PhD Studentship: Transgenerational Epigenetic Inheritance of Responses to Environmental Stress

Primary Supervisor - Dr Rebecca Taylor

Background  

Natural environments are changing rapidly due to anthropogenic climate change. How populations respond to these changes determines whether they adapt to more stressful environments via plasticity and/or evolution, or whether they become extinct. This creates an urgent need to understand the physiological mechanisms that regulate organismal responses to environmental stress. Recent discoveries have suggested that organisms may transfer environmentally induced phenotypic changes to multiple generations of their descendants through non-genetic mechanisms. This phenomenon, called transgenerational epigenetic inheritance, has transformed the way we think about evolutionary processes, and the effect of environments on natural populations. However, much about this process is still unknown. This project asks whether the activation of critical cellular stress responses is transmitted between generations; whether this transmission confers increased survival of populations in stressful environments, and enhanced Darwinian fitness; and how this inheritance is mechanistically achieved. 

Methodology  

You will determine whether two key cellular stress responses can be transmitted via transgenerational non-genetic inheritance following exposure of parental animals to environmental stressors. You will then establish whether this transgenerational inheritance enhances resistance of populations to environmental stress, and whether inherited stress response activation promotes individual fitness. Finally, you will explore the mechanistic basis for this inheritance by using scRNA-seq to establish a transcriptomic signature for stress response inheritance, and by screening candidate regulators for their roles in this process. You will use Caenorhabditis elegans as a model organism to explore these effects - the premier system for the study of transgenerational epigenetic inheritance. Together, these approaches will define a mechanism by which cellular responses to stressful environments can be non-genetically inherited, and determine whether this inheritance serves an adaptive purpose. 

Training  

You will gain a wide range of skills in experimental design, statistical analysis, bioinformatics, scientific writing and presentation. You will also build expertise in evolutionary biology, cell biology, and physiological techniques. In addition, you will participate in external training courses and conferences, local seminars, research discussion groups and journal clubs.    

Person specification  

We are looking for an enthusiastic and highly motivated individual with a strong interest in evolution, ecology, genetics, and stress response biology. 

Entry Requirements

At least UK equivalence Bachelors (Honours) 2:1. English Language requirement (Faculty of Science equivalent: IELTS 6.5 overall, 6 in each category). 

Acceptable first degree: A degree related to Biological Sciences.

Mode of Study

Full-time

Start Date

1 October 2026

Funding Information

ARIES studentships are subject to UKRI terms and conditions. Successful candidates who meet UKRI’s eligibility criteria will be awarded a fully-funded studentship, which covers fees, maintenance stipend (£20,780 p.a. for 2025/26) and a research training and support grant (RTSG). A limited number of studentships are available for international applicants, with the difference between 'home' and 'international' fees being waived by the registering university. Please note, however, that ARIES funding does not cover additional costs associated with relocation to, and living in, the UK, such as visa costs or the health surcharge.  

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