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Journal Abstract Search

251 related items for PubMed ID: 36514953

  • 1. NDP52 acts as a redox sensor in PINK1/Parkin-mediated mitophagy.
    Kataura T, Otten EG, Rabanal-Ruiz Y, Adriaenssens E, Urselli F, Scialo F, Fan L, Smith GR, Dawson WM, Chen X, Yue WW, Bronowska AK, Carroll B, Martens S, Lazarou M, Korolchuk VI.
    EMBO J; 2023 Mar 01; 42(5):e111372. PubMed ID: 36514953
    [Abstract] [Full Text] [Related]

  • 2. The ubiquitin kinase PINK1 recruits autophagy receptors to induce mitophagy.
    Lazarou M, Sliter DA, Kane LA, Sarraf SA, Wang C, Burman JL, Sideris DP, Fogel AI, Youle RJ.
    Nature; 2015 Aug 20; 524(7565):309-314. PubMed ID: 26266977
    [Abstract] [Full Text] [Related]

  • 3. Reactive oxygen species trigger Parkin/PINK1 pathway-dependent mitophagy by inducing mitochondrial recruitment of Parkin.
    Xiao B, Goh JY, Xiao L, Xian H, Lim KL, Liou YC.
    J Biol Chem; 2017 Oct 06; 292(40):16697-16708. PubMed ID: 28848050
    [Abstract] [Full Text] [Related]

  • 4. LC3/GABARAPs drive ubiquitin-independent recruitment of Optineurin and NDP52 to amplify mitophagy.
    Padman BS, Nguyen TN, Uoselis L, Skulsuppaisarn M, Nguyen LK, Lazarou M.
    Nat Commun; 2019 Jan 24; 10(1):408. PubMed ID: 30679426
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  • 5. NDP52 interacts with mitochondrial RNA poly(A) polymerase to promote mitophagy.
    Furuya N, Kakuta S, Sumiyoshi K, Ando M, Nonaka R, Suzuki A, Kazuno S, Saiki S, Hattori N.
    EMBO Rep; 2018 Dec 24; 19(12):. PubMed ID: 30309841
    [Abstract] [Full Text] [Related]

  • 6. Low abundance of mitophagy markers is associated with reactive oxygen species overproduction in cows with fatty liver and causes reactive oxygen species overproduction and lipid accumulation in calf hepatocytes.
    Fang Z, Liu G, Zhu M, Wang S, Jiang Q, Loor JJ, Yu H, Hao X, Chen M, Gao W, Lei L, Song Y, Wang Z, Du X, Li X.
    J Dairy Sci; 2022 Sep 24; 105(9):7829-7841. PubMed ID: 35863923
    [Abstract] [Full Text] [Related]

  • 7. Dynamic recruitment and activation of ALS-associated TBK1 with its target optineurin are required for efficient mitophagy.
    Moore AS, Holzbaur EL.
    Proc Natl Acad Sci U S A; 2016 Jun 14; 113(24):E3349-58. PubMed ID: 27247382
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  • 10. PRKN-regulated mitophagy and cellular senescence during COPD pathogenesis.
    Araya J, Tsubouchi K, Sato N, Ito S, Minagawa S, Hara H, Hosaka Y, Ichikawa A, Saito N, Kadota T, Yoshida M, Fujita Y, Utsumi H, Kobayashi K, Yanagisawa H, Hashimoto M, Wakui H, Ishikawa T, Numata T, Kaneko Y, Asano H, Yamashita M, Odaka M, Morikawa T, Nishimura SL, Nakayama K, Kuwano K.
    Autophagy; 2019 Mar 14; 15(3):510-526. PubMed ID: 30290714
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  • 11. Nix is critical to two distinct phases of mitophagy, reactive oxygen species-mediated autophagy induction and Parkin-ubiquitin-p62-mediated mitochondrial priming.
    Ding WX, Ni HM, Li M, Liao Y, Chen X, Stolz DB, Dorn GW, Yin XM.
    J Biol Chem; 2010 Sep 03; 285(36):27879-90. PubMed ID: 20573959
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  • 13. PTEN-Induced Putative Kinase 1 (PINK1)/Parkin-Mediated Mitophagy Protects PC12 Cells Against Cisplatin-Induced Neurotoxicity.
    Zhang Y, Liu Q, Li Y, Li C, Zhu Y, Xia F, Xu S, Li W.
    Med Sci Monit; 2019 Nov 21; 25():8797-8806. PubMed ID: 31748499
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  • 15. Regulation of reactive oxygen species on the mitophagy of human periodontal ligament cells through the PINK1/Parkin pathway under starvation.
    Fan Z, Jin K, Li S, Xu J, Xu X.
    Hua Xi Kou Qiang Yi Xue Za Zhi; 2022 Dec 01; 40(6):645-653. PubMed ID: 36416316
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  • 19. PHB2 (prohibitin 2) promotes PINK1-PRKN/Parkin-dependent mitophagy by the PARL-PGAM5-PINK1 axis.
    Yan C, Gong L, Chen L, Xu M, Abou-Hamdan H, Tang M, Désaubry L, Song Z.
    Autophagy; 2020 Mar 01; 16(3):419-434. PubMed ID: 31177901
    [Abstract] [Full Text] [Related]

  • 20. Activation of PINK1-Parkin-dependent mitophagy in Tri-ortho-cresyl phosphate-treated Neuro2a cells.
    Wang Y, Zhang C, Shen Z, Kou R, Xie K, Song F.
    Chem Biol Interact; 2019 Aug 01; 308():70-79. PubMed ID: 31100276
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