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Molecular Differences in Mitochondrial Genomes (Mitogenomes) of Dogs with Recurrent and Multiple Tumours and Their Reference to the Human Mitochondrial Genome

Kowal, Krzysztof and Tkaczyk-Wlizło, Angelika and Gawor, Jan and Ślaska, Brygida (2024) Molecular Differences in Mitochondrial Genomes (Mitogenomes) of Dogs with Recurrent and Multiple Tumours and Their Reference to the Human Mitochondrial Genome. Annals of Animal Science, 24 (1). ISSN 2300-8733

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Official URL: https://sciendo.com/article/10.2478/aoas-2023-0067

Abstract

The aim of this study was to identify molecular defects caused by mutations in mitochondrial DNA in cases of recurrent and multiple canine tumours. We presented molecular differences in the mtDNA genome for two tumours observed in different body parts of five dogs and throughout time in the case of the recurrence. Mitochondrial DNA was sequenced on an Illumina MiSeq sequencer using a 600-cycle kit in a paired-end mode targeting at least 100x coverage. The sequences obtained were subjected to bioinformatic analyses in order to determine mutation and polymorphic sites within the analysed mtdna genome in the tumour tissue. The total amount of changes: single nucleotide polymorphisms (SNPs), indels, mutations, and heteroplasmy detected in this study was 329. Ten polymorphisms were found in all analysed samples: ins.2679_2680g (tRNA-Leu (UUR)), m.5367c>t (COX1), m.5444t>C (COX1), m.6065a>G (COX1), m.8368c>T (ATP6), m.8807g>A (COX3), ins.9913_9914tg (ND4L), m.13299t>A (ND5), m.15814c>T, and m.16418A>G (control region). Interestingly, the highest number of differences in the mtdna genome was observed between non-cancerous pyogranuloma tissue and epithelioma glandulae sebacei. The mutations in the non-cancerous tissue were mainly found in positions where polymorphisms were observed in blood and tumour tissue. The lowest number of changes was observed for the youngest analysed dog, which may indicate that some changes appeared in the mitogenomes with age. There were fewer heteroplasmic alterations in the larger than smaller tumour, which may suggest that the tumour growth is enhanced by genomic instability. The changes in the protein-coding genes were mostly synonymous, and nonsynonymous changes did not lead to alterations in protein properties. New mutations were observed in the post-recurrence tumours in comparison with the pre-recurrent tissue and blood.

Item Type:Article
Subjects:S Agriculture > SF Animal culture
Divisions:Laboratory of DNA Sequencing and Oligonucleotide Synthesis
ID Code:2364
Deposited By: MSc Jan Gawor
Deposited On:23 Feb 2024 14:18
Last Modified:23 Feb 2024 14:18

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