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W2034134168 abstract "The mitochondrial free radical theory of aging (MFRTA) states that reactive oxygen species (ROS) generated at the respiratory electron transport chain are active in causing age-related damage of biomolecules like lipids, nucleic acids and proteins. Accumulation of this kind of damage results in functional impairments, aging and death of biological systems. Here we report data of an analysis to monitor the age-related quantitative protein composition of the mitochondria of the fungal aging model Podospora anserina. The impact of senescence on mitochondrial protein composition was analyzed by LC-MS. In an untargeted proteomic approach, we identified 795 proteins in samples from juvenile and senescent wild-type cultures and obtained quantitative information for 226 of these proteins by spectral counting. Despite the broad coverage of the proteome, no substantial changes in known age-related pathways could be observed. For a more detailed analysis, a targeted proteome analysis was applied focusing on 15 proteins from respiratory, ROS-scavenging and quality control pathways. Analyzing six distinct age-stages from juvenile to senescent P. anserina cultures revealed low, but statistically significant changes for the mitochondrial respiratory complexes. A P. anserina PaSod3 over-expression mutant with a phenotype of mitochondrial ROS over-production was used for biological evaluation of changes observed during aging. LC-MS analysis of the mutant revealed severe changes to the mitochondrial proteome--substantially larger than observed during senescence. Interestingly the amount of ATP synthase subunit g, involved in cristae formation is significantly decreased in the mutant implicating ROS-induced impairments in ATP synthase dimer and cristae formation. The difference between protein-profiles of aging wild type and ROS stressed mutant suggests that oxidative stress within the mitochondria is not the dominating mechanism for the aging process in P. anserina. Collectively, while our data do not exclude an effect of ROS on specific proteins and in signaling and control of pathways which are governing aging of P. anserina, it contradicts increasing ROS as a cause of a gross general and non-selective accumulation of damaged proteins during senescence. Instead, ROS may be effective by controlling specific regulators of mitochondrial function." @default.
W2034134168 created "2016-06-24" @default.
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W2034134168 date "2014-08-01" @default.
W2034134168 modified "2023-10-16" @default.
W2034134168 title "Proteomic analysis of mitochondria from senescent Podospora anserina casts new light on ROS dependent aging mechanisms" @default.
W2034134168 cites W1482928309 @default.
W2034134168 cites W1513192819 @default.
W2034134168 cites W1566800357 @default.
W2034134168 cites W1964726418 @default.
W2034134168 cites W1966694337 @default.
W2034134168 cites W1977893444 @default.
W2034134168 cites W1979713317 @default.
W2034134168 cites W1988601931 @default.
W2034134168 cites W1997504014 @default.
W2034134168 cites W1998098749 @default.
W2034134168 cites W1998162530 @default.
W2034134168 cites W2004112725 @default.
W2034134168 cites W2008144111 @default.
W2034134168 cites W2011061591 @default.
W2034134168 cites W2013854088 @default.
W2034134168 cites W2014355012 @default.
W2034134168 cites W2017032119 @default.
W2034134168 cites W2020559696 @default.
W2034134168 cites W2022161896 @default.
W2034134168 cites W2025970537 @default.
W2034134168 cites W2026465178 @default.
W2034134168 cites W2027605125 @default.
W2034134168 cites W2030086654 @default.
W2034134168 cites W2031475765 @default.
W2034134168 cites W2036793307 @default.
W2034134168 cites W2043062268 @default.
W2034134168 cites W2044240648 @default.
W2034134168 cites W2047336422 @default.
W2034134168 cites W2053894359 @default.
W2034134168 cites W2064676737 @default.
W2034134168 cites W2068337326 @default.
W2034134168 cites W2068481474 @default.
W2034134168 cites W2074275208 @default.
W2034134168 cites W2076069694 @default.
W2034134168 cites W2083688001 @default.
W2034134168 cites W2085525271 @default.
W2034134168 cites W2091944089 @default.
W2034134168 cites W2093192969 @default.
W2034134168 cites W2097713953 @default.
W2034134168 cites W2098442982 @default.
W2034134168 cites W2099980445 @default.
W2034134168 cites W2104642589 @default.
W2034134168 cites W2106422429 @default.
W2034134168 cites W2119855892 @default.
W2034134168 cites W2126563499 @default.
W2034134168 cites W2128599987 @default.
W2034134168 cites W2137564359 @default.
W2034134168 cites W2141091417 @default.
W2034134168 cites W2147698768 @default.
W2034134168 cites W2157918066 @default.
W2034134168 cites W2159482845 @default.
W2034134168 cites W2163733155 @default.
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W2034134168 cites W2167089719 @default.
W2034134168 cites W2168344719 @default.
W2034134168 cites W2171097066 @default.
W2034134168 cites W2315512556 @default.
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W2034134168 doi "https://doi.org/10.1016/j.exger.2014.02.008" @default.
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