Human aging and somatic point mutations in mtDNA: a comparative study of generational differences (grandparents and grandchildren)
The accumulation of somatic mutations in mtDNA is correlated with aging. In this work, we sought to identify somatic mutations in the HVS-1 region (D-loop) of mtDNA that might be associated with aging. For this, we compared 31 grandmothers (mean age: 63 ± 2.3 years) and their 62 grandchildren (mean age: 15 ± 4.1 years), the offspring of their daughters. Direct DNA sequencing showed that mutations absent in the grandchildren were detected in a presumably homoplasmic state in three grandmothers and in a heteroplasmic state in an additional 13 grandmothers; no mutations were detected in the remaining 15 grandmothers. However, cloning followed by DNA sequencing in 12 grandmothers confirmed homoplasia in only one of the three mutations previously considered to be homoplasmic and did not confirm heteroplasmy in three out of nine grandmothers found to be heteroplasmic by direct sequencing. Thus, of 12 grandmothers in whom mtDNA was analyzed by cloning, eight were heteroplasmic for mutations not detected in their grandchildren. In this study, the use of genetically related subjects allowed us to demonstrate the occurrence of age-related (> 60 years old) mutations (homoplasia and heteroplasmy). It is possible that both of these situations (homoplasia and heteroplasmy) were a long-term consequence of mitochondrial oxidative phosphorylation that can lead to the accumulation of mtDNA mutations throughout life.
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Sociedade Brasileira de Genética
2011
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oai:scielo:S1415-475720110001000062011-01-28Human aging and somatic point mutations in mtDNA: a comparative study of generational differences (grandparents and grandchildren)Marinho,Anderson Nonato do RosárioMoraes,Milene Raiol deSantos,SidneySantos,Ândrea Ribeiro-dos- aging mtDNA mitochondrial somatic mutations The accumulation of somatic mutations in mtDNA is correlated with aging. In this work, we sought to identify somatic mutations in the HVS-1 region (D-loop) of mtDNA that might be associated with aging. For this, we compared 31 grandmothers (mean age: 63 ± 2.3 years) and their 62 grandchildren (mean age: 15 ± 4.1 years), the offspring of their daughters. Direct DNA sequencing showed that mutations absent in the grandchildren were detected in a presumably homoplasmic state in three grandmothers and in a heteroplasmic state in an additional 13 grandmothers; no mutations were detected in the remaining 15 grandmothers. However, cloning followed by DNA sequencing in 12 grandmothers confirmed homoplasia in only one of the three mutations previously considered to be homoplasmic and did not confirm heteroplasmy in three out of nine grandmothers found to be heteroplasmic by direct sequencing. Thus, of 12 grandmothers in whom mtDNA was analyzed by cloning, eight were heteroplasmic for mutations not detected in their grandchildren. In this study, the use of genetically related subjects allowed us to demonstrate the occurrence of age-related (> 60 years old) mutations (homoplasia and heteroplasmy). It is possible that both of these situations (homoplasia and heteroplasmy) were a long-term consequence of mitochondrial oxidative phosphorylation that can lead to the accumulation of mtDNA mutations throughout life.info:eu-repo/semantics/openAccessSociedade Brasileira de GenéticaGenetics and Molecular Biology v.34 n.1 20112011-01-01info:eu-repo/semantics/articletext/htmlhttp://old.scielo.br/scielo.php?script=sci_arttext&pid=S1415-47572011000100006en10.1590/S1415-47572010005000106 |
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Marinho,Anderson Nonato do Rosário Moraes,Milene Raiol de Santos,Sidney Santos,Ândrea Ribeiro-dos- |
| spellingShingle |
Marinho,Anderson Nonato do Rosário Moraes,Milene Raiol de Santos,Sidney Santos,Ândrea Ribeiro-dos- Human aging and somatic point mutations in mtDNA: a comparative study of generational differences (grandparents and grandchildren) |
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Marinho,Anderson Nonato do Rosário Moraes,Milene Raiol de Santos,Sidney Santos,Ândrea Ribeiro-dos- |
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Marinho,Anderson Nonato do Rosário |
| title |
Human aging and somatic point mutations in mtDNA: a comparative study of generational differences (grandparents and grandchildren) |
| title_short |
Human aging and somatic point mutations in mtDNA: a comparative study of generational differences (grandparents and grandchildren) |
| title_full |
Human aging and somatic point mutations in mtDNA: a comparative study of generational differences (grandparents and grandchildren) |
| title_fullStr |
Human aging and somatic point mutations in mtDNA: a comparative study of generational differences (grandparents and grandchildren) |
| title_full_unstemmed |
Human aging and somatic point mutations in mtDNA: a comparative study of generational differences (grandparents and grandchildren) |
| title_sort |
human aging and somatic point mutations in mtdna: a comparative study of generational differences (grandparents and grandchildren) |
| description |
The accumulation of somatic mutations in mtDNA is correlated with aging. In this work, we sought to identify somatic mutations in the HVS-1 region (D-loop) of mtDNA that might be associated with aging. For this, we compared 31 grandmothers (mean age: 63 ± 2.3 years) and their 62 grandchildren (mean age: 15 ± 4.1 years), the offspring of their daughters. Direct DNA sequencing showed that mutations absent in the grandchildren were detected in a presumably homoplasmic state in three grandmothers and in a heteroplasmic state in an additional 13 grandmothers; no mutations were detected in the remaining 15 grandmothers. However, cloning followed by DNA sequencing in 12 grandmothers confirmed homoplasia in only one of the three mutations previously considered to be homoplasmic and did not confirm heteroplasmy in three out of nine grandmothers found to be heteroplasmic by direct sequencing. Thus, of 12 grandmothers in whom mtDNA was analyzed by cloning, eight were heteroplasmic for mutations not detected in their grandchildren. In this study, the use of genetically related subjects allowed us to demonstrate the occurrence of age-related (> 60 years old) mutations (homoplasia and heteroplasmy). It is possible that both of these situations (homoplasia and heteroplasmy) were a long-term consequence of mitochondrial oxidative phosphorylation that can lead to the accumulation of mtDNA mutations throughout life. |
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Sociedade Brasileira de Genética |
| publishDate |
2011 |
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http://old.scielo.br/scielo.php?script=sci_arttext&pid=S1415-47572011000100006 |
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