LISTSERV 16.0 - PARKINSN Archives

Wednesday, 21 February, 2001, 04:15 GMT
Synthetic virus nearing reality

Scientists must overcome hurdles with DNA before synthetic lifeforms
become a reality
By BBC News Online's Jonathan Amos in San Francisco

Scientists will have the technology to create a wholly artificial virus
within the next five years, a major conference in the US has been told.

The synthetic microbe could be used to help genetically engineer novel
plants and animals, and treat human disease.

But if the technology is abused, it could lead to bioweapons against
which society might have little defence.

The timetable for the creation of an artificial virus was laid out by
Professor Clyde Hutchinson, of the University of North Carolina
and The Institute of Genomic Research.

"This isn't trivial to do and no-one has yet reported doing it," he told
the annual meeting of the American Association for the Advancement
of Science (AAAS).

But he said: "If researchers put their minds to it, they could do it
within a few years."

'Bad stuff'
Delegates to the annual meeting stressed that the issues surrounding
a synthetic virus should not be over-dramatised.

Dr Jonathan Moreno, of the University of Virginia, and an author on
bioweapons, said rogue states or groups already had access to plenty
of destructive technologies.

Some fear the new technology could be used to create bioweapons
"A synthetic virus is something to be concerned about, but the
question is whether we could develop anything that is worse than
what is already available in nature, that some have attempted to
exploit for the purposes of bioweaponry - such as anthrax," he said.

"There's enough bad stuff out there now. So far, there is no reason
to believe that this technology is going to make things any worse."

Professor Hutchinson and his fellow researchers are engaged in what
is known as the Minimal Genome Project, which is investigating the
smallest number of genes required to sustain life.

From scratch
The project may eventually provide the knowledge to create an
artificial lifeform - most probably a small bacterium.

Such a lifeform would be built from scratch using fundamental
chemicals and could be engineered to manufacture useful drug
components or to break down chemicals at the site of a toxic spill.

But Prof Hutchinson told the AAAS synthetic lifeforms were still
science fiction because of the difficulties in synthesising long
segments of nucleic acid - the "life molecule" DNA and its chemical
cousin RNA.

A synthetic microbe could be used to treat disease
He said: "Just having the genome isn't the same as having a cell.

"To get the genes to do something, there have to be factors there to
translate the genes into messenger RNA and into proteins, etc, and
that at present can only be done in a living cell."

Most researchers would not regard a virus as being "alive", as it
depends on the machinery of a living, host cell to replicate.

But its very much simpler design - nucleic acids perhaps just 10
kilobases in length and a few associated proteins - makes it an
easier target for synthesis.

Although viruses are popularly seen as merely agents of disease,
they also have a productive role in biotechnology.

Modified versions of viruses, in which the disease-causing elements
have been "switched off", can be used to carry useful genes into an
organism.

Design flexibility
Viruses could be important tools in future gene therapy, carrying
genes into the cells of sick people to correct or replace the ones that
have gone wrong.

A synthetic virus might make this task easier by providing greater
flexibility of design.

The fear would be that the same technology could be used to
synthesise a super-pathogen, or "biobomb", to terrorise society.

But Dr David Magnus, of the University of Pennsylvania Center
for Bioethics, said any minded individual would probably opt for a
simpler approach.

He said: "You don't have to synthesise a genome from scratch to be
able to make a version of smallpox.

"You could get a close relative and use standard genetic engineering.
You could probably do that right now."

Professor Daniel McGee, of Baylor University, said the threat always
had to be judged against the benefits, with regulation steering us on
the right course.

"We're toolmakers. The first axe could have been used for agricultural
purposes and good purposes, or it could have been used for killing.

"The moral dilemma is essentially the same.

"The fact that there is more power now - it extends further than just
one person with one axe - is significant, but it doesn't change the
qualitative dimension of the moral dilemma."

Prof Hutchinson added: "Am I worried about a synthesised virus?
No, you only worry about it if someone does it out of malicious
motives."

http://news.bbc.co.uk/hi/english/in_depth/sci_tech/2001/san_francisco/newsid_1181000/1181710.stm

*******************