2013
DOI: 10.1101/cshperspect.a021220
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Mitochondrial DNA Genetics and the Heteroplasmy Conundrum in Evolution and Disease

Abstract: The unorthodox genetics of the mtDNA is providing new perspectives on the etiology of the common "complex" diseases. The maternally inherited mtDNA codes for essential energy genes, is present in thousands of copies per cell, and has a very high mutation rate. New mtDNA mutations arise among thousands of other mtDNAs. The mechanisms by which these "heteroplasmic" mtDNA mutations come to predominate in the female germline and somatic tissues is poorly understood, but essential for understanding the clinical var… Show more

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Cited by 568 publications
(585 citation statements)
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References 163 publications
(218 reference statements)
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“…There is a significant correlation between age and the occurrence of heteroplasmy in each individual tissue ( Fig. 3), in agreement with previous studies (10,20,21). Moreover, many individual HFHs are also significantly correlated with age (SI Appendix, Fig.…”
Section: Resultssupporting
confidence: 81%
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“…There is a significant correlation between age and the occurrence of heteroplasmy in each individual tissue ( Fig. 3), in agreement with previous studies (10,20,21). Moreover, many individual HFHs are also significantly correlated with age (SI Appendix, Fig.…”
Section: Resultssupporting
confidence: 81%
“…For example, although certain nucleotide positions (nps) in the mtDNA genome are prone to heteroplasmy (2,4,11), it is not clear to what extent these positions simply have a high mutation rate, and thus are more prone to heteroplasmy across all tissues, vs. a role for tissue-specific processes in heteroplasmy (i.e., certain tissues may be more prone to heteroplasmy due to their metabolic requirements, rate of cellular turnover, etc.). Tissue-specific patterns of heteroplasmy are commonly observed with mtDNA mutations associated with disease and are thought to reflect the differing bioenergetic requirements of different tissues (10). Moreover, mice constructed to be heteroplasmic for different haplotypes show tissue-specific patterns of segregation over time (12,13), suggesting positive selection related to mtDNA function in different tissues.…”
mentioning
confidence: 99%
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“…The high levels of reactive oxygen species (ROS) generated in mitochondria make mtDNA high susceptible to oxidative damage (Wallace and Chalkia, 2013). Yet, given that mitochondria are inherited exclusive from the mother, several mechanisms seem to have evolved in oocytes to prevent them from accumulating mtDNA damage (Fan et al, 2008;Stewart et al, 2008;Sharpley et al, 2012;Floros et al, 2018).…”
Section: Introductionmentioning
confidence: 99%
“…The appearance of PGCs at the allantois, a region of the extraembryonic yolk sac, at E7.5 occurs at a similar time and region as the first appearance of hemangioblasts and hematopoietic islands [90,91]. Similarly, PGCs enter the aorta-gonad-mesonsephros region of the embryo at E11, which is the region where HSCs first appear and where Oct3/4-expressing cells were recently isolated which could form hematopoietic colonies in vitro [42,92].…”
Section: Parameter Characteristic Valuementioning
confidence: 99%