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  • Performance assessment of DNA sequencing platforms in the ABRF Next-Generation Sequencing Study.

Performance assessment of DNA sequencing platforms in the ABRF Next-Generation Sequencing Study.

Nature biotechnology (2021-09-11)
Jonathan Foox, Scott W Tighe, Charles M Nicolet, Justin M Zook, Marta Byrska-Bishop, Wayne E Clarke, Michael M Khayat, Medhat Mahmoud, Phoebe K Laaguiby, Zachary T Herbert, Derek Warner, George S Grills, Jin Jen, Shawn Levy, Jenny Xiang, Alicia Alonso, Xia Zhao, Wenwei Zhang, Fei Teng, Yonggang Zhao, Haorong Lu, Gary P Schroth, Giuseppe Narzisi, William Farmerie, Fritz J Sedlazeck, Don A Baldwin, Christopher E Mason
ABSTRACT

Assessing the reproducibility, accuracy and utility of massively parallel DNA sequencing platforms remains an ongoing challenge. Here the Association of Biomolecular Resource Facilities (ABRF) Next-Generation Sequencing Study benchmarks the performance of a set of sequencing instruments (HiSeq/NovaSeq/paired-end 2 × 250-bp chemistry, Ion S5/Proton, PacBio circular consensus sequencing (CCS), Oxford Nanopore Technologies PromethION/MinION, BGISEQ-500/MGISEQ-2000 and GS111) on human and bacterial reference DNA samples. Among short-read instruments, HiSeq 4000 and X10 provided the most consistent, highest genome coverage, while BGI/MGISEQ provided the lowest sequencing error rates. The long-read instrument PacBio CCS had the highest reference-based mapping rate and lowest non-mapping rate. The two long-read platforms PacBio CCS and PromethION/MinION showed the best sequence mapping in repeat-rich areas and across homopolymers. NovaSeq 6000 using 2 × 250-bp read chemistry was the most robust instrument for capturing known insertion/deletion events. This study serves as a benchmark for current genomics technologies, as well as a resource to inform experimental design and next-generation sequencing variant calling.

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MetaPolyzyme, lyophilized powder