Numerous insertions of mitochondrial DNA in the genome of the northern mole vole, Ellobius talpinus

Kuprina, Kristina; Smorkatcheva, Antonina; Rudyk, Anna; Galkina, Svetlana

doi:10.1007/s11033-023-08913-4

Cited by 2 publications

(1 citation statement)

References 47 publications

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“…For example, NUMTs can lead to an overestimation of the number of novel mutations on a population scale, potentially resulting in inaccurate inferences related to allelic frequency, population structure, demography, and phylogenetic relationships, or misidentification of heteroplasmy (Maude, et al 2019;Schultz and Hebert 2022;Song, et al 2008). Methods to detect NUMTs include bioinformatic prediction (Dayama, et al 2014;Dayama, et al 2020;Hebert, et al 2023;) and laboratory-based detection (PCR amplifications) (Kuprina, et al 2023;Machida and Lin 2017), but their implementation is often restricted by cost and efficiency.…”

Section: Introductionmentioning

confidence: 99%

Repeat-rich regions cause false positive detection of NUMTs: a case study in amphibians using an improved cane toad reference genome

Cheung,

Rollins,

Hammond

et al. 2024

Preprint

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Mitochondrial DNA (mtDNA) has been widely used in genetics research for decades. Contamination from nuclear DNA of mitochondrial origin (NUMT) can confound studies of phylogenetic relationships and mtDNA heteroplasmy. Homology searches with mtDNA are widely used to detect NUMTs in the nuclear genome. Nevertheless, false positive detection of NUMTs is common when handling repeat-rich sequences, whilst fragmented genomes might result in missing true NUMTs. In this study, we investigated different NUMT detection methods and how the quality of the genome assembly affects them. We presented an improved nuclear genome assembly (aRhiMar1.3) of the invasive cane toad (Rhinella marina) with additional long-read Nanopore and 10x linked-read sequencing. The final assembly was 3.47 Gb in length with 91.3% of tetrapod universal single-copy orthologs (n=5,310), indicating the gene-containing regions were well assembled. We used three complementary methods (NUMTFinder,dinumtandPALMER) to study the NUMT landscape of the cane toad genome. All three methods yielded consistent results, showing very few NUMTs in the cane toad genome. Furthermore, we expanded NUMT detection analyses to other amphibians and confirmed a weak relationship between genome size and the number of NUMTs present in the nuclear genome. Amphibians are repeat-rich, and we show that the number of NUMTs found in highly repetitive genomes is prone to inflation when using homology-based detection without filters. Together, this study provides an exemplar of how to robustly identify NUMTs in complex genomes when confounding effects on mtDNA analyses are a concern.SignificanceThis study uses an updated cane toad nuclear genome assembly and multiple NUMT detection methods to confirm a lack of NUMTs that might confound the use of mtDNA as a population genetic marker in the cane toad. We provide an exemplar study for NUMT detection accounting for genome assembly quality and composition, and highlight the risks of using BLASTN-based approaches in highly repetitive nuclear genomes.

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Section: Introductionmentioning

confidence: 99%

Repeat-rich regions cause false positive detection of NUMTs: a case study in amphibians using an improved cane toad reference genome

Cheung,

Rollins,

Hammond

et al. 2024

Preprint

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Genomic Underground: Unraveling NUMTs in Mole Voles

Prokopov,

Saluev,

Romanenko

et al. 2023

Preprint

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Mitochondrial DNA transfer to the nuclear genome results in the emergence of nuclear DNA sequences of mitochondrial origin (NUMTs), which are recognized as significant factors in genome evolution. This study addresses the gaps in our understanding Ellobius lutescens and Ellobius talpinus mitochondrial DNA (mtDNA) variations, focusing on nuclear mitochondrial DNA segments NUMTs and their impact on evolutionary dynamics and species barcoding. Using advanced assembly techniques, we obtained circularized mtDNA sequences for both species. Detailed genomic analyses explored NUMT abundance, composition, and distribution in relation to repeated elements. Mitochondrial single nucleotide variants (SNVs) were identified in E. lutescens and E. talpinus samples. E. lutescens exhibits unique mtDNA structural features, with a longer and more heavily melted mtDNA compared to other rodents. NUMT analysis revealed species-specific differences, clustering patterns, and repeated element associations. E. talpinus displayed notable SNV coverage variations, suggesting NUMT association. Our findings illuminate the intricate mtDNA variations in mole voles, emphasizing the importance of advanced sequencing for accurate analysis. NUMT complexity poses challenges in evolutionary studies and species barcoding, and requires careful consideration in molecular analyses. This study enhances our understanding of genomic intricacies in these rodents and, contributes valuable insights into their evolutionary dynamics.

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Numerous insertions of mitochondrial DNA in the genome of the northern mole vole, Ellobius talpinus

Cited by 2 publications

References 47 publications

Repeat-rich regions cause false positive detection of NUMTs: a case study in amphibians using an improved cane toad reference genome

Repeat-rich regions cause false positive detection of NUMTs: a case study in amphibians using an improved cane toad reference genome

Genomic Underground: Unraveling NUMTs in Mole Voles

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