Ultra-high-throughput microbial community analysis on the Illumina HiSeq and MiSeq platforms

J. Gregory Caporaso(Northern Arizona University), Christian L. Lauber(Cooperative Institute for Research in Environmental Sciences), William A. Walters(University of Colorado Boulder), Donna Berg-Lyons(Cooperative Institute for Research in Environmental Sciences), James S. Huntley(University of Colorado Boulder), Noah Fierer(Cooperative Institute for Research in Environmental Sciences), Sarah M. Owens(Argonne National Laboratory), Jason Betley(Illumina (United Kingdom)), Louise Fraser(Illumina (United Kingdom)), Markus Bauer(Illumina (United Kingdom)), Niall Gormley(Illumina (United Kingdom)), Jack A. Gilbert(Argonne National Laboratory), Geoff Smith(Illumina (United Kingdom)), Rob Knight(Howard Hughes Medical Institute)
The ISME Journal
March 8, 2012
10.1038/ismej.2012.8
Cited by 9,068Open Access
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Abstract

DNA sequencing continues to decrease in cost with the Illumina HiSeq2000 generating up to 600 Gb of paired-end 100 base reads in a ten-day run. Here we present a protocol for community amplicon sequencing on the HiSeq2000 and MiSeq Illumina platforms, and apply that protocol to sequence 24 microbial communities from host-associated and free-living environments. A critical question as more sequencing platforms become available is whether biological conclusions derived on one platform are consistent with what would be derived on a different platform. We show that the protocol developed for these instruments successfully recaptures known biological results, and additionally that biological conclusions are consistent across sequencing platforms (the HiSeq2000 versus the MiSeq) and across the sequenced regions of amplicons.

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