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Auteurs principaux: Nikolaeva, Olga V, Ovcharenko, Anna S, Khorkhordina, Polina V, Miroliubova, Tatyana S, Sadovskaya, Nataliya S, Scobeyeva, Victoria A, Sanamyan, Nadya P, Panina, Elena G, Mikhailov, Kirill V, Rusin, Leonid Yu, Tchesunov, Alexei V, Aleoshin, Vladimir V
Format: Artículo científico
Langue:en
Publié: Biochemistry. Biokhimiia 2025
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Accès en ligne:https://pubmed.ncbi.nlm.nih.gov/41354080/
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author Nikolaeva, Olga V
Ovcharenko, Anna S
Khorkhordina, Polina V
Miroliubova, Tatyana S
Sadovskaya, Nataliya S
Scobeyeva, Victoria A
Sanamyan, Nadya P
Panina, Elena G
Mikhailov, Kirill V
Rusin, Leonid Yu
Tchesunov, Alexei V
Aleoshin, Vladimir V
author_facet Nikolaeva, Olga V
Ovcharenko, Anna S
Khorkhordina, Polina V
Miroliubova, Tatyana S
Sadovskaya, Nataliya S
Scobeyeva, Victoria A
Sanamyan, Nadya P
Panina, Elena G
Mikhailov, Kirill V
Rusin, Leonid Yu
Tchesunov, Alexei V
Aleoshin, Vladimir V
Nikolaeva, Olga V
Ovcharenko, Anna S
Khorkhordina, Polina V
Miroliubova, Tatyana S
Sadovskaya, Nataliya S
Scobeyeva, Victoria A
Sanamyan, Nadya P
Panina, Elena G
Mikhailov, Kirill V
Rusin, Leonid Yu
Tchesunov, Alexei V
Aleoshin, Vladimir V
collection PubMed - marine biology
contents Gene Order in Mitochondrial DNA Affects Abundance of their Transcripts (A Case of Marine Nematodes). Nikolaeva, Olga V Ovcharenko, Anna S Khorkhordina, Polina V Miroliubova, Tatyana S Sadovskaya, Nataliya S Scobeyeva, Victoria A Sanamyan, Nadya P Panina, Elena G Mikhailov, Kirill V Rusin, Leonid Yu Tchesunov, Alexei V Aleoshin, Vladimir V Animals DNA, Mitochondrial Nematoda Gene Order Genome, Mitochondrial Phylogeny RNA, Messenger Mitochondrial genomes of most animals contain the same set of genes, with all or many protein-coding genes (PCGs) arranged in the same order, forming conserved blocks termed syntenies. Some syntenies have been preserved for hundreds of millions of years and are found in both vertebrates and invertebrates. This evolutionary conservation indicates functional role for PCG arrangement; however, biochemical and/or physiological mechanisms by which the gene order in mtDNA affects viability are unknown. Among animals, there are taxa that have completely lost conserved syntenies in mtDNA. Canonical animal syntenies in mtDNA have not been reported in nematodes, until some were recently discovered in the previously unstudied nematode taxa, including the marine family Thoracostomopsidae (Nematoda, Enoplida). We sequenced the complete mitochondrial genomes of three thoracostomopsid species, determined gene order, and their expression levels from the RNA-seq data for all available family representatives. We found that six species of the Thoracostomopsidae there are three distinct patterns of PCG arrangement, and the relative mRNA levels correlate with the gene order rather than species phylogeny. We hypothesize that the influence of PCG translocations on their expression levels underlies the long-term preservation of mitochondrial syntenies among animals.
format Artículo científico
id pubmed_41354080
institution PubMed
language en
publishDate 2025
publisher Biochemistry. Biokhimiia
record_format pubmed
spellingShingle Gene Order in Mitochondrial DNA Affects Abundance of their Transcripts (A Case of Marine Nematodes).
Nikolaeva, Olga V
Ovcharenko, Anna S
Khorkhordina, Polina V
Miroliubova, Tatyana S
Sadovskaya, Nataliya S
Scobeyeva, Victoria A
Sanamyan, Nadya P
Panina, Elena G
Mikhailov, Kirill V
Rusin, Leonid Yu
Tchesunov, Alexei V
Aleoshin, Vladimir V
Animals
DNA, Mitochondrial
Nematoda
Gene Order
Genome, Mitochondrial
Phylogeny
RNA, Messenger
Gene Order in Mitochondrial DNA Affects Abundance of their Transcripts (A Case of Marine Nematodes). Nikolaeva, Olga V Ovcharenko, Anna S Khorkhordina, Polina V Miroliubova, Tatyana S Sadovskaya, Nataliya S Scobeyeva, Victoria A Sanamyan, Nadya P Panina, Elena G Mikhailov, Kirill V Rusin, Leonid Yu Tchesunov, Alexei V Aleoshin, Vladimir V Animals DNA, Mitochondrial Nematoda Gene Order Genome, Mitochondrial Phylogeny RNA, Messenger Mitochondrial genomes of most animals contain the same set of genes, with all or many protein-coding genes (PCGs) arranged in the same order, forming conserved blocks termed syntenies. Some syntenies have been preserved for hundreds of millions of years and are found in both vertebrates and invertebrates. This evolutionary conservation indicates functional role for PCG arrangement; however, biochemical and/or physiological mechanisms by which the gene order in mtDNA affects viability are unknown. Among animals, there are taxa that have completely lost conserved syntenies in mtDNA. Canonical animal syntenies in mtDNA have not been reported in nematodes, until some were recently discovered in the previously unstudied nematode taxa, including the marine family Thoracostomopsidae (Nematoda, Enoplida). We sequenced the complete mitochondrial genomes of three thoracostomopsid species, determined gene order, and their expression levels from the RNA-seq data for all available family representatives. We found that six species of the Thoracostomopsidae there are three distinct patterns of PCG arrangement, and the relative mRNA levels correlate with the gene order rather than species phylogeny. We hypothesize that the influence of PCG translocations on their expression levels underlies the long-term preservation of mitochondrial syntenies among animals.
title Gene Order in Mitochondrial DNA Affects Abundance of their Transcripts (A Case of Marine Nematodes).
topic Animals
DNA, Mitochondrial
Nematoda
Gene Order
Genome, Mitochondrial
Phylogeny
RNA, Messenger
url https://pubmed.ncbi.nlm.nih.gov/41354080/