Genomic, Transcriptomic and Metabolomic influences on growth and nutritional tolerance very preterm infants at University of Southampton

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Genomic, Transcriptomic and Metabolomic influences on growth and nutritional tolerance very preterm infants at University of Southampton

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[ad_1] Project Title:  Genomic, Transcriptomic and Metabolomic influences on growth and nutritional tolerance very preterm infants Lea

PhD Studentship in Mapping the LARP1/1B interactome in cancer at University of Oxford
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Lecturer Physiotherapy (Practice based and Simulation) at Queen Margaret University, Edinburgh

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Project Title: 

Genomic, Transcriptomic and Metabolomic influences on growth and nutritional tolerance very preterm infants

Lead Institute / Faculty: Medicine

Main Supervisor: Dr Mark Johnson

Other members of the supervisory team: Professor Sarah Ennis

Start date:   25/09/2023

Project description:

This PhD studentship will explore the metabolomic, genomic and transcriptomic influences on nutritional tolerance, metabolic adaptation and growth in very preterm infants (born

Infants born very preterm are at risk of significant morbidities. Poor growth in these infants has been associated with adverse neurodevelopment, and increased risk of non-communicable disease in adulthood, such as cardiovascular disease. Achieving adequate nutrient intakes in this group is challenging due to issues with metabolic tolerance of nutrients, including glucose and lipid. Currently, little is known about how a preterm infant’s metabolic system transitions from in-utero to ex-utero following preterm birth. Understanding this process better may illuminate targets for personalised nutritional interventions to support healthy metabolic maturation, optimal growth and outcomes.

The PhD student will join the neonatal nutrition research team as part of the NIHR Southampton Biomedical Research Centre, which has an established track record in neonatal nutrition and metabolism research, and who have published widely in the field and contributed to UK and European guidance. The studentship will utilise over 300 existing urine and blood samples collected longitudinally on over 30 infants and build on this sample set, collecting serial samples for metabolomic, genomic and transcriptomic analysis from a further 50 infants. This project will involve analysing these samples using complex regression modelling/ machine learning to address the following research questions:

  • How does the metabolome change over time as infants mature, and how does this impact on nutritional tolerance, growth, and clinical outcomes?
  • How does gene expression and transcription change following preterm birth, and how does this influence their metabolome, nutritional tolerance/resilience, and growth?
  • What are the genomic factors that influence metabolic tolerance?

The successful candidate is likely to have the following qualifications:

  • A 1st or 2:1 degree in a relevant discipline and/or second degree with a related Masters.

Funding information:
Due to funding restrictions this position is only open to UK applicants.  The stipend is £18,154.00 at UKRI rate, the fees at UK residency rate only and Research Training Support Grant (RTSG) at £1,000 for three years.

Administrative contact and how to apply:

Please complete the University’s online application form, by clicking ‘Apply’ above.

You should enter Dr Mark Johnson as your proposed supervisor. To support your application provide an academic CV (including contact details of two referees), official academic transcripts and a personal statement (outlining your suitability for the studentship, what you hope to achieve from the PhD and your research experience to date).

Informal enquiries relating to the project or candidate suitability should be directed to Dr Mark Johnson, (m.johnson@soton.ac.uk).

Closing date:  03/09/2023

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