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DNA fingerprint discoverer has concerns
(Agencies)
Updated: 2004-09-09 11:19
One morning 20 years ago, Alec Jeffreys stumbled upon DNA fingerprinting,
identifying the patterns of genetic material that are unique to almost every
individual. The discovery revolutionized everything from criminal investigations
to family law.
![Professor Alec Jeffreys with a copy of the first DNA fingerprint profile at the University of Leicester, in England, Wednesday Sept. 8 2004. Jeffreys, the scientist who discovered genetic 'fingerprinting' two decades ago said Wednesday that he has some concerns about the use of the technology. 'I think there are potentially major issues about genetic privacy,' Jeffreys said at a briefing to mark the 20th anniversary of the discovery on Sept. 10, 1984. [AP Photo]](xin_030901091131211217145.jpg)
Professor Alec
Jeffreys with a copy of the first DNA fingerprint profile at the
University of Leicester, in England, Wednesday Sept. 8 2004. Jeffreys, the
scientist who discovered genetic 'fingerprinting' two decades ago said
Wednesday that he has some concerns about the use of the technology. 'I
think there are potentially major issues about genetic privacy,' Jeffreys
said at a briefing to mark the 20th anniversary of the discovery on Sept.
10, 1984. [AP Photo] | Jeffreys is still awed, and
a bit worried, by the power of the technology he unleashed upon the world.
"I think there are potentially major issues about genetic privacy," Jeffreys
said Wednesday at a press briefing to mark the 20th anniversary of the discovery
on Sept. 10, 1984.
The ability to identify patterns within DNA that are unique to each
individual — except identical twins, who share the same pattern — has been used
to convict murderers and clear those wrongly accused, to identify the victims of
war and settle paternity disputes.
It also proved that Dolly, the world's first cloned mammal, really was a
genetic copy of another sheep.
Jeffreys, a professor of genetics at the University of Leicester in central
England, said he and his colleagues made the discovery by accident while
tracking genetic variations.
One Monday at 9:05 a.m., they produced the first genetic fingerprints, maps
of sequences within the strands of DNA that varied from person to person.
"Suddenly I could see the potential for individual identification," said
Jeffreys, now 54. "It was a question of the penny dropping very quickly.
"By 10 o'clock, we were frantically running around the lab thinking of all
sorts of possible applications."
Within six months, genetic fingerprinting had been used in an immigration
case, to prove that a Ghanaian boy really was his parents' son. In 1986, it was
used for the first time in a British criminal case, clearing a suspect of two
rapes and murders and helping convict another man.
In the early 1990s, Jeffreys and his team were called in to identify remains
buried in Brazil as those of the Nazi war criminal Josef Mengele.
DNA testing is now so common, Jeffreys said, that a judge he met recently was
"enormously excited because he was trying a case in which there was no DNA
evidence."
In Britain, a national criminal database established in 1995 now contains 2.5
million DNA samples. Countries including the United States and Canada are
developing similar systems.
Jeffreys, who was knighted in 1994, welcomes DNA databases but has qualms
about how the British one has been set up. He fears stored DNA samples could be
used to extract information about a person's medical history, ethnic origin or
psychological profile.
And he opposes the practice, approved by a British court in 2002, of
retaining DNA samples from suspects who are acquitted, leading to a "criminal"
database that contains many people guilty of no crime.
"My view is, that is discriminatory," Jeffreys said. "It works on a premise
that the suspect population, even if innocent, is more likely to offend in the
future."
Jeffreys advocates a truly national database including every individual, with
strict restrictions on what information could be stored.
"There is the long-term risk that people can get into these samples and start
teasing out additional information" about a person's paternity or risk of
disease, he said. "The police have absolutely no right to that sort of
information."
DNA testing is not an infallible proof of identity. While Jeffreys' original
technique compared scores of markers to create an individual "fingerprint,"
modern commercial DNA profiling compares a number of genetic markers — often 5
or 10 — to calculate a likelihood that the sample belongs to a given individual
Jeffreys estimates the probability of two individuals' DNA profiles matching
in the most commonly used tests at between one in a billion or one in a
trillion, "which sounds very good indeed until you start thinking about large
DNA databases." In a database of 2.5 million people, a one-in-a-billion
probability becomes a one-in-400 chance of at least one match.
Despite his misgivings, Jeffreys believes the technology has done far more
good than harm.
"I'm absolutely overawed at how this technology has spread. We saw it has a
pipe dream in 1984," he said.
"In terms of DNA touching people's lives, DNA fingerprinting is probably the
most important thing to come out of the discovery of the double
helix."
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