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W2550996618 abstract "Metabolic function and architecture of mitochondria are intimately linked. More than 60 years ago, cristae were discovered as characteristic elements of mitochondria that harbor the protein complexes of oxidative phosphorylation, but how cristae are formed, remained an open question. Here we present experimental results obtained with yeast that support a novel hypothesis on the existence of two molecular pathways that lead to the generation of lamellar and tubular cristae. Formation of lamellar cristae depends on the mitochondrial fusion machinery through a pathway that is required also for homeostasis of mitochondria and mitochondrial DNA. Tubular cristae are formed via invaginations of the inner boundary membrane by a pathway independent of the fusion machinery. Dimerization of the F1FO-ATP synthase and the presence of the MICOS complex are necessary for both pathways. The proposed hypothesis is suggested to apply also to higher eukaryotes, since the key components are conserved in structure and function throughout evolution." @default.
W2550996618 created "2016-11-30" @default.
W2550996618 creator A5003964137 @default.
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W2550996618 creator A5065639320 @default.
W2550996618 date "2016-11-16" @default.
W2550996618 modified "2023-10-03" @default.
W2550996618 title "An evidence based hypothesis on the existence of two pathways of mitochondrial crista formation" @default.
W2550996618 cites W1493752155 @default.
W2550996618 cites W1497947649 @default.
W2550996618 cites W1852666210 @default.
W2550996618 cites W1875702310 @default.
W2550996618 cites W1932855763 @default.
W2550996618 cites W1966072209 @default.
W2550996618 cites W1967669192 @default.
W2550996618 cites W1975043141 @default.
W2550996618 cites W1975647794 @default.
W2550996618 cites W1983569416 @default.
W2550996618 cites W1989026904 @default.
W2550996618 cites W1989540421 @default.
W2550996618 cites W1997114872 @default.
W2550996618 cites W2001756549 @default.
W2550996618 cites W2003346050 @default.
W2550996618 cites W2003623858 @default.
W2550996618 cites W2003685866 @default.
W2550996618 cites W2011461336 @default.
W2550996618 cites W2014229034 @default.
W2550996618 cites W2025449918 @default.
W2550996618 cites W2031552158 @default.
W2550996618 cites W2032234589 @default.
W2550996618 cites W2041001616 @default.
W2550996618 cites W2044911918 @default.
W2550996618 cites W2050587913 @default.
W2550996618 cites W2052074631 @default.
W2550996618 cites W2057493852 @default.
W2550996618 cites W2057948966 @default.
W2550996618 cites W2060811345 @default.
W2550996618 cites W2066697510 @default.
W2550996618 cites W2068119233 @default.
W2550996618 cites W2073239775 @default.
W2550996618 cites W2085058400 @default.
W2550996618 cites W2085229930 @default.
W2550996618 cites W2085577928 @default.
W2550996618 cites W2090120422 @default.
W2550996618 cites W2090175505 @default.
W2550996618 cites W2090734611 @default.
W2550996618 cites W2090770542 @default.
W2550996618 cites W2090866135 @default.
W2550996618 cites W2091489629 @default.
W2550996618 cites W2092899472 @default.
W2550996618 cites W2098143955 @default.
W2550996618 cites W2100306282 @default.
W2550996618 cites W2100617050 @default.
W2550996618 cites W2101580077 @default.
W2550996618 cites W2106998229 @default.
W2550996618 cites W2107950396 @default.
W2550996618 cites W2110547951 @default.
W2550996618 cites W2113447854 @default.
W2550996618 cites W2113946252 @default.
W2550996618 cites W2120521980 @default.
W2550996618 cites W2121110584 @default.
W2550996618 cites W2123659844 @default.
W2550996618 cites W2124085801 @default.
W2550996618 cites W2124868679 @default.
W2550996618 cites W2125562692 @default.
W2550996618 cites W2126932378 @default.
W2550996618 cites W2127361026 @default.
W2550996618 cites W2127911529 @default.
W2550996618 cites W2128131255 @default.
W2550996618 cites W2130758099 @default.
W2550996618 cites W2131415852 @default.
W2550996618 cites W2142577446 @default.
W2550996618 cites W2148445103 @default.
W2550996618 cites W2153429125 @default.
W2550996618 cites W2157334943 @default.
W2550996618 cites W2158503550 @default.
W2550996618 cites W2159995493 @default.
W2550996618 cites W2160718997 @default.
W2550996618 cites W2161419742 @default.
W2550996618 cites W2164886443 @default.
W2550996618 cites W2168843989 @default.
W2550996618 cites W2170676142 @default.
W2550996618 cites W2414941818 @default.
W2550996618 cites W275658288 @default.
W2550996618 cites W4240065971 @default.
W2550996618 doi "https://doi.org/10.7554/elife.18853" @default.
W2550996618 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/5138035" @default.
W2550996618 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/27849155" @default.
W2550996618 hasPublicationYear "2016" @default.
W2550996618 type Work @default.
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