Difference between revisions of "Positions in yeast labs"
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=='''PhD student in Molecular Biology/Systems Biology (Marie Curie Early Stage Researcher)at the University of Gothenburg, Sweden'''== | =='''PhD student in Molecular Biology/Systems Biology (Marie Curie Early Stage Researcher)at the University of Gothenburg, Sweden'''== |
Revision as of 06:17, 28 November 2011
Contents
- 1 PhD student in Molecular Biology/Systems Biology (Marie Curie Early Stage Researcher)at the University of Gothenburg, Sweden
- 2 Postdoctoral position to study Ty1 retrotransposition at the University of Georgia
- 3 Yeast Systems Biology Position at Virginia Tech (Research Associate or Sr Research Associate)
- 4 Postdoctoral grants at the Max Planck Institute for Evolutionary Biology, Plön, Germany
- 5 Postdoctoral position
- 6 Postdoctoral position - Laboratory of Cell Physics - Strasbourg, France
- 7 Yeast quantitative genetics post-doctoral positions at Duke University Medical Center
PhD student in Molecular Biology/Systems Biology (Marie Curie Early Stage Researcher)at the University of Gothenburg, Sweden
A PhD student position in Molecular Biology/Systems Biology is available in the lab of Prof. Stefan Hohmann, Dept of Cell and Molecular Biology, University of Gothenburg, Sweden.
The research project “Experimental investigation of the yeast Hxk2/Snf1/Mig1 network” aims to understand the dynamic control of the Hxk2/Snf1/Mig1 glucose signalling pathway employing single cell technology developed in the ISOLATE project. Here the experimental platform generated in the project will be optimized, especially the formation of cell arrays of synchronized cells as well as image analysis. Using in parallel Mig1 and Msn2 reporters, response thresholds under different glucose levels will be establish and effects on cell-to-cell variability and bistability will be determined.
Requested Background(advantageous but not required): Yeast biology, yeast genetics, glucose signalling, use of microfluidic devices, microscopy, image analysis, application of nano-sensor technology, ‘systems’ thinking.
The Marie Curie project ISOLATE is a collaborative research and training network between eight partners, incl. in different European countries. The PhD students and postdocs in the project will perform top-notch research and will additionally benefit from an excellent training network offered by the project partners. Research stays during the PhD projects in other partners’ labs are strongly encouraged. Primarily recruitment of researchers from EC Member States and associated countries, but also open to researchers from third countries. Researchers are normally required to move from one country to another when taking up the appointment.
Please send an application including (1) a max. one-page cover letter containing a justification why this position was chosen as well as a career vision statement, (2) a complete CV with details on education, previous research activities and a list of publications (if any,)(3) a copy of the passport or ID with picture, (4) two letters of recommendation, to maria.enge@gu.se (Project Manager in Prof. Hohmann's group).
Postdoctoral position to study Ty1 retrotransposition at the University of Georgia
A postdoctoral position is available in the lab of David J. Garfinkel, Department of Biochemistry and Molecular Biology, University of Georgia, Athens GA to work on the retrovirus-like transposon Ty1 of Saccharomyces. Specifically, we are investigating a new form of RNA-interference based on Ty1 antisense RNAs that acts posttranslationally and targets Ty1 proteins in the absence of the conserved RNAi pathways.
Experience in molecular genetics, protein/nucleic acid interactions or cytology would be helpful.
Also see our website for further information [1]
Please send resume or inquiries to:
David J. Garfinkel
Department of Biochemistry and Molecular Biology
A130 Life Sciences
120 Green St.
University of Georgia
Athens, GA 30622
tel: 706-542-9403
djgarf@bmb.uga.edu
Yeast Systems Biology Position at Virginia Tech (Research Associate or Sr Research Associate)
The Synthetic Biology group at Virginia Bioinformatics Institute (VBI) is involved in two collaborative research projects focused on the development of mathematical models of gene-protein regulatory networks controlling cell growth and division. Temporal organization of the budding yeast cell cycle has been studied from two vantage points: bottom-up models emphasize a protein regulatory network centered around cyclin-dependent protein kinases, whereas top-down models focus on a gene regulatory network governed by interrelated transcription factors. The first project is focused on unifying these two perspectives. The second project is focused on the development of stochastic models of the regulatory network controlling the cell cycle. Both projects are performed in close collaboration with experts in computer science, data mining, bioinformatics, and mathematical modeling. The successful candidate will be expected to contribute significantly to these two projects by being responsible for designing and performing experiments used to validate model predictions. These experiments will involve the development of a new collection of cell cycle mutants and their quantitative characterization by time-lapse microscopy. In addition, the successful candidate will be expected to prepare the results for publication and presentation, to help supervise graduate and undergraduate students, and to contribute to grant proposals.
Dependent on the qualifications of the successful candidate, the position will hold the research faculty rank of either Research Associate or Senior Research Associate.
Go to the position description for additional information and for submitting applications.
More information about our team can be found by visiting:
Postdoctoral grants at the Max Planck Institute for Evolutionary Biology, Plön, Germany
Post-doctoral grants are available for ambitious, motivated scientists to join Experimental Evolution Research Group. We can provide excellent research funding and support for projects that build on or complement our existing program. Positions are funded by the Max Planck Society for 2 years initially.
We use Saccharomyces yeasts as model organisms for evolution and ecology. Saccharomyces cerevisiae is probably the best known and most tractable model organism used in biology, but its life outside the laboratory is poorly understood. We study the evolution of various interesting yeast traits using both laboratory experiments and observations of wild yeast. For a primer on yeast evolutionary biology, and to understand the motivation for our research please read Greig, D. & Leu, J-Y. (2009) “Natural history of budding yeast” Curr. Biol. 19:R886-890. For our current work, please see our lab web page
The Max Planck Institute for Evolutionary Biology offers outstanding infrastructure and facilities, and is attractively located in Northern Germany, in a lake district near the Baltic coast. It is well connected by train to the university towns of Lübeck and Kiel, and Hamburg is the nearest major airport.
Applicants must have a PhD and at least one peer-reviewed publication in the field of evolution, ecology, or yeast genetics. Applicants should prepare a short (<500 word) research proposal, a CV, and contact details for three academic referees. They should combine these into a single PDF file and send it by email to Duncan Greig (d.greig@evolbio.mpg.de). Informal enquiries can be made to any member of the Research Group. Applications will be considered until suitable candidates are found. September 2011
Postdoctoral position
SEPTEMBER 2011: A postdoctoral position is available in the laboratory of Claudio Joazeiro, Department of Cell Biology, The Scripps Research Institute (San Diego, California).
Research in the laboratory addresses the function of E3 ubiquitin ligases in biology and disease.
The position available is to elucidate the functions and mechanisms of the E3 ligase LISTERIN. We had previously reported on a new mouse model of neurodegeneration caused by mutation of Listerin/Ltn1, a novel E3 (Chu et al. 2009). Homozygous mutant mice exhibit profound early-onset and progressive neurological and motor dysfunction. The focus of our most recent work has been on elucidating this E3’s critical biological role(s) and determining how defects in its function lead to the disease. Listerin/Ltn1 is conserved in all eukaryotes, so we have taken advantage of budding yeast and found that the E3 is ribosome-associated and functions in the quality control of a specific subset of aberrant, nascent proteins (Bengtson & Joazeiro 2010). Currently, we undertake biochemistry, yeast genetics, mammalian tissue culture and genomic approaches to continue our characterization of Listerin/Ltn1, and are positioned to readily test the relevance of the discoveries we make for neurodegeneration using the mouse model. There are opportunities for studies along any of the above research lines, depending on the background and interests of the applicant.
Selected references:
- Bengtson MH & Joazeiro CA. 2010. Role of a ribosome-associated E3 ubiquitin ligase in protein quality control. Nature 467:470-3.
- Deshaies RJ & Joazeiro CA. 2009. RING domain E3 ubiquitin ligases. Annu Rev Biochem. 78:399-434.
- Chu J et al. 2009. A mouse forward genetics screen identifies LISTERIN as an E3 ubiquitin ligase involved in neurodegeneration. PNAS 106:2097-103.
The candidate should be independent, hard working, proactive and productive, and should have strong conceptual and experimental background in biochemistry and molecular biology.
Please send CV, a 1-page statement of current and future research interests, and the names and contact information of three references to:
Claudio Joazeiro
c/o Miriam Berba (Email: mirberba@scripps.edu)
The Scripps Research Institute, CB-163
10550 N Torrey Pines Rd
La Jolla, CA 92037 USA
Postdoctoral position - Laboratory of Cell Physics - Strasbourg, France
Postdoctoral position is available in the Laboratory of Cell Physics, ISIS/IGBMC, Strasbourg, France. The project will focus on the dynamics of the cytokinetic ring in the fission yeast S. pombe. The roles of the Rho GTPase, actin polymerisation, and myosin will be studied. The work will involve genetics, cell biology, microscopy, microfabrication and microfluidics; for more information, send a CV and contact information of referees to Dr. Daniel Riveline (riveline@unistra.fr)
Yeast quantitative genetics post-doctoral positions at Duke University Medical Center
Positions are available for post-docs to work on a recently NIH funded grant “High throughput S. cerevisiae HAM, GWA & QT/QTL architecture resource”. Our understanding of quantitative traits, which includes pharmacogenetic variations in human drug efficacy and side effects, is poor. Improving our understanding of quantitative traits and of pharmacogenetics is aided by tractable model systems, such as Saccharomyces cerevisiae. In this study, we develop a novel S. cerevisiae genetic resource population for high throughput haploid association mapping (HAM) and genome wide association (GWA).
We will use the high quality genome sequences of 96 S. cerevisiae strains to generate a novel genetic resource population that we will use to perform high throughput determination of quantitative trait (QT) and quantitative trait loci (QTL) architecture. Start dates are open. Candidates should have recently received their Ph.D. (0 to – at most – 4 years) and should have expertise in yeast genetics/molecular biology and/or quantitative/population genetics. Candidates should email their curriculum vitae (pdf), including the names and contact information for three references, to John McCusker at mccus001@mc.duke.edu.
We are also looking a bioinformatician to join the outstanding team of fungal researchers at Duke University in a position in comparative yeast genomics on an NIH funded project. This project will involve working with the groups of Drs. John McCusker, Fred Dietrich, and Paul Magwene. We are looking for an individual with either a PhD or a MS degree with a strong background in computer science, bioinformatics, and genetics.
The project involves assembly and annotation of complete Saccharomyces cerevisiae genome sequences from next generation sequence data. This project is both computationally challenging, as well as requiring in-depth knowledge of the organism. Good programming skills and project management skills as well bioinformatics skills are necessary.
Candidates should send their CV, including the names and contact information for three references, to Fred Dietrich (fred.dietrich@duke.edu)