Sanger Institute history
From http://www.sanger.ac.uk/about/history/history.html
Fewer
than 50 people were employed when the Sanger Institute, then called the
Sanger Centre, was officially opened on 4 October 1993; today more than
800 people work here. Alongside us on the Genome Campus is the European
Bioinformatics Institute, with more than 300 staff. With a vision to
provide world-class research on a large scale, we have evolved from
principally a sequencing centre to a leader in biomedical research. Set
on this path by John Sulston, founding Director, we have grown and
matured under current Director Allan Bradley to seize the opportunities
offered by new technologies and new understanding in genetics.
Birth: search for a home (1992-1993)
In
1992 the Wellcome Trust and the UK Medical Research Council agreed to
fund a new research centre that would play a role in mapping,
sequencing and decoding the human genome and the genomes of other
organisms. The decision by the European Molecular Biology Laboratory
(EMBL) to site its outstation, the European Bioinformatics Institute
(EBI) in the UK helped to secure the decision. The new institution was
to be called the Sanger Centre after Fred Sanger, the double Nobel
Prize-winning biochemist, whose techniques of DNA sequencing would
power it. John Sulston was chosen, apparently to his own
"astonishment", as the Sanger Centre's Director.
Fred Sanger officially opened the Sanger Centre on 4 October 1993.
After
searching various locations around the UK, John and his colleagues
chose an estate adjoining the small village of Hinxton as the site for
the project. In the early months of 1993, a handful of staff moved onto
the site and got to work, sequencing genomes in temporary labs at
Hinxton Hall, nine miles south of Cambridge. By March 1994, 130 people
were working to uncover the genetic basis of humans.
One of the
earliest realisations was that a robust IT architecture would be needed
to support the ambitious aims. It was widely appreciated that the six
workstations and a dozen or so terminals in place at the beginning
would not be enough.
The early years: small creatures (1993-1998)
John
Sulston built a Board of Management with researchers Alan Coulson, Jane
Rogers, Richard Durbin, David Bentley, Bart Barrell and Murray Cairns,
the Institute's Secretary. These seven led the Institute in its primary
aim: to build the expertise and systems to help to complete the Human
Genome Project.
We sequenced the first animal genome, the nematode worm, with collaborators in Washington.
The
Sanger Institute's first five-year plan, published in 1995, proposed
the ambitious goals of completing the genomes of two yeasts, the
nematode worm and at least one-sixth of the human genome.
The
organisms simpler than the human were models for the assault on the
human genome. The yeast Saccharomyces cerevisiae, with a genome of 12
million bases, was the first to fall in 1996; the nematode worm
Caenorhabditis elegans, which, at 100 million bases, was the first
animal and largest sequenced genome, followed in 1998.
Although
1996 and 1998 mark the completion of these sequences, much of the data
generated in these projects was made available prior to completion.
From its earliest days, the Sanger Institute placed sequence
information in the public domain as swiftly as possible, arguing that
was the best way to speed research.
Work on the yeast, in
particular, led to new programmes at the Institute in pathogen
genomics. Mycobacterium tuberculosis was the first pathogen genome
sequenced at the Sanger Institute and completed in 1998.
By the end
of 1997, 36 million bases of human DNA sequence alone were emerging
each year, up from 0.1 million in the Institute's first year. Just over
300 staff were connected on an IT network supporting almost 500 devices.
In
its first five years to 1998, the Sanger Centre ramped up output of DNA
sequence 100-fold. For the assault on the human genome, the Institute
scaled-up its operation even further. In 1998, the Institute, supported
by the Wellcome Trust, successfully bid to contribute one-third, rather
than one-sixth, of the human genome. It had already produced 90 million
bases of sequence, but would need to produce ten times more - 900
million bases - to meet that commitment.
Youthful discovery: our genome and other animal genomes (1998-2003)
The
bargain to increase output was met, and the Institute led the research
on the first human chromosome ever sequenced, chromosome 22, in
December 1999. In a series of tumultuous events that garnered enormous
interest, the human draft genome sequence was produced in June 2000 and
the Human Genome Project reached its goals in April 2003. The Sanger
Centre made the largest single contribution.
We now produce more sequence in one hour than we did in our first ten years.
With
the draft sequence to hand, John Sulston stepped down as Sanger Centre
Director, encouraging the search for a successor who would wrest
biological information from genomes and build biology and genetics on
the Centre's foundation in sequencing. In Allan Bradley, the Institute
found just such a leader.
The Sanger Institute made the largest single contribution to the gold standard human genome sequence.
Allan
sought to move the Institute's research into understanding gene
function on a genome-wide scale; however, he wanted that move to be led
by researchers who had burning questions they sought to answer,
researchers whose questions could be answered only using the skills in
large-scale research found at the Institute.
That Faculty of
researchers has driven the new enquiries and projects that have been
established at the Institute, breaking new ground in the discovery of
genome landscapes.
To reflect more closely the size of the
institution and its role within the Wellcome Trust's portfolio of
research, in 2001, the alliterative Sanger Centre gave way to the more
structured Wellcome Trust Sanger Institute.
Growing maturity: decisions and responsibilities (2003-2010)
The
final steps of the Human Genome Project were taken in 2004 and 2006, as
the last scientific publications appeared: the summary of the genome
and the sequence of the largest human chromosome. The first and the
last scientific papers for the Project were led by the Sanger Institute.
The
research programmes deployed under Allan Bradley's Directorship
broadened the work of the Institute: in 2000, perhaps 80 per cent of
the Institute staff worked on genome sequencing and mapping; by 2004
that figure was around 20-30 per cent. New young researchers, the
lifeblood of any institution, were attracted as the new Faculty
recruited a larger number of postdoctoral fellows and the Institute
enhanced its graduate student programme. All students are registered at
the University of Cambridge.
The Institute remained a leader or
major partner in large, national or international programmes such as
the International HapMap Project, studying human variation; the Copy
Number Variation Project, studying structural changes in human genomes;
the Wellcome Trust Case Control Consortium, studying genetic
association with common disease; and the KOMP and EUCOMM programmes,
generating mouse mutant resources.
To capitalise on these new
opportunities, in 2006 the Institute focused its research efforts on
those areas of biomedical research to which it could make the greatest
unique contribution. Its programme of global studies of natural
variation and experimental variation of genome sequence is intended to
deliver data and biological resources that will prime research across
the globe. The Institute's work will advance the efforts of scientists
to tackle human disease, in the same way that the Human Genome Project
had stimulated discovery of genes implicated in human disease.
Although
the Institute's focus is in the genetics of human, mouse, zebrafish and
pathogens, improvements in sequencing technology mean that the
Institute can now produce more DNA sequence in one hour than it did in
the ten years from its founding to the end of 2002. With the efforts of
the Sanger Institute and many others, DNA sequence is becoming the
scaffold for biology that it should be, the support that allows
research into human biology and human disease to proceed unfettered by
limited access to this most fundamental of codes.
In March 2010
Professor Leena Peltonen, a leading geneticist and head of Human
Genetics at the Institute, died after a long illness. Her impact
continues to be felt through the strengthening and developing of Human
Genetics at the Institute. [Read obituary]
n April 2010 Professor
Allan Bradley stepped down as Director to devote time to the
development of a promising novel technology in mouse genetics. Allan's
vision reshaped the Institute's scientific portfolio: he transformed
the Sanger Institute from a world leading sequencing centre to
encompass groundbreaking research into the impact of genetics on health
and disease. Allan assumed the new title of Director Emeritus.
Professor Mike Stratton, head of the Institute's Cancer Genome Project,
was appointed Director.