Metabolic remodelling associated with mtDNA: insights into the adaptive value of doubly uniparental inheritance of mitochondria

Bettinazzi, Stefano; Rodríguez, Enrique; Milani, Liliana; Blier, Pierre; Breton, Sophie

doi:10.1098/rspb.2018.2708

Cited by 26 publications

(51 citation statements)

References 58 publications

(85 reference statements)

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“…Hence the way (or ways) in which males of bivalves with DUI can tolerate heteroplasmy characterized by such high variability remains an important unanswered question (e.g. see Bettinazzi et al 66 ). Our results also highlighted an extremely unusual feature of the M genomes of S. plana and L. balthica compared to their female-transmitted counterparts.…”

Section: Resultsmentioning

confidence: 99%

Unorthodox features in two venerid bivalves with doubly uniparental inheritance of mitochondria

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Bouvet

Guerra

et al. 2020

Sci Rep

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in animals, strictly maternal inheritance (SMi) of mitochondria is the rule, but one exception (doubly uniparental inheritance or DUI), marked by the transmission of sex-specific mitogenomes, has been reported in bivalves. Associated with DUI is a frequent modification of the mitochondrial cox2 gene, as well as additional sex-specific mitochondrial genes not involved in oxidative phosphorylation. With the exception of freshwater mussels (for 3 families of the order Unionida), these DUI-associated features have only been shown in few species [within Mytilidae (order Mytilida) and Veneridae (order Venerida)] because of the few complete sex-specific mitogenomes published for these orders. Here, we present the complete sex-specific mtDNAs of two recently-discovered DUI species in two families of the order Venerida, Scrobicularia plana (Semelidae) and Limecola balthica (tellinidae). these species display the largest differences in genome size between sex-specific mitotypes in DUI species (>10 kb), as well as the highest mtDNA divergences (sometimes reaching >50%). An important in-frame insertion (>3.5 kb) in the male cox2 gene is partly responsible for the differences in genome size. The S. plana cox2 gene is the largest reported so far in the Kingdom Animalia. The mitogenomes may be carrying sex-specific genes, indicating that general mitochondrial features are shared among DUI species.

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Section: Resultsmentioning

confidence: 99%

Unorthodox features in two venerid bivalves with doubly uniparental inheritance of mitochondria

Capt

Bouvet

Guerra

et al. 2020

Sci Rep

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“…Conversely, for the DUI species Arctica islandica and M. edulis, they express convergent OXPHOS remodelling in sperm mitochondria. M-type mitochondria in sperm and male somatic heteroplasmic tissues show functional divergence in OXPHOS activity and organization compared to F-type mitochondria present in eggs and female somatic tissues, involving a strong limitation of the electron transport system (ETS) by the phosphorylation system and a minimal spare capacity at cytochrome c oxidase (Bettinazzi et al 2019). Congruently, a lower activity of cytochrome c oxidase (CCO) was also detected for M. edulis M-type sperm, in comparison with the F-type "masculinized" ones (Breton et al 2009b).…”

Section: The Potential Benefits Of Duimentioning

confidence: 99%

“…The existence of a specific DUI mitochondrial remodelling, together with the fact that DUI sperm energetic strategy tightly relies on mitochondrial respiration, support the expectation that the selective forces driving the evolution of sperm mitochondria in absence of SMI might affect mt encoded components of respiratory complexes, thus foster change in the OXPHOS mechanisms and organization (Breton et al 2007;Breton et al 2009b). The overdescribed architecture provides unusual respiratory control at the terminus of the respiratory chain, high sensitivity to oxygen content in the medium, a potential high ROS flux and, interestingly, the capacity to preserve high membrane potential in sperm mitochondria (Bettinazzi et al 2019). Accumulating evidence supports this idea that DUI male mitochondria possess the ability to preserve a high mitochondrial membrane potential (Δψm).…”

Section: The Potential Benefits Of Duimentioning

confidence: 99%

An Unusual Evolutionary Strategy: The Origins, Genetic Repertoire, and Implications of Doubly Uniparental Inheritance of Mitochondrial DNA in Bivalves

Stewart

Breton

Chase

et al. 2020

Evolutionary Biology—A Transdisciplinary Approach

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Mitochondrial DNA (mtDNA) is typically passed on to progeny only by the female parent. The phenomenon of "doubly uniparental inheritance" (DUI) of mtDNA in many bivalve species is a fascinating exception to the paradigm of strict maternal inheritance of mtDNA. In this review, we survey the current state of knowledge of DUI, and discuss several active areas of research in this field. Topics/questions covered include: the number of times DUI evolved (once or multiple origins), the link between DUI and sex determination, the role(s) of mtDNA-encoded non-oxidative phosphorylation genes (i.e., ORFan/orf genes) in freshwater mussels, the function of conserved sequence motifs and sperm transmission elements in mtDNA of marine mussels, the challenges of annotating mtDNA genomes of DUI species, the presence of unorthodox features in venerid mtDNA, whether or not orf DNA sequences are useful in species-level identification of freshwater mussel, and finally, whether or not there are obvious benefits of DUI. For each topic we also highlight important avenues for future research within this fascinating field of mitochondrial evolutionary biology.

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“…Both sexes usually only contain F-type mitochondria in their somatic tissues, but their gametes contain only the sex-specific form of mitochondria (i.e. M-type in sperm and F-type in oocytes) [147]. This means that M-type mitochondria must be passed on by fathers to the germline of their sons.…”

Section: (C) Mitochondrial Ageing In the Germlinementioning

confidence: 99%

“…It is thus an unresolved question as to how these DUI species manage to prevent oxidatively damaged mitochondria from being passed to offspring. The two types of mitochondria in gametes have recently been shown to differ in their functioning, but in ways that would actually appear to increase the risk of oxidative damage to M-type mitochondria in the sperm [147]; this is so even in Arctica islandica, which can live to over 500 years and is thus the longest-lived non-colonial metazoan [150]. Whether the existence of DUI refutes the concept of the 'division of labour' as a means to prevent the inheritance of an aged phenotype is unresolved [149,151].…”

Section: (C) Mitochondrial Ageing In the Germlinementioning

confidence: 99%

The deteriorating soma and the indispensable germline: gamete senescence and offspring fitness

Monaghan

Metcalfe

2019

Proc. R. Soc. B.

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The idea that there is an impenetrable barrier that separates the germline and soma has shaped much thinking in evolutionary biology and in many other disciplines. However, recent research has revealed that the so-called ‘Weismann Barrier’ is leaky, and that information is transferred from soma to germline. Moreover, the germline itself is now known to age, and to be influenced by an age-related deterioration of the soma that houses and protects it. This could reduce the likelihood of successful reproduction by old individuals, but also lead to long-term deleterious consequences for any offspring that they do produce (including a shortened lifespan). Here, we review the evidence from a diverse and multidisciplinary literature for senescence in the germline and its consequences; we also examine the underlying mechanisms responsible, emphasizing changes in mutation rate, telomere loss, and impaired mitochondrial function in gametes. We consider the effect on life-history evolution, particularly reproductive scheduling and mate choice. Throughout, we draw attention to unresolved issues, new questions to consider, and areas where more research is needed. We also highlight the need for a more comparative approach that would reveal the diversity of processes that organisms have evolved to slow or halt age-related germline deterioration.

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Metabolic remodelling associated with mtDNA: insights into the adaptive value of doubly uniparental inheritance of mitochondria

Cited by 26 publications

References 58 publications

Unorthodox features in two venerid bivalves with doubly uniparental inheritance of mitochondria

Unorthodox features in two venerid bivalves with doubly uniparental inheritance of mitochondria

An Unusual Evolutionary Strategy: The Origins, Genetic Repertoire, and Implications of Doubly Uniparental Inheritance of Mitochondrial DNA in Bivalves

The deteriorating soma and the indispensable germline: gamete senescence and offspring fitness

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