Mitochondrial genomes revisited: why do different lineages retain different genes?

Anzhelika Butenko; Julius Lukeš; Dave Speijer; Jeremy G. Wideman

doi:10.1186/s12915-024-01824-1

Mitochondrial genomes revisited: why do different lineages retain different genes?

Anzhelika Butenko, Julius Lukeš, Dave Speijer, Jeremy G. Wideman

Research output: Contribution to journal › Review article › peer-review

11 Scopus citations

Abstract

The mitochondria contain their own genome derived from an alphaproteobacterial endosymbiont. From thousands of protein-coding genes originally encoded by their ancestor, only between 1 and about 70 are encoded on extant mitochondrial genomes (mitogenomes). Thanks to a dramatically increasing number of sequenced and annotated mitogenomes a coherent picture of why some genes were lost, or relocated to the nucleus, is emerging. In this review, we describe the characteristics of mitochondria-to-nucleus gene transfer and the resulting varied content of mitogenomes across eukaryotes. We introduce a ‘burst-upon-drift’ model to best explain nuclear-mitochondrial population genetics with flares of transfer due to genetic drift.

Original language	English (US)
Article number	15
Journal	BMC Biology
Volume	22
Issue number	1
DOIs	https://doi.org/10.1186/s12915-024-01824-1
State	Published - Dec 2024
Externally published	Yes

Keywords

CoRR hypothesis
Endosymbiont gene transfer
Evolutionary cell biology
Mitochondrial DNA
Mitochondrial evolution
Mitochondrial mutation rates

ASJC Scopus subject areas

Biotechnology
Structural Biology
Ecology, Evolution, Behavior and Systematics
Physiology
General Biochemistry, Genetics and Molecular Biology
General Agricultural and Biological Sciences
Plant Science
Developmental Biology
Cell Biology

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10.1186/s12915-024-01824-1

Cite this

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title = "Mitochondrial genomes revisited: why do different lineages retain different genes?",

abstract = "The mitochondria contain their own genome derived from an alphaproteobacterial endosymbiont. From thousands of protein-coding genes originally encoded by their ancestor, only between 1 and about 70 are encoded on extant mitochondrial genomes (mitogenomes). Thanks to a dramatically increasing number of sequenced and annotated mitogenomes a coherent picture of why some genes were lost, or relocated to the nucleus, is emerging. In this review, we describe the characteristics of mitochondria-to-nucleus gene transfer and the resulting varied content of mitogenomes across eukaryotes. We introduce a {\textquoteleft}burst-upon-drift{\textquoteright} model to best explain nuclear-mitochondrial population genetics with flares of transfer due to genetic drift.",

keywords = "CoRR hypothesis, Endosymbiont gene transfer, Evolutionary cell biology, Mitochondrial DNA, Mitochondrial evolution, Mitochondrial mutation rates",

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language = "English (US)",

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AU - Butenko, Anzhelika

AU - Lukeš, Julius

AU - Speijer, Dave

AU - Wideman, Jeremy G.

PY - 2024/12

Y1 - 2024/12

N2 - The mitochondria contain their own genome derived from an alphaproteobacterial endosymbiont. From thousands of protein-coding genes originally encoded by their ancestor, only between 1 and about 70 are encoded on extant mitochondrial genomes (mitogenomes). Thanks to a dramatically increasing number of sequenced and annotated mitogenomes a coherent picture of why some genes were lost, or relocated to the nucleus, is emerging. In this review, we describe the characteristics of mitochondria-to-nucleus gene transfer and the resulting varied content of mitogenomes across eukaryotes. We introduce a ‘burst-upon-drift’ model to best explain nuclear-mitochondrial population genetics with flares of transfer due to genetic drift.

AB - The mitochondria contain their own genome derived from an alphaproteobacterial endosymbiont. From thousands of protein-coding genes originally encoded by their ancestor, only between 1 and about 70 are encoded on extant mitochondrial genomes (mitogenomes). Thanks to a dramatically increasing number of sequenced and annotated mitogenomes a coherent picture of why some genes were lost, or relocated to the nucleus, is emerging. In this review, we describe the characteristics of mitochondria-to-nucleus gene transfer and the resulting varied content of mitogenomes across eukaryotes. We introduce a ‘burst-upon-drift’ model to best explain nuclear-mitochondrial population genetics with flares of transfer due to genetic drift.

KW - CoRR hypothesis

KW - Endosymbiont gene transfer

KW - Evolutionary cell biology

KW - Mitochondrial DNA

KW - Mitochondrial evolution

KW - Mitochondrial mutation rates

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Mitochondrial genomes revisited: why do different lineages retain different genes?

Abstract

Keywords

ASJC Scopus subject areas

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Mitochondrial genomes revisited: why do different lineages retain different genes?

Abstract

Keywords

ASJC Scopus subject areas

Access to Document

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Additional file 3 of Mitochondrial genomes revisited: why do different lineages retain different genes?

Additional file 2 of Mitochondrial genomes revisited: why do different lineages retain different genes?

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