Thursday, July 5, 2007

New Findings: Consortium of Scientists Discover Major Glitch in Modern Gene Theory

By Denise Caruso
THE $73.5 billion global biotech business may soon have to grapple with a discovery that calls into question the scientific principles on which it was founded.

Last month, a consortium of scientists published findings that challenge the traditional view of how genes function. The exhaustive four-year effort was organized by the United States National Human Genome Research Institute and carried out by 35 groups from 80 organizations around the world. To their surprise, researchers found that the human genome might not be a "tidy collection of independent genes" after all, with each sequence of DNA linked to a single function, such as a predisposition to diabetes or heart disease.

Instead, genes appear to operate in a complex network, and interact and overlap with one another and with other components in ways not yet fully understood. According to the institute, these findings will challenge scientists "to rethink some long-held views about what genes are and what they do."

Biologists have recorded these network effects for many years in other organisms. But in the world of science, discoveries often do not become part of mainstream thought until they are linked to humans.

With that link now in place, the report is likely to have repercussions far beyond the laboratory. The presumption that genes operate independently has been institutionalized since 1976, when the first biotech company was founded. In fact, it is the economic and regulatory foundation on which the entire biotechnology industry is built.

Innovation begets risk, almost by definition. When something is truly new, only so much can be predicted about how it will play out. Proponents of a discovery often see and believe only in the benefits it will deliver. But when it comes to innovations in food and medicine, belief can be dangerous. Often, new information is discovered that invalidates the principles - thus the claims of benefit and, sometimes, safety - on which proponents have built their products.

For example, antibiotics were once considered miracle drugs that, for the first time in history, greatly reduced the probability that people would die from common bacterial infections. But doctors did not yet know that the genetic material responsible for conferring antibiotic resistance moves easily between different species of bacteria. Overprescribing antibiotics for virtually every ailment has given rise to "superbugs" that are now virtually unkillable.

The principle that gave rise to the biotech industry promised benefits that were equally compelling. Known as the Central Dogma of molecular biology, it stated that each gene in living organisms, from humans to bacteria, carries the information needed to construct one protein.

Proteins are the cogs and the motors that drive the function of cells and, ultimately, organisms. In the 1960s, scientists discovered that a gene that produces one type of protein in one organism would produce a remarkably similar protein in another. The similarity between the insulin produced by humans and by pigs is what once made pig insulin a life-saving treatment for diabetics.

The scientists who invented recombinant DNA in 1973 built their innovation on this mechanistic, "one gene, one protein" principle.

Because donor genes could be associated with specific functions, with discrete properties and clear boundaries, scientists then believed that a gene from any organism could fit neatly and predictably into a larger design - one that products and companies could be built around, and that could be protected by intellectual-property laws.

This presumption, now disputed, is what one molecular biologist calls "the industrial gene."

"The industrial gene is one that can be defined, owned, tracked, proven acceptably safe, proven to have uniform effect, sold and recalled," said Jack Heinemann, a professor of molecular biology in the School of Biological Sciences at the University of Canterbury in New Zealand and director of its Center for Integrated Research in Biosafety...

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