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[ Wed. Aug. 12. 2009 ]

...Genetic engineering is now at a point where computer science was around the mid-eighties. The early PCs were limited as to purpose and network. In two and a half decades, the computer has led us into a digial world in which every aspect of lives has been affected. According to Moore's Law, the performance of computers doubles every 18 months. Genetic engineering is following a similar growth. On the last weekend in July, Craig Venter and George Church met in Los Angeles to lead a seminar on synthetic genetic engineering for John Brockman's science forum

Genetic engineering under Church has been following the grwoth of computer science growing by a factor of tenfold per year. After all, the cost of sequencing a genome dropped from three billion dollars in 2000 to around $50 000 dollars as Stanford University's Dr. Steven Quake genomics engineer announced this week. 17 commercial companies already offer similar services. In June, a "Consumer Genetics" exhibition was held in Boston for the first time. The Vice President of Knome, Ari Kiirikki, assumes that the cost of sequencing a genome in the next ten years will fall to less than $1,000. In support for this development, the X-Prize Foundation has put up a prize of ten million dollars for the sequencing of 100 full genomes within ten days for the cost of less than $10,000 dollars per genome sequenced. 

It is now up to the companies themselves to provide an ethical and legal standing to commercial genetic engineering. The States of New York and California have already made the sale of genetic tests subject to a prescription. This is however only a first step is to adjust a new a new commercialized science which is about to cause enormous changes similar to those brought about be computer science. Medical benefits are likely to be enormous. Who knows about dangers in its genetic make-up, can preventive measures meet. The potential for abuse is however likewise given. Health insurances and employers could discriminate against with the DNS information humans. Above all however our self-understanding will change. Which could change, if synthetic genetic engineering becomes a mass market, is not yet foreseeable. For example, Craig Venter is working on synthetic biofuels. If successful, such a development would re-align technology, economics and politics in a fundamental way. Of one thing we can already be certain. The question of whether genetic engineering will becomes available for all is no longer on the table. It has already happened.

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