Author:
Yang Chentao,Zheng Yuxuan,Tan Shangjin,Meng Guanliang,Rao Wei,Yang Caiqing,Bourne David G.,O’Brien Paul A.,Xu Junqiang,Liao Sha,Chen Ao,Chen Xiaowei,Jia Xinrui,Zhang Ai-bing,Liu Shanlin
Abstract
Abstract
Background
Over the last decade, the rapid development of high-throughput sequencing platforms has accelerated species description and assisted morphological classification through DNA barcoding. However, the current high-throughput DNA barcoding methods cannot obtain full-length barcode sequences due to read length limitations (e.g. a maximum read length of 300 bp for the Illumina’s MiSeq system), or are hindered by a relatively high cost or low sequencing output (e.g. a maximum number of eight million reads per cell for the PacBio’s SEQUEL II system).
Results
Pooled cytochrome c oxidase subunit I (COI) barcodes from individual specimens were sequenced on the MGISEQ-2000 platform using the single-end 400 bp (SE400) module. We present a bioinformatic pipeline, HIFI-SE, that takes reads generated from the 5′ and 3′ ends of the COI barcode region and assembles them into full-length barcodes. HIFI-SE is written in Python and includes four function modules of filter, assign, assembly and taxonomy. We applied the HIFI-SE to a set of 845 samples (30 marine invertebrates, 815 insects) and delivered a total of 747 fully assembled COI barcodes as well as 70 Wolbachia and fungi symbionts. Compared to their corresponding Sanger sequences (72 sequences available), nearly all samples (71/72) were correctly and accurately assembled, including 46 samples that had a similarity score of 100% and 25 of ca. 99%.
Conclusions
The HIFI-SE pipeline represents an efficient way to produce standard full-length barcodes, while the reasonable cost and high sensitivity of our method can contribute considerably more DNA barcodes under the same budget. Our method thereby advances DNA-based species identification from diverse ecosystems and increases the number of relevant applications.
Funder
Shenzhen Municipal Government of China
Shenzhen Peacock Plan
China National Funds for Distinguished Young Scientists
Chinese Postdoctoral Science Foundation
Publisher
Springer Science and Business Media LLC
Cited by
16 articles.
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