[an error occurred while processing this directive]
BBC News
watch One-Minute World News
Last Updated: Saturday, 18 December, 2004, 07:43 GMT
'Artificial life' comes step closer

By Roland Pease
BBC radio science unit

Jellyfish gene expression (PNAS)
The vesicles pushed out a green fluorescent protein
Researchers at Rockefeller University in the US have made the first tentative steps towards creating a form of artificial life.

Their creations, small synthetic vesicles that can process (express) genes, resemble a crude kind of biological cell.

The parts for their "vesicle bioreactors", as they call them, all come from diverse realms of life.

The soft cell walls are made of fat molecules taken from egg white. The cell contents are an extract of the common gut bug E. coli, stripped of all its genetic material.

This essence of life contains ready-made much of the biological machinery needed to make proteins; the researchers also added an enzyme from a virus to allow the vesicle to translate DNA code.

When they added genes, the cell fluid started to make proteins, just like a normal cell would.

Jelly fish

A gene for green fluorescent protein taken from a species of jellyfish was the first they tried. The glow from the protein showed that the genes were being transcribed.

With a second gene, from the bacterium Staphylococcus aureus, the researchers got their cells to make small pores in their walls.

M. genitalium bacteria
Some bacteria can survive with just a few hundred genes
These let nutrients in from the surrounding "soup", so that the cells could function, in some instances, for several days.

Albert Libchaber, who heads the project, stresses that these bioreactors are not alive - they're performing simple chemical reactions that can also happen in cell-free biological fluids.

But the research is one strand in a new field called synthetic biology, where the aim is to re-design entire organisms, or recreate them from scratch.

The bio-entrepreneur Craig Venter, who headed the commercial venture to decode the human genome, is currently trying to strip a bacterium down to the minimum set of genes needed for survival.

Synthetic virus

Two years ago, another team showed that polio viruses could assemble themselves from off-the-shelf chemical components mixed in a test-tube.

And several chemists are exploring the kinds of chemical reactions that may have preceded life.

Albert Libchaber's hope is to build up towards a minimal synthetic organism, with a designed cell wall, and a mixture of gene circuits that would let it maintain itself like a living cell.

As these constructs become more lifelike, the rest of us will have to start rethinking the nature of life.

"This is rather philosophical," says Dr Libchaber.

"For me, life is just like a machine - a machine with a computer program. There's no more to it than that. But not everyone shares this point of view," he told the BBC.

He also stresses that there is no danger in the experiments. Not only are his cells artificial, they can function only in the nutrient medium he supplies them.

He said: "If you take our system out of its environment, it just doesn't function."

Details of Libchaber's work with Vincent Noireaux have been published by the journal Proceedings of the National Academy of Sciences.

An explanation of the science

Scientists use DNA to make virus
13 Nov 03 |  Science/Nature
Q&A: First synthetic virus
12 Jul 02 |  Science/Nature
First synthetic virus created
11 Jul 02 |  Science/Nature
Genome man to create new life
21 Nov 02 |  Science/Nature
Synthetic virus nearing reality
21 Feb 01 |  San Francisco
Scientists call for life creation debate
10 Dec 99 |  Science/Nature

The BBC is not responsible for the content of external internet sites


News Front Page | Africa | Americas | Asia-Pacific | Europe | Middle East | South Asia
UK | Business | Entertainment | Science/Nature | Technology | Health
Have Your Say | In Pictures | Week at a Glance | Country Profiles | In Depth | Programmes
Americas Africa Europe Middle East South Asia Asia Pacific