1 min readComplete Genomics Releases Proof-of-Concept Data for Its Sequencing Technology
According to the report, Complete Genomics successfully sequenced a Caucasian HapMap sample (Coriell catalog # NA07022; cell line DNA), generating 91x average read coverage of the genome in a matter of days.
This represents the first human genome sequence produced with a third-generation technology, states Complete Genomics, and the work was conducted in-house at Complete Genomics’ genome centre.
This technology also demonstrated an average run rate of more than 70 billion mapped bases (70 Gb) per run or 8.8 Gb per machine run per day. The entire sequencing process required nine machine runs with a single run taking just eight days. Furthermore, this analysis was conducted on data generated by Complete Genomics’ research and development sequencers; the company’s production throughput is expected to increase three fold (up to 200 Gb per run) following its commercial launch in June 2009.
“We were able to make high-confidence base calls for 92 percent of the genome,” said Dr. Rade Drmanac, chief scientific officer at Complete Genomics. “As expected, the 8 percent that we did not call included long repeats and duplications, which are difficult for all short-read technologies to sequence. We were able to call alleles for both parental chromosomes for 91 percent of the genome. Sequencing this remaining fraction of DNA will require our Long Fragment Read (LFR) technology addition that is currently being implemented.”
“In a draft assembly, we discovered the expected 3.3 million single-nucleotide polymorphisms (SNPs) and more than 384,000 short (<10b) insertions and deletions. In our analysis, we identified more than 396,000 novel candidate SNPs, which we plan to contribute to the scientific community through dbSNP,” Drmanac added.
Complete Genomics’ sequencing platform employs high-density DNA nanoarrays that are populated with DNA nano-balls and uses a non-sequential unchained read technology, called combinatorial probe-anchor ligation or cPAL, which reduce both reagent consumption and imaging time. These innovations allow genome sequencing at a higher throughput and at a lower cost.
“We are delighted to be demonstrating an initial milestone in advance of our service launch that supports our ability to deliver high-accuracy, high-throughput, low-cost DNA sequencing. Our sequencing service will help researchers to identify the rare genetic variants that play a significant role in drug responses and complex diseases such as cancer,” said Dr. Reid.
To enable the scientific community to analyze its unique genome sequence data set further, Complete Genomics has sent reads (>350Gb) and base quality measures to the National Center for Biotechnology Information for inclusion in its public database. These data and a technology white paper are also available through Complete Genomics’ Web site at http://www.completegenomics.com/datarelease/.
In preparation for its service launch, Complete Genomics is rapidly scaling up its commercial genome center. It plans to sequence 1,000 genomes in the second half of 2009 and 20,000 genomes in 2010. To analyze the enormous amounts of data that will be created, it is also expanding its data center, which will house 5,000 processors and provide five petabytes (5 million gigabytes) of disk storage by the end of 2009, and 60,000 processors and 30 petabytes of disk storage in 2010.