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Researchers from the CNAG and the CRG push genome data analysis one step forward

NewsNEWS

28
Oct
Sun, 28/10/2012 - 19:01

Researchers from the CNAG and the CRG push genome data analysis one step forward

PRESS RELEASE

  • Due to the exponential increase in sequencing capacity, efficient tools for data analysis are becoming essential to process the vast amount of biological data.
  • The GEM project, led by Paolo Ribeca from the Centro Nacional de Análisis Genómico (CNAG) and including scientists from this center and the Center for Genomic Regulation (CRG), allowed the development of a tool for the interpretation of genomic data that is several times faster and much more accurate than other tools currently being used.
  • The study has been published in the journal Nature Methods.

Barcelona, October 28, 2012. If we use the well-known comparison of the genome with a book, then we can say without fear of being wrong that it is a very complicated book. It is thousands of times bigger than a regular book, with more than 3 billion letters in total, each one being an A, C, G or T, as per the four possible bases of the DNA code. One can see the genome as a sequence of millions of words without breaks between them nor capitalization nor punctuation. Most words occur only once in the genome, but some can be found thousands of times with small variations. And reading this book gets even more complicated when you can only see short sentences with few words, each one randomly extracted from the book.
Last generation sequencing techniques used at the CNAG and the CRG, involve breaking the genome into small pieces (alike to short sentences from the book), sequencing such pieces and trying to find them back in the genome. The next step, mandatory in most biological experiments, would be assigning the sentences to their correct original location. However, this can be an extremely difficult task: sentences might be misspelled (sequencing is not a perfect process, and introduces errors) or slightly different (the genome of the individual being sequenced usually contains small variations if compared to the reference one). In addition, each sequencing experiment produces billions of short sentences.
This is the starting point that led some researchers at the CRG and the CNAG to design a computer program that helps to find sequences in the reference genome, quickly and accurately: such tools, called 'mappers', are essential to interpret data in genomic studies, as they represent the first analysis step for many biological experiments. After 5 years of development the result is the GEM (Genomic Multitool) mapper.
The GEM mapper is several times faster than other reference programs in the field and delivers breathtaking performance, matching into the huge human genome of reference about 40 million sequences per hour on a single CPU core. As it uses algorithms that guarantee that it doesn’t miss matches, GEM is also much more accurate than other comparable programs. In addition, GEM allows the parameters of the search to be tuned to the specific requirements of the biological experiment being performed, offering a versatility that cannot be achieved with most existing tools.
The good performance profile of GEM will help to face a practical problem: the dramatic increase in the amount of sequencing data. As an example, the CNAG started operations in 2010 with a park of 12 second generation sequencers that generated roughly 50 Gbases per day. Thanks to the recent spectacular advances in sequencing technology, today, only 2 and a half years after, the CNAG generates almost 20 times more data with the same number of sequencing machines. However, it would have been impossible to increase the computing resources of the CNAG accordingly (and this is a problem common to biomedical research everywhere in the world). Hence, the development of more efficient analysis tools like GEM is essential to keep up with the increasing rate of production.
The GEM tools are a neat example of excellence research, and a world-class tool, entirely developed in Spain; although the project is lead by an Italian team member, the whole work has been carried out in Barcelona. This accomplishment was made possible by the very early adoption of next-generation sequencing machines at the CRG (in 2008), and the subsequent sustained investment in sequencing technologies by the Catalan and Spanish governments that culminated in the creation of the CNAG.
The research was funded by the Spanish Ministerio de Educación y Ciencia (Consolider program), by the US National Institutes of Health/National Human Genome Research Institute, and by the European Union (READNA and ESGI programs).
The authors of the GEM paper are (with the respective affiliations): Santiago Marco-Sola, CNAG, Micha Sammeth, formerly CRG, now CNAG, Roderic Guigó, CRG, Paolo Ribeca, formerly CRG, now CNAG.
Reference:
Marco-Sola S, Sammeth M, Guigó R and Ribeca P. The GEM mapper: fast, accurate and versatile alignment by filtration. Nat. Methods. Epub 2012 Oct 28. DOI 10.1038/NMETH.2221.
Further information:
Anna Borrell - Comunication CNAG - 934020542 - amborrell@pcb.ub.cat
Juan Sarasua - Press Officer CRG - 933160153 - juan.sarasua@crg.eu
About the Centro Nacional de Análisis Genómico (CNAG)
The CNAG was created in 2009 with support from the Ministry of Science and Innovation and the Government of Catalonia as a platform integrated into the Barcelona Science Park. The mission of the centre is to carry out large-scale DNA analysis and sequencing projects in collaboration with researchers from Catalonia, Spain and other parts of the world and ensure the international competitiveness of our country in the strategic area of genomics.
The centre, directed by Dr. Ivo Gut, has a highly-qualified team of 50 (50% of the staff holds a doctorate), and a fleet of 12 latest-generation sequencers, which have allowed it to achieve a sequencing capacity of up to 600 Gbases/day, equivalent to sequencing six human genomes per day. This makes the CNAG the second ranked European centre for sequencing capacity.