Sorry, the application window for this position is now closed.
Other Vacancies

Postdoctoral Researcher (Osbourn Lab)

Applications are invited for a Postdoctoral Researcher to work on a collaborative project between the laboratories of Professor Anne Osbourn (John Innes Centre) and Dr Yang Bai (Institute of Genetics and Developmental Biology, Beijing).

The successful candidate will be based at the John Innes Centre but will also visit Dr Bai’s lab at IGDB to carry out key aspects of this work relating to microbiome analysis.

This project is funded by the John Innes Centre – Chinese Academy of Sciences Centre of Excellence in Plant and Microbial Science Alliance (CEPAMS).

The role

Building on recently published work from the Osbourn and Bai labs (‘A specialized metabolic network selectively modulates Arabidopsis root microbiota’ Science 10 May 2019:Vol. 364, Issue 6440, eaau6389), the successful candidate will investigate the impact of the environment on production of host metabolites that sculpt root microbial communities. Specifically, they will:

  1. Use available in silico transcriptome resources to investigate the expression of Arabidopsis biosynthetic gene clusters in roots in response to different abiotic and biotic stresses and verify the effects of different environmental conditions on gene expression experimentally by qPCR.  The impact of different environmental stresses on root microbial communities in wild type Arabidopsis will be established by root microbiome sequencing. The impact of mutation/overexpression of triterpene pathway genes on root microbiota establishment and plant fitness under different environmental conditions will then be investigated
  2. Carry out in vitro tests of the effects of purified Arabidopsis root triterpenes on the growth of representative bacterial strains cultured from the Arabidopsis soil microbiota and evaluate the effects of different microbial strains on plant growth and development
  3. Investigate the impact of different triterpenes (avenacins) on root microbiome establishment in oat using a suite of available thoroughly characterised avenacin pathway mutants. These experiments will reveal the role of the avenacin pathway in regulating oat root microbiota and enable comparisons to be made with findings for Arabidopsis

The ideal candidate

The post holder will work independently and ensure research and record keeping is carried out in accordance with good practice, Scientific Integrity and in compliance with local policies and any legal requirements.

The successful applicant will have a PhD in plant biology or microbiology and extensive experience of plant and/or microbial genetics and molecular biology. Experience of plant stress biology, and/or microbiome analysis are desirable.  Excellent communication and interpersonal skills are essential.

Additional information

Salary on appointment will be within the range £31,250 to £38,100 per annum depending on qualifications and experience.  This is a full time post available until 31 March 2021.

Further information and details of how to apply can be found here or contact the Human Resources team on 01603 450462 or  quoting reference 1003704.  Click here to find out more about working at the John Innes Centre.

We are an equal opportunities employer, actively supporting inclusivity and diversity.  As a Disability Confident organisation, we guarantee to offer an interview to all disabled applicants who meet the essential criteria for this vacancy. The John Innes Centre is also proud to hold a Gold Award from Athena SWAN and is a member of Stonewall’s Diversity Champions programme.

The closing date for applications will be 27 June 2019.  

The John Innes Centre is a registered charity (No. 223852) grant-aided by the Biotechnology and Biological Sciences Research Council and is an Equal Opportunities Employer.

More Vacancies

  • Cell and Developmental Biology

    Research Assistant (Dean Group)

    We're looking for a Research Assistant to join the Professor Dame Caroline Dean Group to undertake plant transformation, identification of defined transgenic lines, crossing lines together, Q-RT-PCR analysis of FLC silencing in those lines and microscopy studying GFP puncta in nuclei

    Find out more