杏吧原创

Almost human

The mouse genome will help us to understand our own DNA

AS THE two parallel efforts to sequence the human genome enter their final
stages, the geneticists who gathered in Vancouver for last week鈥檚 meeting of the
Human Genome Organisation are already looking ahead. Many think the key to
finding the meaningful words in the three-billion-letter long sentence of our
DNA is sequencing the genome of the humble lab mouse. 鈥淭hat will be the Rosetta
Stone in terms of interpreting the human genome,鈥 says Steven Jones of the
Genome Sequence Centre in Vancouver.

The company Celera Genomics, headed by Craig Venter, which is already setting
the pace in unravelling the human genome, announced it would try to sequence the
mouse genome earlier this month. Later this year, when the main publicly funded
American sequencing centres are scaling down work on the human genome, they will
start sequencing the mouse genome. The US鈥檚 National Human Genome Research
Institute estimates that it will take the ten public labs about three years to
produce a working draft.

Despite appearances, mice and humans are remarkably similar when it comes to
their DNA. Both genomes have about three billion bases, only about 3 per cent of
which codes for functional genes鈥攖he other 97 per cent being 鈥渏unk DNA鈥.
In the many millions of years since mice and humans diverged from a common
ancestor, much of the important DNA has been conserved, while the 鈥渏unk鈥 has
mutated freely and is now very different. That means that simply comparing the
two genomes will be an efficient way of identifying vital stretches of DNA,
including genes and sequences that regulate gene expression.

Even better, by 鈥渒nocking out鈥 selected genes in lab mice, we get a good idea
of what they do. The equivalent genes in humans should have very similar
functions. And that is the first step on the long road to finding useful
applications for all this genetic information. 鈥淲hen it comes to drug
development, this is crucial,鈥 says Lap-Chee Tsui, president of the Human Genome
Organisation (HUGO).

Vancouver鈥檚 Genome Sequence Centre, part of the British Columbia Cancer
Research Centre, is starting the public sequencing effort by making a physical
map of the mouse genome鈥攁 low-resolution chart that orders known sections
of DNA and helps locate important areas of each chromosome. With that map, the
centre can decide which stretches of DNA need to be sequenced to get good
coverage of the mouse genome without unnecessary duplication. Sometime this
autumn the Vancouver lab will deal out the cards saying who should sequence
what鈥攊ncluding data about which segments might be of the greatest medical
importance.

Celera uses a different method, known as the 鈥渟hotgun technique鈥, in which
the whole genome is randomly broken into fragments. The fragments are then
sequenced and researchers use heavyweight computer power to spot overlapping
fragments which allow reassembly. Although potentially less accurate than
traditional 鈥渄irected鈥 sequencing along the chromosome, the shotgun approach is
considerably faster. 鈥淯ltimately it will accelerate the progress and the public
availability of information,鈥 says HUGO鈥檚 senior vice-president Gert-Jan van
Ommen about Venter鈥檚 work.

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