The association of mitochondrial DNA haplotypes and phenotypic traits in pigs

John, Justin C. St.; Tsai, Te-Sha

doi:10.1186/s12863-018-0629-4

Cited by 18 publications

(17 citation statements)

References 43 publications

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“…Mitochondrial diversity has long been considered neutral or almost neutral [ 31 ]. However, an increasing amount of research with animal models and humans suggests that mtDNA variants may be associated with some phenotypic traits [ 32 , 33 , 34 , 35 , 36 , 37 , 38 ]. Given this, we can assume that further intensification of pig production can lead to a significant spread of some haplotypes and disappearance of others.…”

Section: Discussionmentioning

confidence: 99%

Mitochondrial DNA Diversity in Large White Pigs in Russia

Getmantseva

Bakoev

et al. 2020

Animals

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The Large White pig is the most commonly raised commercial pig breed in the world. The aim of this work was to investigate D-loop mtDNA in Large White pigs (n = 402) of various selections bred in the Russian Federation from 2000 to 2019. The general sample consisted of three groups: Old (n = 78) (Russian selection, 2000–2010); Imp (n = 123) (imported to Russia in 2008–2014); New (n = 201) (2015–2019). The synthesized score (Fz) was calculated by analyzing the main PCA (principal component analysis components). An affiliation to Asian or European haplogroups was determined according to the NCBI (National Center for Biotechnology Information). In the study, we defined 46 polymorphic sites and 42 haplotypes. Significant distinctions between groups Old, Imp and New in frequencies of haplotypes and haplogroups were established. The distribution of Asian and European haplotypes in the groups was Old: 50%/50%, Imp: 43%/57%, New: 75%/25%, respectively. The variety of haplotypes and haplogroups in the pigs of the group New is related to the farms in which they breed. Haplotype frequencies significantly differ between the clusters Old_Center, Old_Siberia and Old_South. This study will provide information on the genetic diversity of Large White breed pigs. The results will be useful for the conservation and sustainable use of these resources.

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Section: Discussionmentioning

confidence: 99%

Mitochondrial DNA Diversity in Large White Pigs in Russia

Getmantseva

Bakoev

et al. 2020

Animals

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“…In other species, such as birds, it is evident that there is a ‘trade-off’ between enhanced fertility at the expense of metabolic efficiencies 41 . Furthermore, differences between mtDNA haplotypes, which determine the common maternal origins of an individual, have been used to explain why pigs with better muscle depth and fatness to leanness ratios often have reduced fertility as indicated by poorer oocyte quality and smaller litter sizes, and vice versa 42 . In cattle, oocyte quality through decreased mtDNA copy number can also be accounted for by certain mtDNA haplotypes 10 .…”

Section: Discussionmentioning

confidence: 99%

The transgenerational effects of oocyte mitochondrial supplementation

John

Makanji

Johnson

et al. 2019

Sci Rep

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Many women suffer from either failed fertilisation or their embryos arrest early during development. Autologous mitochondrial supplementation has been proposed as an assisted reproductive technology to overcome these problems. However, its safety remains to be tested in an animal model to determine if there are transgenerational effects. We have supplemented oocytes with autologous populations of mitochondria to generate founders. We mated the female founders and their offspring to produce three generations. We assessed litter size, the ovarian reserve, and weight gain and conducted a full histopathological analysis from each of the three generations. Across the generations, we observed significant increases in litter size and in the number of primordial follicles in the ovary matched by changes in global gene expression patterns for these early-stage oocytes. However, full histopathological analysis revealed that cardiac structure was compromised in first and second generation offspring, which could seriously affect the health of the offspring. Furthermore, the offspring were prone to increased weight gain during early life. Mitochondrial supplementation appears to perturb the regulation of the chromosomal genome resulting in transgenerational phenotypic gains and losses. These data highlight the need for caution when using autologous mitochondrial supplementation to treat female factor infertility.

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“…Experiments on laboratory models and domestic animals have shown associations between specific mtDNA variants and various phenotypic traits, as well as, functional interactions with the nuclear genome ( Aw et al, 2018 ; St John and Tsai, 2018 ; Vivian et al, 2017 ). A transgenic mouse harboring nuclear DNA from one strain and homoplasmic mtDNA haplotype from another, revealed substantial influence of mtDNA haplotype on longevity and health span ( Latorre-Pellicer et al, 2016 ).…”

Section: The Mitochondrial Genome In Agingmentioning

confidence: 99%

Mitochondria in the signaling pathways that control longevity and health span

Akbari

Kirkwood

Bohr

2019

Ageing Research Reviews

137

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Genetic and pharmacological intervention studies have identified evolutionarily conserved and functionally interconnected networks of cellular energy homeostasis, nutrient-sensing, and genome damage response signaling pathways, as prominent regulators of longevity and health span in various species. Mitochondria are the primary sites of ATP production and are key players in several other important cellular processes. Mitochondrial dysfunction diminishes tissue and organ functional performance and is a commonly considered feature of the aging process. Here we review the evidence that through reciprocal and multilevel functional interactions, mitochondria are implicated in the lifespan modulation function of these pathways, which altogether constitute a highly dynamic and complex system that controls the aging process. An important characteristic of these pathways is their extensive crosstalk and apparent malleability to modification by non-invasive pharmacological, dietary, and lifestyle interventions, with promising effects on lifespan and health span in animal models and potentially also in humans.

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The association of mitochondrial DNA haplotypes and phenotypic traits in pigs

Cited by 18 publications

References 43 publications

Mitochondrial DNA Diversity in Large White Pigs in Russia

Mitochondrial DNA Diversity in Large White Pigs in Russia

The transgenerational effects of oocyte mitochondrial supplementation

Mitochondria in the signaling pathways that control longevity and health span

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