Snabbfakta
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- Nottingham
Ansök senast: 2024-05-27
PhD Studentship: Developmental consequences of heat stress during early mammalian embryogenesis
Supervisor: Kevin Sinclair
Secondary Supervisor: Ramiro Alberio, David Gardner
Subject Area: Environment and developmental biology
Summary of Project:
Epidemiological evidence in humans indicates that acute heat exposure around the time of mating results in pregnancy loss, with potential long-term consequences for offspring health and wellbeing, although these latter adverse effects are poorly understood. Similar effects of acute heat stress on embryo survival and development are seen in other species. Identifying underpinning mechanisms requires the use of appropriate animal models. Farm animal and human embryos share many aspects of early development including gene regulatory networks, developmental timing, and signalling requirements for cell-lineage establishment. Thus, in addition to being species of clinical importance in their own right, these animals represent excellent models for the study of human embryogenesis.
This PhD will test the hypothesis that an acute period of heat stress around the time of mating epigenetically alters embryo development in a manner that can compromise pregnancy establishment and the health and wellbeing of offspring derived from surviving embryos. This proposal will undertake detailed morphokinetic, histological, metabolic and molecular analyses of bovine and porcine embryos up to and including gastrulation. In so doing, it will complement in vivo assessments of porcine embryo development (extending to F2 embryos) and measurements of cardiometabolic health in offspring (F1), which will be undertaken in parallel by other members of the team.
Specifically, this PhD will address the following two objectives:
A range of temperatures (representing extremes of core-body temperature) will be assessed during in vitro embryo culture. State-of-the-art techniques include morphokinetic assessments undertaken using time-lapse microscopy complemented by immunohistological quantification of cell-lineage fate. Metabolic responses will be established by extra-cellular flux analyses of mitochondrial function.
The study will then characterize (lineage markers, karyotype) and sex stem-cell lines from Control and Hyperthermic treated embryos using established in-house protocols. Epigenetic status will be determined which will provide some insight into potential long-term developmental consequences of short-term heat stress during the study period. Finally, these lines will undergo induced gastruloid formation and molecular characterization for lineage mapping.
Award Start Date: 01/07/2024
Duration of Award: 36 months
Terms and Conditions: This research studentship is only available to UK citizens and includes payment of tuition fees and a tax-free stipend based on BBSRC rates (currently £19,237 per year).
Applicant Qualification Requirements: Minimum qualification BSc (Hons) in a biological or closely related discipline - 2:1 or above
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