Literature DB >> 33670420

Nanopore Sequencing Resolves Elusive Long Tandem-Repeat Regions in Mitochondrial Genomes.

Liina Kinkar1, Robin B Gasser1, Bonnie L Webster2,3, David Rollinson2,3, D Timothy J Littlewood2,3, Bill C H Chang1, Andreas J Stroehlein1, Pasi K Korhonen1, Neil D Young1.   

Abstract

Long non-coding, tandem-repetitive regions in mitochondrial (mt) genomes of many metazoans have been notoriously difficult to characterise accurately using conventional sequencing methods. Here, we show how the use of a third-generation (long-read) sequencing and informatic approach can overcome this problem. We employed Oxford Nanopore technology to sequence genomic DNAs from a pool of adult worms of the carcinogenic parasite, Schistosoma haematobium, and used an informatic workflow to define the complete mt non-coding region(s). Using long-read data of high coverage, we defined six dominant mt genomes of 33.4 kb to 22.6 kb. Although no variation was detected in the order or lengths of the protein-coding genes, there was marked length (18.5 kb to 7.6 kb) and structural variation in the non-coding region, raising questions about the evolution and function of what might be a control region that regulates mt transcription and/or replication. The discovery here of the largest tandem-repetitive, non-coding region (18.5 kb) in a metazoan organism also raises a question about the completeness of some of the mt genomes of animals reported to date, and stimulates further explorations using a Nanopore-informatic workflow.

Entities:  

Keywords:  Oxford Nanopore technology; Schistosoma haematobium; informatics; mitochondrial (mt) genome; non-coding (control) region; tandem-repetitive DNA

Mesh:

Year:  2021        PMID: 33670420      PMCID: PMC7918261          DOI: 10.3390/ijms22041811

Source DB:  PubMed          Journal:  Int J Mol Sci        ISSN: 1422-0067            Impact factor:   5.923


  68 in total

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