Life Technologies Corporation (NASDAQ:LIFE), a provider of innovative life science solutions, today announced that it has launched its Ion Personal Genome Machine (PGM™) sequencer, the first product to use semiconductor sequencing technology. The sequencer is shipping to select sites in North America, Europe and Asia Pacific.
“Point-and-shoot digital cameras opened up photography to everyone because they were fast, cheap and easy -- and people saw the results immediately, so they quickly became better photographers”
The Ion PGM sequencer's unprecedented speed, scalability and affordability are driving strong interest in the system around the world and as a result, delivery priority will be given to customers ordering multiple units.
Ion Torrent, a business unit of Life Technologies, has invented and brought to market a fundamentally new semiconductor device that enables chemical signals to be directly translated into digital information for the first time. Ion semiconductor sequencing is a disruptive technology because it brings the entire design, fabrication and supply chain infrastructure of the semiconductor industry — a $1 trillion investment — to bear on the challenge of DNA sequencing. The semiconductor has radically changed every industry it has touched, from the microprocessor enabling desktop computing to the CMOS imager, enabling digital photography and replacing film cameras.
"Point-and-shoot digital cameras opened up photography to everyone because they were fast, cheap and easy -- and people saw the results immediately, so they quickly became better photographers," said Dr. Jonathan M. Rothberg, founder of Ion Torrent. "That's what Ion is doing for DNA sequencing. The Ion PGM sequencer gives you results in two hours, and it's affordable and easy to use, so researchers can make decisions in a timely way and can get to publication quicker."
The PGM sequencer augments Life Technologies' broad portfolio of DNA sequencing instruments, a market first revolutionized with the introduction of the Applied Biosystems 3700 Genetic Analyzer, which enabled the initial sequencing of the human genome. The current 3500 Series Genetic Analyzers are the gold standard for forensics, and the 3500Dx model for molecular diagnostic applications in Europe and Asia, while the SOLiD™ System's unparalleled accuracy makes it the ideal researchers' choice in large-scale next-generation sequencing.
Life Grand Challenges Contest
Life Technologies also announced a first-of-its-kind crowd sourcing initiative in the life sciences tools and technology industry, called the Life Grand Challenges Contest. The goal of the $7 million competition is to unlock even bigger opportunities the company is witnessing, while accelerating innovation within the life science community.
There will be seven individual challenges, each with a $1 million prize. The first three challenges are focused on Ion semiconductor sequencing. The remaining four challenges will be related to Life Technologies products and will be announced later in 2011. The three Ion challenges are to 1) produce twice as much sequence data, 2) do it twice as fast, and 3) do it with twice the accuracy. The threshold for winning is to produce results 2X better than the best internal Ion Torrent record at the time of submission.
"Life Technologies has a legacy of democratizing new technologies, and the speed and low cost of semiconductor-based technology will bring DNA sequencing into new areas we can't even imagine," said Gregory T. Lucier, Chairman and CEO of Life Technologies. "While we are on track with our internal research and development, The Grand Challenges are intended to incentivize the user communities that inevitably grow around open technology and encourage them to help accelerate discovery even further. With its ease-of-use and scalability, the Ion semiconductor sequencing technology is the natural place to start."
The judges for the first three Grand Challenges include Dr. Rothberg, Dr. Sidney Altman, who shared the 1989 Nobel Prize in Chemistry and Professor Sir Aaron Klug, who won the 1982 Nobel Prize in Chemistry.
Additional information about the first three Grand Challenges, including terms and conditions, will be released early in 2011.