AI Article Synopsis
- The mitochondrial genome, located outside the nuclear DNA in eukaryotic cells, contains important genes for cellular energy and survival, despite being a small part of total cellular DNA.
- Mitochondrial DNA (mtDNA) studies are gaining momentum due to their links to various diseases, including cancer and neurodegenerative disorders, but analyzing mtDNA is challenging due to its low abundance compared to nuclear DNA.
- A new method using RNA-based sequencing has been developed to efficiently assemble complete mitochondrial genomes, proving to be a simple and cost-effective approach for future research and diagnostics related to mtDNA-based diseases.
Article Abstract
The mitochondrial genome is an independent genetic system in each eukaryotic cell outside the nuclear genome. Mitochondrial DNA (mtDNA) appears in high copy number within one cell, unlike nuclear DNA, which exists in two copies. But nevertheless, mtDNA represent only small part of total cellular DNA what causes problematic analysis and identification of relevant mutations. While most researchers tend to overlook it because of its small size, the mitochondrial genome contains genes that are essential for cellular energetics and survival. Because of the increased awareness on the importance of metabolism and bioenergetics in a wide variety of human diseases, more and more mtDNA studies were performed. Mitochondrial genome research has established the connection between mtDNA and a wide variety of diseases such as cancer or neurodegenerative disorders. At the present time, several methods are known, that allow sequencing of mtDNA. However, genomic analysis is often complicated due to the low content of mtDNA compared to nuclear DNA. For this reason, we have designed a new approach to obtaining the genomic mitochondrial sequence. We chose RNA based sequencing. Since human mtDNA does not contain introns, the reconstruction of whole mitochondrial genome through RNA sequencing seems to be effective. Our method is based on total RNA sequencing coupled with simple ultracentrifugation protocol and de novo assembly. Following our protocol, we were able to assemble a complete mammalian mitochondrial genome with a length of 16,505 bp and an average coverage of 156. The method is a relatively simple and inexpensive which could help in the further research or diagnostics of mtDNA-based diseases.
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| http://dx.doi.org/10.1016/j.jbiotec.2019.04.019 | DOI Listing |
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