New view on the organization and evolution of Palaeognathae mitogenomes poses the question on the ancestral gene rearrangement in Aves

Autor:	Adam Dawid Urantowka, Paweł Mackiewicz, Aleksandra Kroczak
Jazyk:	angličtina
Rok vydání:	2020
Předmět:	0106 biological sciences Palaeognathae Most recent common ancestor Mitochondrial DNA lcsh:QH426-470 Duplication Pseudogene lcsh:Biotechnology Rearrangement 010603 evolutionary biology 01 natural sciences Birds Evolution Molecular 03 medical and health sciences Mitochondrial genome lcsh:TP248.13-248.65 Gene duplication Genetics Animals Phylogeny 030304 developmental biology Ancestral state Gene Rearrangement 0303 health sciences Neognathae Concerted evolution biology Gene rearrangement biology.organism_classification Mitogenome lcsh:Genetics Evolutionary biology Genome Mitochondrial Neoaves Aves Research Article Biotechnology
Zdroj:	BMC Genomics, Vol 21, Iss 1, Pp 1-25 (2020) BMC Genomics
ISSN:	1471-2164
Popis:	BackgroundBird mitogenomes differ from other vertebrates in gene rearrangement. The most common avian gene order, identified first inGallus gallus, is considered ancestral for all Aves. However, other rearrangements including a duplicated control region and neighboring genes have been reported in many representatives of avian orders. The repeated regions can be easily overlooked due to inappropriate DNA amplification or genome sequencing. This raises a question about the actual prevalence of mitogenomic duplications and the validity of the current view on the avian mitogenome evolution. In this context, Palaeognathae is especially interesting because is sister to all other living birds, i.e. Neognathae. So far, a unique duplicated region has been found in one palaeognath mitogenome, that ofEudromia elegans.ResultsTherefore, we applied an appropriate PCR strategy to look for omitted duplications in other palaeognaths. The analyses revealed the duplicated control regions with adjacent genes inCrypturellus, RheaandStruthioas well asND6pseudogene in three moas. The copies are very similar and were subjected to concerted evolution. Mapping the presence and absence of duplication onto the Palaeognathae phylogeny indicates that the duplication was an ancestral state for this avian group. This feature was inherited by early diverged lineages and lost two times in others. Comparison of incongruent phylogenetic trees based on mitochondrial and nuclear sequences showed that two variants of mitogenomes could exist in the evolution of palaeognaths. Data collected for other avian mitogenomes revealed that the last common ancestor of all birds and early diverging lineages of Neoaves could also possess the mitogenomic duplication.ConclusionsThe duplicated control regions with adjacent genes are more common in avian mitochondrial genomes than it was previously thought. These two regions could increase effectiveness of replication and transcription as well as the number of replicating mitogenomes per organelle. In consequence, energy production by mitochondria may be also more efficient. However, further physiological and molecular analyses are necessary to assess the potential selective advantages of the mitogenome duplications.
Databáze:	OpenAIRE
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