トップページ　>　ドージンニュース　>　Vol.179　>　Review 1：ミトコンドリアにおけるリン脂質代謝機構

ミトコンドリアにおけるリン脂質代謝機構

［参考文献］

1） B. Kornmann et al., “An ER-mitochondria tethering complex revealed by a synthetic biology screen”, Science, 2009, 325, 477-481.
2） T. T. Nguyen et al., “Gem1 and ERMES Do Not Directly Affect Phosphatidylserine Transport from ER to Mitochondria or Mitochondrial Inheritance”, Traffic, 2012, 13, 880-890.
3） R. Kojima, T. Endo and Y. Tamura, “A phospholipid transfer function of ER-mitochondria encounter structure revealed in vitro”, Sci. Rep., 2016, 6, 30777.
4） S. Kawano et al., “Structure-function insights into direct lipid transfer between membranes by Mmm1-Mdm12 of ERMES”, J. Cell Biol., 2018,217, 959-974.
5） A. B. Lang, A. T. J. Peter, P. Walter and B. Kornmann, “ER-mitochondrial junctions can be bypassed by dominant mutations in the endosomal protein Vps13”, J. Cell Biol., 2015, 210, 883-890.
6） B. D. M. Bean et al., “Competitive organelle-specific adaptors recruit Vps13 to membrane contact sites”, J. Cell Biol., 2018, 217, 3593-3607.
7） R. Kojima, S. Kajiura, H. Sesaki, T. Endo and Y. Tamura, “Identification of multi-copy suppressors for endoplasmic reticulum-mitochondria tethering proteins in Saccharomyces cerevisiae”, FEBS Lett., 2016, 590, 3061-3070.
8） N. Kumar et al., “VPS13A and VPS13C are lipid transport proteins differentially localized at ER contact sites”, J. Cell Biol., 2018, 217, 3625-3639.
9） H. A. Baldwin et al., “VPS13D promotes peroxisome biogenesis”, J. Cell Biol., 2021, 220.
10） A. Guillén-Samander et al., “VPS13D bridges the ER to mitochondria and peroxisomes via Miro”, J. Cell Biol., 2021, 220.
11） D. P. Valverde et al., “ATG2 transports lipids to promote autophagosome biogenesis”, J. Cell Biol., 2019, 218, 1787-1798.
12） T. Osawa, et al., “Atg2 mediates direct lipid transfer between membranes for autophagosome formation”, Nat. Struct. Mol. Biol., 2019, 26, 281-288.
13） H. Sesaki et al., “Ups1p, a conserved intermembrane space protein, regulates mitochondrial shape and alternative topogenesis of Mgm1p”, J. Cell Biol., 2006, 173, 651-658.
14） Y. Tamura, T. Endo, M. Iijima and H. Sesaki, “Ups1p and Ups2p antagonistically regulate cardiolipin metabolism in mitochondria”, J. Cell Biol., 2009, 185, 1029-1045.
15） Y. Tamura, M. Iijima and H. Sesaki, “Mdm35p imports Ups proteins into the mitochondrial intermembrane space by functional complex formation”, EMBO J., 2010, 29, 2875-2887.
16） M. Connerth et al., “Intramitochondrial Transport of Phosphatidic Acid in Yeast by a Lipid Transfer Protein”, Science (80-. ). 2012, 338, 815-818.
17） Y. Watanabe, Y. Tamura, S. Kawano and T. Endo, “Structural and mechanistic insights into phospholipid transfer by Ups1-Mdm35 in mitochondria”, Nat. Commun., 2015, 6, 7922.
18） N. Miyata, Y. Watanabe, Y. Tamura, T. Endo and O. Kuge, “Phosphatidylserine transport by Ups2-Mdm35 in respiration-active mitochondria”, J. Cell Biol., 2016, 214, 77-88.