem in bioenergetic membranes. Our current results strongly suggest that routes of electron transport in the cyanobacterium Synechococcus 7942 (and in other organisms) are controlled by lateral heterogeneity in the membrane on the sub-micron scale. This heterogeneity is on a large enough scale to be visualisable by GFP-tagging and fluorescence microscopy. In this project we will further define the composition and structure of zones in the Synechococcus membrane in which respiratory complexes are concentrated, initially by further fluorescent tagging and confocal microscopy, then using biochemical approaches and electron microscopy. We will use spectroscopic techniques to determine the effects that membrane heterogeneity has on electron transport pathways. We will investigate the signal transduction mechanisms that regulate the lateral distribution of complexes, in terms of the initial triggering signals and in terms of the downstream factors that lead to re-organisation of the membrane. We will combine this with an investigation of the dynamic behaviour of quinone electron carriers in bioenergetic membranes, in order to get a complete picture of the way in which electron transport pathways in an intact bioenergetic membrane relate to the mobility and distribution of the electron carriers.
Planned Impact
Please refer to lead application
Organisations
People |
ORCID iD |
| Peter Nixon (Principal Investigator) |
Publications
Sacharz J
(2015)
Sub-cellular location of FtsH proteases in the cyanobacterium Synechocystis sp. PCC 6803 suggests localised PSII repair zones in the thylakoid membranes.
in Molecular microbiology
| Description | Cyanobacteria are a widespread and ecologically crucial class of photosynthetic bacteria. Our research concerned the mechanisms by which cyanobacteria control the ways in which they use light energy to drive an electrical current in their membranes, and specifically ways in which they may switch electrons to different destinations by relocating protein complexes in the membrane. Our original insights into this question came from fluorescence microscopy, which provides information only at low spatial resolution. We developed other approaches to complement this technique, including a method to isolate specific membrane protein complexes together with their nearest neighbours. This work was part of a collaborative project led by Conrad Mullineaux (Queen Mary, University of London) and Luning Liu (now at University of Liverpool) and funded through BB/J016985/1. The Nixon group at Imperial College contributed to this task by isolating protein complexes from cyanobacterial membranes using a novel immunopurification approach and characterising interactions using protein cross-linking combined with mass spectrometry and immunoblotting. In this way, the protein composition of the hydrophilic sub-complex of the respiratory NDH-1 complex was clarified. In a related side-project (not part of our original objectives) the Nixon group provided the protein biochemistry expertise for a study investigating the location of the FtsH proteases in cyanobacteria. |
| Exploitation Route | Improved understanding of the interaction of protein complexes in the membrane |
| Sectors | Agriculture, Food and Drink,Energy |
| Description | Algae Printing, 'Power of Plants', Latitude Festival, Suffolk, England, UK |
| Form Of Engagement Activity | Participation in an activity, workshop or similar |
| Part Of Official Scheme? | No |
| Geographic Reach | Regional |
| Primary Audience | Public/other audiences |
| Results and Impact | Marin Sawa, the designer in residence in my research group, presented an exhibit demonstrating the potential use of printing in algal biotechnology. The exhibition informed the audience about the latest developments in this area, specifically the production of electricity using light, and highlighted the relevance and breadth of current photosynthesis research. |
| Year(s) Of Engagement Activity | 2016 |
| URL | https://www.latitudefestival.com/ |
| Description | Algaerium Bioprinter and Algae Printing, STARTS Prize '17 Exhibition, Ars Electronica Festival, Post City, Linz, Austria: Marin Sawa |
| Form Of Engagement Activity | Participation in an activity, workshop or similar |
| Part Of Official Scheme? | No |
| Geographic Reach | International |
| Primary Audience | Public/other audiences |
| Results and Impact | Marin Sawa, designer in residence in the Nixon group, presented her work on the use of the algaerium printer to print algae. The exhibit alerted the audience to current biotechnology uses of algae and the importance of photosynthesis in general. The activity was also publicized in the Phyconet newsletter in September 2017 https://mailchi.mp/cb67160f97d6/w7vlidhdnp-1081961?e=e8c903b6d7 |
| Year(s) Of Engagement Activity | 2017 |
| URL | https://starts-prize.aec.at/en/algae-printing/ |
| Description | Algaerium Bioprinter and Algae Printing, STARTS Prize '17 Exhibition, the BOZAR Electronic Art Festival, Centre for Fine Arts, Brussels, Belgium: Marin Sawa |
| Form Of Engagement Activity | Participation in an activity, workshop or similar |
| Part Of Official Scheme? | No |
| Geographic Reach | International |
| Primary Audience | Public/other audiences |
| Results and Impact | Marin Sawa, designer in residence, presented her work on algae printing at an International Arts Festival. The work highlights the biotechnology applications of algae and cyanobacteria and the importance of photosynthesis in general. |
| Year(s) Of Engagement Activity | 2017 |
| URL | https://starts-prize.aec.at/en/algae-printing/ |
| Description | Annual debate at the Linnean Society of London, Central London, on 'Plant Biology and the Future' |
| Form Of Engagement Activity | A talk or presentation |
| Part Of Official Scheme? | No |
| Geographic Reach | Local |
| Primary Audience | Public/other audiences |
| Results and Impact | Gave short presentation about my research with emphasis on the potential impact for society in terms of breeding better crops and developing solar biorefineries for biotechnology applications. Member of panel that debated the future of plant science. |
| Year(s) Of Engagement Activity | 2019 |
| URL | https://www.linnean.org/meetings-and-events/events/annual-debate-the-future-of-plant-science |
| Description | Co-organised a Royal Society Discussion Meeting entitled 'Enhancing photosynthesis in crop plants: targets for improvement' |
| Form Of Engagement Activity | Participation in an activity, workshop or similar |
| Part Of Official Scheme? | No |
| Geographic Reach | International |
| Primary Audience | Professional Practitioners |
| Results and Impact | Two-day discussion meeting containing lectures from experts in photosynthesis and crop breeding. Helped publicise to industry and the general public/media the fundamental work being done by researchers studying photosynthesis and its potential impact. |
| Year(s) Of Engagement Activity | 2016 |
| URL | https://royalsociety.org/science-events-and-lectures/2016/10/enhancing-photosynthesis/ |
| Description | Green Great Britain Week, Imperial Lates |
| Form Of Engagement Activity | Participation in an activity, workshop or similar |
| Part Of Official Scheme? | No |
| Geographic Reach | Local |
| Primary Audience | Public/other audiences |
| Results and Impact | Exhibit on the 'solar bio-battery', a printed biophotovoltaic cell consisting of cyanobacteria grown on an electrode which converts sunlight into an electric current |
| Year(s) Of Engagement Activity | 2018 |
| URL | https://www.imperial.ac.uk/news/188694/imperial-lates-launches-with-evening-greener/ |