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Using 454 technology for long-PCR based sequencing of the complete mitochondrial genome from single Haemonchus contortus (Nematoda)
Jex, AR Hu, M Gasser, RB
Jex, AR
Hu, M
Gasser, RB
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2008-01-11
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2020-04-06
Subject Terms
Genomic Survey Sequence
Haemonchus Contortus
Infer Amino Acid Sequence
Complex Secondary Structure
Strongylid Nematode
Haemonchus Contortus
Infer Amino Acid Sequence
Complex Secondary Structure
Strongylid Nematode
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Abstract
Background: Mitochondrial (mt) genomes represent a rich source of molecular markers for a
range of applications, including population genetics, systematics, epidemiology and ecology. In the
present study, we used 454 technology (or the GS20, massively parallel picolitre reactor platform)
to determine the complete mt genome of Haemonchus contortus (Nematoda: Trichostrongylidae),
a parasite of substantial agricultural, veterinary and economic significance. We validate this
approach by comparison with mt sequences from publicly available expressed sequence tag (EST)
and genomic survey sequence (GSS) data sets.
Results: The complete mt genome of Haemonchus contortus was sequenced directly from longPCR amplified template utilizing genomic DNA (~20–40 ng) from a single adult male using 454
technology. A single contig was assembled and compared against mt sequences mined from publicly
available EST (NemBLAST) and GSS datasets. The comparison demonstrated that the 454
technology platform is reliable for the sequencing of AT-rich mt genomes from nematodes. The mt
genome sequenced for Haemonchus contortus was 14,055 bp in length and was highly AT-rich
(78.1%). In accordance with other chromadorean nematodes studied to date, the mt genome of H.
contortus contained 36 genes (12 protein coding, 22 tRNAs, rrnL and rrnS) and was similar in
structure, size and gene arrangement to those characterized previously for members of the
Strongylida.
Conclusion: The present study demonstrates the utility of 454 technology for the rapid
determination of mt genome sequences from tiny amounts of DNA and reveals a wealth of mt
genomic data in current databases available for mining. This approach provides a novel platform for
high-throughput sequencing of mt genomes from nematodes and other organisms.
Citation
Jex, A.R., Hu, M., Littlewood, D.T.J. et al. Using 454 technology for long-PCR based sequencing of the complete mitochondrial genome from single Haemonchus contortus (Nematoda). BMC Genomics 9, 11 (2008). https://doi.org/10.1186/1471-2164-9-11
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© 2008 Jex et al; licensee BioMed Central Ltd.
This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0),
which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
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1471-2164
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openAccess