PhD Scholarships
Cancer Research UK CanTest Studentship
Applications are invited for this Cancer Research UK-funded CanTest 4 year PhD studentship from individuals with a strong academic record who wish to develop a career in primary care cancer research. Awards will normally be taken up in October 2018 but could start in April 2018.
The goal of the Cambridge Primary Care Unit is to reduce the burden of ill health by identifying and targeting the behaviours that lead to chronic disease, by improving early detection of illness, and by improving the delivery of health services in community settings. We aim to achieve this by delivering research and education at the highest international standards of excellence. CanTest is an international collaborative, aiming to develop strategies that explore and accelerate improvement in cancer outcomes nationally and internationally through the transformative implementation in primary care of triaging and testing approaches to support early detection of cancer (www.cantest.org ).
Dr Fiona Walter (Cancer group) and Prof Stephen Sutton (Behavioural Science) will co-supervise the thesis, which will explore the cognitive, behavioural and cultural factors influencing decision-making and informed choice about diagnostic testing strategies for cancer in primary care and their impact on patient safety. It will draw on research exploring determinants of behaviour and decision-making related to the risk and uncertainty of undertaking selected diagnostic strategies in primary care. Our national and international colleagues will provide additional expertise. The student will study a candidate technological, biomarker or imaging test, or a combination of approaches comprising a diagnostic testing strategy.
Applicants must have a first degree in a relevant discipline, and will be expected to complete a PhD during the award period. The academic requirements are at least a 2i honours degree from a UK university or an equivalent standard from an overseas university: a Masters in a relevant subject would be preferred. Students must be defined as “Home” or “EU” for fee purposes to be eligible to apply for this award. Studentship awards include fees and an annual tax-free stipend normally of £16,000.
Enquiries: Dr Fiona Walter ¿ [email protected]
Applications should include:
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A CV including full details of all University courses taken with date, with grades if available.
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The names and contact details of two academic or clinical referees.
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A covering letter (up to 500 words) explaining why you wish to be considered for this particular studentship, what you will bring to the project and listing any relevant research (and clinical) experience to date.
Applications to be sent to Frances Cater, Unit Coordinator, Primary Care Unit – [email protected]
Closing date – 15th December 2017, Interviews 18th December 2017
Please quote reference RH14080 on your application and in any correspondence about this vacancy.
The University values diversity and is committed to equality of opportunity.
The University has a responsibility to ensure that all employees are eligible to live and work in the UK.
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PhD Scholarships
PhD positions at The University of Warwick : Biological Sciences/Synthetic biology (# of pos: 4)
Our group is offering PhD positions for 2018-2019 academic year. These studentships are hosted by The University of Warwick Doctoral Training Centres
Details below
1) PhD project title: Engineering microbial chemical factories to produce renewable and modified biomaterials.
PhD is hosted via MIBT Partnership
Research Area : Synthetic biology, Organocatalysis, Structural biology and enzymology
Link :- https://warwick.ac.uk/fac/cross_fac/mibtp/pgstudy/phd_opportunities/molecularandmetabolicengineering2018/biomaterials
2) PhD project title: Development of novel halogenase enzymes for biopharmaceutical applications.
PhD is hosted via MIBT Partnership
Research Area : Synthetic biology, Organocatalysis, Structural biology and enzymology
Link :- https://warwick.ac.uk/fac/cross_fac/mibtp/pgstudy/phd_opportunities/molecularandmetabolicengineering2018/applications
3) PhD project title: Expanding the genetic lexicon: Developing novel tools for non-natural amino acid incorporation in to therapeutic peptides and proteins.
PhD is hosted via SynBIO DTC
Research Area : Synthetic biology, Organocatalysis, Structural biology and enzymology
Link :- https://www2.warwick.ac.uk/fac/sci/lifesci/study/pgr/studentships/synbiocdt
4) PhD project title: Bioplastics from E. coli
PhD is hosted via SynBIO DTC
Research Area : Synthetic biology, Organocatalysis, Structural biology and enzymology
Link :- https://www2.warwick.ac.uk/fac/sci/lifesci/study/pgr/studentships/synbiocdt
Applications are encouraged from UK, EU and International students.
Please be aware that International (non EU) applicants are not eligible for EPSRC/BBSRC funded studentships.
To be eligible for a full EPSRC/BBSRC award (Tuition fees and Stipend) a student must have:
- Settled status in the UK, meaning they have no restrictions on how long then can stay and
- Been ‘ordinarily resident’ in the UK for 3 years prior to the start of the studentship. This means they must have been normally residing in the UK (apart from temporary or occasional absences) and
- Not been residing in the UK wholly or mainly for the purpose of full-time education. (This does not apply to UK or EU nationals).
To be eligible for an EPSRC/BBSRC tuition fees only award:
- Students from EU countries other than the UK are generally eligible for a fees-only award. To be eligible for a fees-only award, a student must be ordinarily resident in a member state of the EU, in the same way as UK students must be ordinarily resident in the UK.
Interested students with research experience and qualification please contact us directly.
https://warwick.ac.uk/fac/sci/lifesci/people/bmenon/
France Scholarships
PhD position in quantum optimal control theory at the University of Bourgogne
This PhD project aims at applying innovative mathematical tools coming
from optimal control theory to improve theoretical and experimental techniques
in Nuclear Magnetic Resonance (NMR), in Electron Spin Resonance (ESR) and in NV
centers. This approach will allow us to explore and to experimentally reach the
physical limits of the corresponding spin dynamics in presence of typical
experimental imperfections and limitations. A first objective will be to
develop new optimal control algorithms able for an inhomogeneous ensemble of
spins to maximize the signal to noise ratio per unit time of the system. A
general problem is to generalize the Ernst angle solution used in NMR, which is
only valid for a homogeneous spin ensemble. This work will be done in
collaboration with the group of S. Glaser (TUM, Munich, Germany). This approach
will find different applications in NMR and ESR where the sensitivity of the
experiment is a crucial parameter. The student will focus on a specific
experimental setup in ESR used by the group of P. Bertet (CEA, Paris Saclay),
where an important goal is the maximization of the emitted signal of spins
coupled to a microwave resonator. The student will take into account in the
numerical computation specific constraints of this experimental setup. In the
same direction, the student will also use optimal control techniques to design
new CMPG sequences accounting for the coupling between the spins and the
cavity. The same types of control techniques will also be used for manipulating
NV ensembles in collaboration with the group of T. Debuisschert (Thalès,
Paris). This will allow the improvement of the sensitivity of the corresponding
experiments. For a more fundamental point of view, the ESR will investigate the
numerical techniques used to design robust control fields with respect to
experimental imperfections. A first objective will be to understand the
efficiency of these methods and to prove the optimality (this concept will be
to define rigorously) of the control fields. The ESR will mainly study spin
systems but it is clear that the results of this project will not be restricted
to the physical systems investigated and the techniques developed during the
PhD could be applied to other physical systems with similar properties.
Israel Scholarships
Marie Curie Innovative Training Network (ITN) META-CAN – PhD position in Computational biology to…
The Machine Learning for Healthcare and Life Sciences group at IBM Research – Haifa is a partner in the funded Marie Curie Innovative Training Network (ITN) META-CAN. The network is a pan-European interdisciplinary and intersectoral training programme for excellence. It brings young researchers together with world-leading academics, clinicians, and industry personnel to focus on the connections of metabolism, immune response, and cancer.
We are looking for an enthusiastic and highly-motivated early stage researcher (ESR), with a background and experience in computational biology, machine learning and/or statistics and good programming skills (preferably in Python or R). This ESR will study towards a PhD degree and, under our guidance (and in collaboration with the Technion Integrated Cancer Center), will analyze comprehensive omics data to better understand the metabolic adaptations of cancer cells to the central nervous system niche.
The right candidate will enjoy a competitive salary and outstanding work environment.
For more details see http://metacan.eu/ or contact [email protected]
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