Differences

This shows you the differences between two versions of the page.

Link to this comparison view

Next revision
Previous revision
Last revision Both sides next revision
high_throughput_sequencing_for_genetic_diversity [2012/01/18 22:02]
anniearchambault created
high_throughput_sequencing_for_genetic_diversity [2012/01/19 11:00]
anniearchambault
Line 1: Line 1:
 ===== High throughput sequencing =====  ===== High throughput sequencing ===== 
-[[http://​en.wikipedia.org/​wiki/​Sequencing|Sanger ​sequencing]] ​was previously ​the main method for providing sequence data, but it has the disadvantage of being time consuming and expensive when analysing a massive amount of data is planned. A revolution began with pyrosequencing ​(([[http://www.nature.com/​nature/​journal/​v437/​n7057/full/​nature03959.html|Margulies, M. et al. (2005). Genome Sequencing in Open Microfabricated High Density Picoliter Reactors. Nature 437, 376-380.]])) and there are nowadays (as of 2011) many different platforms available for high throughput sequencing.+[[http://​en.wikipedia.org/​wiki/​Sequencing|Dye terminator ​sequencing]] ​has long been the main method for providing sequence data, but it has the disadvantage of being time consuming and expensive when analysing a massive amount of data is planned. A revolution ​in the sequencing field began at the turning of the 20th century, ​with sequence by synthesis methods ​((Brenner, S. et al. (2000). Gene expression analysis by massively parallel signature sequencing (MPSS) on microbead arrays. ​[[http://dx.doi.org/10.1038/76469|Nature Biotechnology 18, 630-634.]])) ((Margulies, M. et al. (2005). Genome Sequencing in Open Microfabricated High Density Picoliter Reactors. ​[[http://​www.nature.com/​nature/​journal/​v437/​n7057/​full/​nature03959.html|Nature 437, 376-380.]])) and there are nowadays (as of 2011) many different platforms available for high throughput ​sequencing. These methods have in common to parallelize the sequencing process, typically producing thousands of short sequencing reads at once. The [[http://​en.wikipedia.org/​wiki/​DNA_sequencing|Wikipedia]] page on DNA sequencing provides a rich historical review on the subject and many scientific articles describe the differences among the technologies ((Myllykangas,​ S., Buenrostro, J., and Ji, H. P. (2012). Overview of Sequencing Technology Platforms. In [[http://​www.springerlink.com/​content/​n6u33m1335750g57/​|Bioinformatics for High Throughput Sequencing, N. Rodríguez-Ezpeleta,​ M. Hackenberg, A. M. Aransay, eds. (New York, NY: Springer New York), pp. 11-25.]]))  
 +((Glenn, T. C. (2011). Field guide to next‐generation DNA sequencers. [[http://​onlinelibrary.wiley.com/​doi/​10.1111/​j.1755-0998.2011.03024.x/​abstract|Molecular Ecology Resources 11, 759-769.]])) ((Morozova, O., Hirst, M., and Marra, M. A. (2009). Applications of New Sequencing Technologies for Transcriptome Analysis. [[http://​www.annualreviews.org/​doi/​full/​10.1146/​annurev-genom-082908-145957|Annual Review of Genomics and Human Genetics 10, 135-151.]])) and compare the expected results ((Dames, S., Durtschi, J., Geiersbach, K., Stephens, J., and Voelkerding,​ K. V. (2010). Comparison of the Illumina Genome Analyzer and Roche 454 GS FLX for resequencing of hypertrophic cardiomyopathy-associated genes. [[http://​www.ncbi.nlm.nih.gov/​pubmed/​20592870|J Biomol Tech 21, 73-80.]]))  
 +((Wall, P. K. et al. (2009). Comparison of next generation sequencing technologies for transcriptome characterization. [[http://​www.biomedcentral.com/​1471-2164/​10/​347|BMC Genomics 10, 347]])). The high throughput sequencing methods are also called next generation sequencing, second generation sequencing, third generation sequencing or massively parallel ​sequencing. ​
  
 +==== High throughput sequencing for genetic diversity ====
 +Genetic diversity studies form the basis of many aspects of biodiversity science. High throughput sequencing has the potential to dramatically change how genetic diversity studies are planned and analyzed. Still, although the ratio of the number of reads produced in a single run is truly cost-effective,​ the relatively high cost of a single run prevented many academic laboratories from using these innovative technologies. To overcome this limitation, barcoding systems were developed ((Binladen, J., Gilbert, M. T. P., Bollback, J. P., Panitz, F., Bendixen, C., Nielsen, R., and Willerslev, E. (2007). The Use of Coded PCR Primers Enables High-Throughput Sequencing of Multiple Homolog Amplification Products by 454 Parallel Sequencing. [[http://​dx.plos.org/​10.1371/​journal.pone.0000197|PLoS ONE 2, e197.]])), where different oligonucleotides (8 to 10 bp in length) are incorporated in the different DNA samples to be sequenced. After these samples are labelled with the barcodes, they can be multiplexed and sequenced altogether in a single sequencing run. Each sample is then sorted using bioinformatics methods, by recognition of its barcode. When coupled with laboratory methods for genome complexity reduction, high throughput sequencing can be very a efficient strategy for providing a massive amount of sequence data from different samples, in a short time and at reasonable costs. ​
  
-==== High throughput sequencing ​for genetic diversity studies====  +==== High throughput sequencing ​at the QCBS ====  
-A few [[http://​qcbs.ca/​members/​main-researchers/​|QCBS members]] have used one or the other  high throughput sequencing methods currently (as of 2011) available. One example, that uses a AFLP-like and a pyrosequencing step with a [[http://​www.roche.com/​products/​product-list.htm?​type=researchers&​id=4|Genome Sequencer FLX (GS-FLX) System]] is detailed in a specific page [[High throughput sequencing at QCBS|High throughput sequencing at the QCBS]] of this wiki. +A few [[http://​qcbs.ca/​members/​main-researchers/​|QCBS members]] have used one or the other high throughput sequencing methods currently (as of 2011) available. One example, that uses a AFLP-like and a pyrosequencing step with a [[http://​www.roche.com/​products/​product-list.htm?​type=researchers&​id=4|Genome Sequencer FLX (GS-FLX) System]] is detailed in a specific page [[AFLP_454seq_for_pop_structure|High throughput sequencing at the QCBS]] of this wiki.