Call for Ph.D. Application: An omics-based approach to identifying novel biocatalysts and metabolites

Bacterial Spore-Based Hygromorphs: A Novel Active Material with Potential for Architectural Applications
April 5, 2021
Call for Abstracts – Responsible biotechnologies and biodesign for the built environment – Deadline 23rd April 2021
April 12, 2021

Join us! We are pleased to announce an open PhD position!

We are seeking a highly motivated Researcher applying an omics-based approach to identifying novel biocatalysts and metabolites.

It is a 4-year fully funded BBSRC studentship in collaboration with Prozomix in the field of Biotechnology. Please see the requirements regarding Home Student Status.

Application Deadline: 28th April 2021

Start Date: 1st September 2021

About the Project

The activity of many enzymes expressed recombinantly in Escherichia coli cannot be determined using standard biochemical assays, as often the substrates that these enzymes are tested against are not relevant, or the products produced are not detectable. However, today the biochemical footprints of such unknown enzyme activities can be revealed via analysis of the metabolomes of the recombinant E. coli clones employed, using high-resolution mass spectrometry. 

This project aims to take advantage of this phenomenon to expedite the identification of novel biocatalysts and metabolites, and ultimately over-produced metabolites as potential high-value products. The project will be based in the new labs of the Hub for Biotechnology in the Built Environment (www.bbe.ac.uk) at Northumbria University, Newcastle upon Tyne, and will have access to its well-resourced Multi-omics Lab, including the recently commissioned state-of-the-art Thermo Scientific ID-X Tribrid mass-spectrometer. 

Prozomix, the industrial partner, have the largest number of diverse/native “biocatalysis enzyme panels” available globally. The enzymes in these panels are all recombinant and take the form of freeze-dried cell free extracts of the respective E. coli expression clones. These maximum diversity biocatalysis enzyme panels will therefore provide us with an increased chance of identifying novel biocatalysts and metabolites. 

The project will use high-resolution mass-spectrometry coupled to liquid chromatography to identify and characterise all possible metabolites. Metabolic engineering approaches will then be used to over-produce any novel metabolites.

This is a 4-year fully funded BBSRC studentship in collaboration with Prozomix, which is based in Haltwhistle, only a short (< 1 hour) train/car journey from Newcastle. The length of time spent at Prozomix, across the project, will be at least 12 months. The student will join a cohort of students enrolled on the Industrial Biotechnology Innovation Centre (IBioIC) Collaborative Training Partnership (CTP) (https://www.ibioicctp.com) and will benefit from the wide range of additional training opportunities this provides.  

Full information available at:

https://www.findaphd.com/phds/project/an-omics-based-approach-to-identifying-novel-biocatalysts-and-metabolites-ref-bbsrc21-hls-app-black/?p131182

For informal enquiries, please contact Prof Gary Black (gary.black@northumbria.ac.uk