The Genetic Architecture of Colour and the Evolution of Marine colour polymorphisms
Lead Research Organisation:
University College London
Department Name: Genetics Evolution and Environment
Abstract
Colour in the animal kingdom is widely used for a variety of purposes and in some instances,
may also act as a direct phenotypic indicator of underlying genetic control, providing a model
for the exploration of fundamental evolutionary processes. To date, the role of colour in the
marine realm has been poorly studied. Furthermore, colour pigments in marine organisms
have rarely been characterised and very little is known about the molecular control of colour
synthesis in marine invertebrates. As almost 70% of the Earth's surface is water, and more
than 80% of animal phyla are exclusively aquatic, this represents a major gap in our
understanding of the natural world.
One exception to this rule is the tropical seastar Linckia laevigata, a common species that
exists as a variety of colour morphs. The pigments responsible for the deep royal blue
colouration of the most striking colour morph are known, and the entire colour gene has been
sequenced. L.laevigata therefore provides a unique model for the basis of studies of marine
colour.
This PhD will initially focus on establishing whether colour variation in L.laevigata is
dependent on protein variation and so heritable. It will also encompass colour variation
throughout the echinoderms and use gene insertion techniques to study the role of the gene
in vivo. In addition, I aim to reconstruct a new phylogeny of the Asteroidea as there is
currently little consensus as to the relationships within the group.
may also act as a direct phenotypic indicator of underlying genetic control, providing a model
for the exploration of fundamental evolutionary processes. To date, the role of colour in the
marine realm has been poorly studied. Furthermore, colour pigments in marine organisms
have rarely been characterised and very little is known about the molecular control of colour
synthesis in marine invertebrates. As almost 70% of the Earth's surface is water, and more
than 80% of animal phyla are exclusively aquatic, this represents a major gap in our
understanding of the natural world.
One exception to this rule is the tropical seastar Linckia laevigata, a common species that
exists as a variety of colour morphs. The pigments responsible for the deep royal blue
colouration of the most striking colour morph are known, and the entire colour gene has been
sequenced. L.laevigata therefore provides a unique model for the basis of studies of marine
colour.
This PhD will initially focus on establishing whether colour variation in L.laevigata is
dependent on protein variation and so heritable. It will also encompass colour variation
throughout the echinoderms and use gene insertion techniques to study the role of the gene
in vivo. In addition, I aim to reconstruct a new phylogeny of the Asteroidea as there is
currently little consensus as to the relationships within the group.
Organisations
Studentship Projects
Project Reference | Relationship | Related To | Start | End | Student Name |
---|---|---|---|---|---|
NE/S007229/1 | 30/09/2019 | 29/09/2028 | |||
2066585 | Studentship | NE/S007229/1 | 30/09/2018 | 08/03/2023 | Hugh Carter |
NE/W502716/1 | 31/03/2021 | 30/03/2022 | |||
2066585 | Studentship | NE/W502716/1 | 30/09/2018 | 08/03/2023 | Hugh Carter |