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Environmental control of genetic/phenotypic interactions in lung development: An evolutionary perspective. Vertebrate lungs all contain morphologically and functionally similar lung lining cells. However, the cellular arrangement (i.e. lung morphology) and the function of the surfactant these cells produce, differs dramatically between species. Hence, a subset of highly conserved lung-specific genes coincides with spectacular phenotypic diversity. How has this diversity evolved? Do environmental ....Environmental control of genetic/phenotypic interactions in lung development: An evolutionary perspective. Vertebrate lungs all contain morphologically and functionally similar lung lining cells. However, the cellular arrangement (i.e. lung morphology) and the function of the surfactant these cells produce, differs dramatically between species. Hence, a subset of highly conserved lung-specific genes coincides with spectacular phenotypic diversity. How has this diversity evolved? Do environmental conditions, birth strategy or phylogenetic relationships determine lung phenotype? We will experimentally manipulate developing lungs and cells to demonstrate how environmental conditions (temperature, oxygen, lung-fluid regulation and neuro-hormonal input) promote evolutionary processes by altering gene expression, protein/lipid synthesis, cellular differentiation and hence lung morphology/function in animals with different birth strategies.Read moreRead less
Establishment of the endocrine axes in the embryo and their xenobiotic distortion. Millions of tons of supposedly harmless chemicals are produced and enter the environment each year. However, some of these substances can act on wildlife and humans to distort the way that hormone systems are established in the embryo, leading to subtle effects on health and function in later life. We will use one of the commonest of these substances, found in many cosmetics, food wrappings, and medicinal plastics ....Establishment of the endocrine axes in the embryo and their xenobiotic distortion. Millions of tons of supposedly harmless chemicals are produced and enter the environment each year. However, some of these substances can act on wildlife and humans to distort the way that hormone systems are established in the embryo, leading to subtle effects on health and function in later life. We will use one of the commonest of these substances, found in many cosmetics, food wrappings, and medicinal plastics, to learn how hormone systems becomes established in a healthy embryo, and how these then get distorted after exposure to these compounds. This project directly addresses the way we assess the health of our environment, and offers ways to screen for compounds which can have subtle effects on wildlife, domestic species and humans.Read moreRead less