Abstract
BackgroundAlthough animal mitochondrial DNA sequences are known to evolve rapidly, their gene arrangements often remain unchanged over long periods of evolutionary time. Therefore, comparisons of mitochondrial genomes may result in significant insights into the evolution both of organisms and of genomes. Mammalian mitochondrial genomes recently published in the GenBank database of NCBI show numerous rearrangements in various regions of the genome, from which it may be inferred that the mammalian mitochondrial genome is more dynamic than expected. However, it is alternatively possible that these are errors of annotation and, if so, are misleading our interpretations. In order to verify these possible errors of annotation, we performed a comparative genomic analysis of mammalian mitochondrial genomes available in the NCBI database.ResultsUsing a combination of bioinformatics methods to carefully examine the mitochondrial gene arrangements in 304 mammalian species, we determined that there are only two sets of gene arrangements, one that is shared by all of the marsupials and another that is shared by all of the monotremes and eutherians, with these two arrangements differing only by the positions of tRNA genes in the region commonly designated as “WANCY” for the genes it comprises. All of the 68 other cases of reported gene rearrangements are errors. We note that there are also numerous errors of impossibly short, incorrect gene annotations, cases where genomes that are reported as complete are actually missing portions of the sequence, and genes that are clearly present but were not annotated in these records.ConclusionsWe judge that the application of simple bioinformatic tools in the verification of gene annotation, particularly for organelle genomes, would be a very useful enhancement for the curation of genome sequences submitted to GenBank.
Highlights
Animal mitochondrial DNA sequences are known to evolve rapidly, their gene arrangements often remain unchanged over long periods of evolutionary time
Due to the possible physiological and adaptive impact of these rearrangements and addressing the utility of these in phylogenetic inference, we systematically investigated the gene annotation of the 304 complete mammalian mitochondrial genomes that are available in the GenBank database; with the aim of verifying correct gene annotations and identifying any errors it may contain
According to the annotation of the 304 mammalian mitochondrial genomes found in the NCBI database, there are a total of 187 cases of genes annotated to be in arrangements differing from human mtDNA
Summary
Animal mitochondrial DNA sequences are known to evolve rapidly, their gene arrangements often remain unchanged over long periods of evolutionary time. In order to verify these possible errors of annotation, we performed a comparative genomic analysis of mammalian mitochondrial genomes available in the NCBI database. Mitochondria play a variety of important roles, including the generation of ATP through oxidative phosphorylation and initiation and execution of apoptosis [1] Mitochondria have their own genome (mtDNA), having evolved from that of their bacterial progenitors, with genes that participate in the energy currency of the Departamento de Biología, Facultad de ciencias, Universidad del Tolima, Barrio Santa Helena Parte Alta, Ibagué, Colombia. Full list of author information is available at the end of the article cell and other processes Variation in these genes can directly influence metabolic performance and its variation among different species [2]. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated
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