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Evolutionary genomics of Metchnikovella incurvata (Metchnikovellidae), an early branching microsporidium. / Galindo, Luis Javier; Guifre, Torruella; Moreira, David; Timpano, Helene; Паскерова, Гита Георгиевна; Смирнов, Алексей Валерьевич; Насонова, Елена Станиславовна; Lopez-Garcia, Purificacion .

In: Genome Biology and Evolution, Vol. 10, No. 10, 01.10.2018, p. 2736–2748.

Research output: Contribution to journalArticlepeer-review

Harvard

Galindo, LJ, Guifre, T, Moreira, D, Timpano, H, Паскерова, ГГ, Смирнов, АВ, Насонова, ЕС & Lopez-Garcia, P 2018, 'Evolutionary genomics of Metchnikovella incurvata (Metchnikovellidae), an early branching microsporidium', Genome Biology and Evolution, vol. 10, no. 10, pp. 2736–2748. https://doi.org/10.1093/gbe/evy205

APA

Galindo, L. J., Guifre, T., Moreira, D., Timpano, H., Паскерова, Г. Г., Смирнов, А. В., Насонова, Е. С., & Lopez-Garcia, P. (2018). Evolutionary genomics of Metchnikovella incurvata (Metchnikovellidae), an early branching microsporidium. Genome Biology and Evolution, 10(10), 2736–2748. https://doi.org/10.1093/gbe/evy205

Vancouver

Galindo LJ, Guifre T, Moreira D, Timpano H, Паскерова ГГ, Смирнов АВ et al. Evolutionary genomics of Metchnikovella incurvata (Metchnikovellidae), an early branching microsporidium. Genome Biology and Evolution. 2018 Oct 1;10(10):2736–2748. https://doi.org/10.1093/gbe/evy205

Author

Galindo, Luis Javier ; Guifre, Torruella ; Moreira, David ; Timpano, Helene ; Паскерова, Гита Георгиевна ; Смирнов, Алексей Валерьевич ; Насонова, Елена Станиславовна ; Lopez-Garcia, Purificacion . / Evolutionary genomics of Metchnikovella incurvata (Metchnikovellidae), an early branching microsporidium. In: Genome Biology and Evolution. 2018 ; Vol. 10, No. 10. pp. 2736–2748.

BibTeX

@article{10e219c594b541b3b058990728c7853b,
title = "Evolutionary genomics of Metchnikovella incurvata (Metchnikovellidae), an early branching microsporidium",
abstract = "Metchnikovellids are highly specialized hyperparasites, which infect and reproduce inside gregarines (Apicomplexa) inhabiting marine invertebrates. Their phylogenetic affiliation was under constant discussion until recently, when analysis of the first near-complete metchnikovellid genome, that of Amphiamblys sp., placed it in a basal position with respect to most Microsporidia. Microsporidia are a highly diversified lineage of extremely reduced parasites related to Rozellida (Rozellosporidia = Rozellomycota = Cryptomycota) within the Holomycota clade of Opisthokonta. By sequencing DNA from a single-isolated infected gregarine cell we obtained an almost complete genome of a second metchnikovellid species, and the first one of a taxonomically described and well-documented species, Metchnikovella incurvata. Our phylogenomic analyses show that, despite being considerably divergent from each other, M. incurvata forms a monophyletic group with Amphiamplys sp., and confirm that metchnikovellids are one of the deep branches of Microsporidia. Comparative genomic analysis demonstrates that, like most Microsporidia, metchnikovellids lack mitochondrial genes involved in energy transduction and are thus incapable of synthesizing their own ATP via mitochondrial oxidative phosphorylation. They also lack the horizontally acquired ATP transporters widespread in most Microsporidia. We hypothesize that a family of mitochondrial carrier proteins evolved to transport ATP from the host into the metchnikovellid cell. We observe the progressive reduction of genes involved in DNA repair pathways along the evolutionary path of Microsporidia, which might explain, at least partly, the extremely high evolutionary rate of the most derived species. Our data also suggest that genome reduction and acquisition of novel genes co-occurred during the adaptation of Microsporidia to their hosts.",
author = "Galindo, {Luis Javier} and Torruella Guifre and David Moreira and Helene Timpano and Паскерова, {Гита Георгиевна} and Смирнов, {Алексей Валерьевич} and Насонова, {Елена Станиславовна} and Purificacion Lopez-Garcia",
year = "2018",
month = oct,
day = "1",
doi = "10.1093/gbe/evy205",
language = "English",
volume = "10",
pages = "2736–2748",
journal = "Genome Biology and Evolution",
issn = "1759-6653",
publisher = "Oxford University Press",
number = "10",

}

RIS

TY - JOUR

T1 - Evolutionary genomics of Metchnikovella incurvata (Metchnikovellidae), an early branching microsporidium

AU - Galindo, Luis Javier

AU - Guifre, Torruella

AU - Moreira, David

AU - Timpano, Helene

AU - Паскерова, Гита Георгиевна

AU - Смирнов, Алексей Валерьевич

AU - Насонова, Елена Станиславовна

AU - Lopez-Garcia, Purificacion

PY - 2018/10/1

Y1 - 2018/10/1

N2 - Metchnikovellids are highly specialized hyperparasites, which infect and reproduce inside gregarines (Apicomplexa) inhabiting marine invertebrates. Their phylogenetic affiliation was under constant discussion until recently, when analysis of the first near-complete metchnikovellid genome, that of Amphiamblys sp., placed it in a basal position with respect to most Microsporidia. Microsporidia are a highly diversified lineage of extremely reduced parasites related to Rozellida (Rozellosporidia = Rozellomycota = Cryptomycota) within the Holomycota clade of Opisthokonta. By sequencing DNA from a single-isolated infected gregarine cell we obtained an almost complete genome of a second metchnikovellid species, and the first one of a taxonomically described and well-documented species, Metchnikovella incurvata. Our phylogenomic analyses show that, despite being considerably divergent from each other, M. incurvata forms a monophyletic group with Amphiamplys sp., and confirm that metchnikovellids are one of the deep branches of Microsporidia. Comparative genomic analysis demonstrates that, like most Microsporidia, metchnikovellids lack mitochondrial genes involved in energy transduction and are thus incapable of synthesizing their own ATP via mitochondrial oxidative phosphorylation. They also lack the horizontally acquired ATP transporters widespread in most Microsporidia. We hypothesize that a family of mitochondrial carrier proteins evolved to transport ATP from the host into the metchnikovellid cell. We observe the progressive reduction of genes involved in DNA repair pathways along the evolutionary path of Microsporidia, which might explain, at least partly, the extremely high evolutionary rate of the most derived species. Our data also suggest that genome reduction and acquisition of novel genes co-occurred during the adaptation of Microsporidia to their hosts.

AB - Metchnikovellids are highly specialized hyperparasites, which infect and reproduce inside gregarines (Apicomplexa) inhabiting marine invertebrates. Their phylogenetic affiliation was under constant discussion until recently, when analysis of the first near-complete metchnikovellid genome, that of Amphiamblys sp., placed it in a basal position with respect to most Microsporidia. Microsporidia are a highly diversified lineage of extremely reduced parasites related to Rozellida (Rozellosporidia = Rozellomycota = Cryptomycota) within the Holomycota clade of Opisthokonta. By sequencing DNA from a single-isolated infected gregarine cell we obtained an almost complete genome of a second metchnikovellid species, and the first one of a taxonomically described and well-documented species, Metchnikovella incurvata. Our phylogenomic analyses show that, despite being considerably divergent from each other, M. incurvata forms a monophyletic group with Amphiamplys sp., and confirm that metchnikovellids are one of the deep branches of Microsporidia. Comparative genomic analysis demonstrates that, like most Microsporidia, metchnikovellids lack mitochondrial genes involved in energy transduction and are thus incapable of synthesizing their own ATP via mitochondrial oxidative phosphorylation. They also lack the horizontally acquired ATP transporters widespread in most Microsporidia. We hypothesize that a family of mitochondrial carrier proteins evolved to transport ATP from the host into the metchnikovellid cell. We observe the progressive reduction of genes involved in DNA repair pathways along the evolutionary path of Microsporidia, which might explain, at least partly, the extremely high evolutionary rate of the most derived species. Our data also suggest that genome reduction and acquisition of novel genes co-occurred during the adaptation of Microsporidia to their hosts.

UR - http://www.scopus.com/inward/record.url?scp=85055072709&partnerID=8YFLogxK

UR - http://www.mendeley.com/research/evolutionary-genomics-metchnikovella-incurvata-metchnikovellidae-early-branching-microsporidium

U2 - 10.1093/gbe/evy205

DO - 10.1093/gbe/evy205

M3 - Article

C2 - 30239727

VL - 10

SP - 2736

EP - 2748

JO - Genome Biology and Evolution

JF - Genome Biology and Evolution

SN - 1759-6653

IS - 10

ER -

ID: 33916670