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The Roslin Institute is one of the leading animal science institutes in the world. It
is probably the best known brand in animal sciences and our objective is really to improve
the sustainable production of animals, to improve animal welfare and to translate the
outcomes into improved human health.
In 2011, the Roslin Institute will occupy a new state of the art £60M research building.
It's an iconic building, its one that will be instantly recognisable which I think is
actually important.
The Roslin Institute is obviously associated with Dolly the sheep but, in fact, what we
are best known for in the scientific field is qualitative genetics with pioneers applications
of genetic markers selection to improvement of live stock. We're not solely in the business
of making animals grow faster or produce more meat per unit input, we're also looking at
making them more resistant to disease, in fact, healthier so this is actually an animal
welfare issue as well as a production issue. A happy animal actually grows faster.
The division of genetics and genomics maintains, if you like, the division of the institute.
We have been big in animal genetics and animal breeding for 50 odd years now.
If one was to look back over the past 50 or 60 years you would see astonishing improvements
in the productivity of farm animals, the way they convert plant material into meat, the
number of piglets we should get out of a sow in a year. We have seen changes of the order
of 50-100% in some of these traits. We need to continue to improve those because the demand
for food is increasing across the planet.
The Roslin Institute has four research divisions which were formed when we joined the University
of Edinburgh. One of them is the Neuropathogenesis Division which is very well known for its
work on transmissible spongiform encephalopathy (TSE), otherwise knows as mad cow disease
and scrapie and the human CJD.
It is important to study TSE diseases in animals for two reasons. One reason is we still need
to understand the mechanism of these diseases in their own right which we don't. We need
to understand when they alter, when the cross the species barrier, when they mutate and
become zoonotic,
...but also what the TSEs provide us with is a model where we can understand the early
process of these diseases.
Another area that the TSEs link into is the ageing process because many of the TSE diseases
are of old animals. Interestingly, variant CJD reversed that in that it was young people
it was associated with and we don't understand how age relates to the neurodegenerative process.
Many of neurodegenerative diseases are clearly diseases of ageing so its understanding the
ageing process and how ageing might exacerbate neurodegeneration.
The qualitative genetics division includes arc genomics which is the major centre in
the UK for livestock genome studies.
The developmental biology is where Dolly the sheep came but nowadays we have many programmes
on stem cell biology and fundamental developmental biology especially of birds and the infection
and immunity division deals mainly with endemic diseases so we have very substantial relationships
with the Institute for Animal Health. The Institute for Animal Health focuses mainly
on exotic viral diseases and we focus mainly on endemic diseases many of which actually
are also important for human health. We have quite a big programme here at Roslin
on influenza viruses, we have ICHAIR, the Interdisciplinary Centre for Human and Avian
Influenza Research which is a collaboration between the University of Edinburgh, the University
of St Andrews and the University of Glasgow which brings together people working on basic
pathogens which is what I work on, as well as people working on modelling and epidemiology
and people working on systems biology in the influenza field.
The Roslin Institute is a multidisciplinary institute and that's actually what makes us
unique. It's a big organisation so we are over 400 people now,
...we are associated with the leading vet school in the United Kingdom and the leading
medical school and so we can actually bring many different disciplines to there and that's
really what gives us the power to make a difference and that's recognised by major interactions
with animal breeding companies such as Aviagen and Genis, companies that are very important
to the United Kingdom's economy. The major animal breeding companies based in the UK
are very large export owners.
We are interested in the potential to use stem cells for understanding basic biology
and within the institute we currently have pig, sheep, rat, mouse, dog, cat, horse - various
forms of stem cells. In each case we are interested in potential therapeutic applications, biotechnology
applications but also simply to understand how it works and what we are already discovering
is that every animal species is different so when we talk about a stem cell in humans
and mice they are not the same and when we understand that we gain a fundamental insight
into biology; exactly how do you start with one cell and end up with a whole organism.