Transparency data

Non-tech. summaries 2015: projects on urogenital and reproductive system

Projects granted during 2015 that have a primary purpose of basic research: urogenital and reproductive system.

Documents

Non-technical summaries: projects granted in 2015, volume 24

Request an accessible format.
If you use assistive technology (such as a screen reader) and need a version of this document in a more accessible format, please email [email protected]. Please tell us what format you need. It will help us if you say what assistive technology you use.

Details

This document outlines the projects granted under the Animals (Scientific Procedures) Act 1986 during 2015 with a primary purpose of basic research: urogenital and reproductive system.

The following projects were granted:

  • developing novel treatments for mitochondrial diseases (mitochondria, mitochondrial quality control, mitophagy, drug screen)

  • resource allocations and the cost of reproduction in animals (antioxidants, oxidative stress, reproduction)

  • regulation of female fertility in health and disease (oocyte egg ovary fertility)

  • (epi)genetic programming of growth and metabolism (growth, metabolism, epigenetics, transgenesis)

  • molecular regulation of mammalian development (genes, oocyte, development)

  • maintenance of genome stability in stem cells (DNA repair, germ cells)

  • neuroendocrine control of reproduction (pubertal timing, stress, neuroendocrinology, LH)

  • fertility control in wildlife (wildlife, fertility control, immunocontraception)

  • cystic kidney disease models and new treatments (cystic kidney, cilia, treatment)

  • establishment of early pregnancy (pregnancy, embryo, superovulation, oestrus)

  • pregnancy complications: targeted interventions (pregnancy, mouse, placenta, therapeutics)

  • development and differentiation of germ cells in birds (poultry, biobank, fertility, reproduction, germ cell)

  • regulatory RNA mechanisms in germ and stem cells (fertility, spermatogenesis, oogenesis & spermatogonial stem cells)

  • identification of critical factor(s) required for optimised embryo development (identification, critical factor(s),optimised, embryo, development)

  • assembly and function of the nuclear envelope (frog eggs, nuclear envelope)

  • foetal growth in the pig (pig, foetus, placenta)

  • tissue repair and scar formation in skin and ovary (wound, healing, scar, fibrosis, ovulation)

  • observing and studying how amphibian embryos develop (amphibians, embryo, experiments, training, students)

Updates to this page

Published 24 June 2016

Sign up for emails or print this page