ORGANISATION/COMPANYThe University of Warwick
RESEARCH FIELDPhysics › Biophysics
RESEARCHER PROFILERecognised Researcher (R2)
APPLICATION DEADLINE31/08/2019 00:00 - Europe/London
LOCATIONUnited Kingdom › Coventry
TYPE OF CONTRACTTemporary
HOURS PER WEEK36.5
OFFER STARTING DATE02/09/2019
At a glance: The proposal focusses on the mechanisms by which motile microalgae (prominent e.g. within phytoplankton) sense, elaborate and respond to light. We aim to understand how these ecologically and industrially important microorganisms combine motility (phototaxis) and intracellular processes (photosynthesis and photoprotection) to optimise light exposure.
This interdisciplinary project will combine biophysical experiments, involving micromanipulation, optical tweezers and image analysis; and mathematical modelling, using concepts and approaches from statistical mechanics and dynamical systems.
The project, based in the lab of Marco Polin (Physics, U. Warwick), hinges on an exciting new collaboration with Dimitrios Petroutsos (CEA Grenoble), expert in photosynthesis; and Idan Tuval (IMEDEA, Mallorca), expert in biophysical modelling.
More in depth: Photosynthetic microorganisms are fundamental for life on Earth: at the base of major food webs (e.g. in oceans), and contributing about half of the global oxygen production. They are also promising systems to produce complex chemicals and biofuels, with unparalleled conversion rates of solar energy to carbon-rich molecules and negligible pressure on arable land.
Light is essential for these microorganisms, and it plays two roles: i) variations in time and space provide information used by the cell to regulate its biology; ii) its absorption provides energy driving the intracellular mechanism of photosynthesis. To thrive, cells integrate these two functions in ways currently not well understood. Crucially, they need to avoid excess light: as little as ~10% of standard daylight can already lead to serious cellular damage and potentially death. Motile photosynthetic microorganisms avoid excess light in two ways: by detecting light and redirecting their motion (phototaxis; information-role); or as a result of energy absorption through intracellular biochemical responses which lower the amount of light captured (photoprotection; energy- role). Despite several observations pointing strongly at a fundamental link between phototaxis and photosynthesis, these are still mainly studied as separate processes.
In this project we want to fill this gap and understand how motile microalgae combine these responses into a coherent and effective strategy for light management. We will focus on the unicellular green alga Chlamydomonas reinhardtii, an important model system in biology for both motility (its flagella are virtually identical to human cilia found in lungs and brain) and photosynthesis; and a species relevant for biotechnological applications.
For informal enquiries please contact Dr Marco Polin on firstname.lastname@example.org. Pay level will be commensurate to prior experience.
If you have not yet been awarded your PhD but are near submission or have recently submitted your PhD, any offers of employment will be made as Research Assistant on level 5 of the University grade structure (£29,515). Upon successful award of your PhD and evidence of this fact, you will be promoted to Research Fellow on the first point of level 6 of the University grade structure (£30,395 pa).
Required Research Experiences
RESEARCH FIELDPhysics › Biophysics
YEARS OF RESEARCH EXPERIENCE1 - 4
REQUIRED LANGUAGESENGLISH: Excellent
We are seeking for an outstanding candidate with experience within the experimental biophysics/soft matter area. The project will require setup development, data analysis and modelling, therefore an adequate level of programming is required. Familiarity with microfluidics, micromanipulation, optics, image analysis will be an advantage. No previous knowledge of microbial biophysics and/or photosynthesis is required, although it would be regarded as a plus.
You will be an excellent communicator capable of working effectively both independently and as part of a research team. You will possess excellent planning and time management skills to ensure your research objectives are achieved effectively.
The nominal starting date for the position is Sept 2nd, but this can be delayed up to 6 months.
EURAXESS offer ID: 403936
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