In 2009, genome sequencing technologies will achieve one person's whole genome per day in terms of DNA fragments sequenced. Personal genomics is a new term that utilizes such fast sequencers. In 2008, the cost for one personal genome is less than $300,000 USD. If the cost goes down below $1,000 USD, the impact of personal genomics is predicted to be the largest ever in biology&nbsp;on common people's life.&nbsp;PGP (Personal Genome Project) is a project to sequence as many people as possible with low costs </span><span style="FONT-SIZE: 9pt">(Church 2005)</span><span style="FONT-SIZE: 9pt">. Google Inc. and Church group are working together to sequence 100,000 people's genetic regions of DNA. In Saudi Arabia, the government is planning to sequence 100 Arabic people. In Europe, there are various groups of people and nations who have been genotyping the populations. Especially, Iceland has been successful in that effort by utilizing their well-kept genealogical data encompassing 100,000s people. In Asia, Jeongsun Seo of Seoul National University has been working on East Asia Genome Project in the past years. His group collected thousands of samples from Mongolian tribes with a gigantic genealogical tree among them </span><span style="FONT-SIZE: 9pt">(MacrogenPark et al. 2008; Sung et al. 2008)</span><span style="FONT-SIZE: 9pt">. Seo is planning on sequencing at least 100 Korean genomes working in collaboration with Church and Green Cross Inc. of Korea. The aim of Seo's genome project is produce a resource for the East Asians as well as Koreans. He is presently sequencing at least two Korean people. In China, Beijing Genome Institute has been successful in terms of sequencing. Their first achievement came from a plant genome, rice. After rice, they launched a 99 Han Chinese genome sequencing project. In Nov. 2008, they published their first Chinese genome in a magazine, Nature. In Dec. 2008, another Korean group Lee Gilyeo Cancer and Diabetes Institute and Korean Bioinformation Center (KOBIC) made a Korean genome sequence public. The genome was sequenced by Solexa paired-end sequencer and comparative genomics analyses and SNP data were uploaded as a public resource for everyone.&nbsp;<br />

</span></strong><span style="FONT-SIZE: 9pt">These public genome data alongside previous previously known Craig Venter's and James Watson's mark that full genome sequences are not in academic domain anymore. Anyone who has money and will can sequence human genomes. This 'genomic revolution' will eventually lead to the 'BioRevolution' in terms of making the most essential human information completely mapped and publically available. These are revolutionary because humans can now engineer themselves with a map or a blue print not directly relying on trial and error style conventional evolutionary methods. This indicates that evolution went into a conscious level of driving evolution. It is almost designing the evolution using computers.&nbsp;<br />

The consequences of such biorevolution 'BioRevolution' where genomic information is utilized by scientists to engineers all kinds of biological processes including evolution itself will bring us the personalized medicine. The essence of personalized medicine is that enzymes in our tissues such as cytochrome p450 have distinct differences among individuals and populations. Certain drugs produce different responses in individuals.&nbsp;<br />