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PubMedID | Title | Journal | Author | Re | updated |
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27846364 | HSF1 stress response pathway regulates autophagy receptor SQSTM1/p62-associated proteostasis. | Autophagy, 2016 Nov 15; [Epub ahead of print] | Watanabe Y, Tsujimura A, Taguchi K, Tanaka M | 0 | 2020/08/11 |
28186333 | The exponential growth of autophagy-related research: from the humble yeast to the Nobel Prize. | FEBS Lett, 2017 Mar;591(5);681-689, | Mizushima N | 0 | 2019/09/28 |
31526472 | A critical role of VMP1 in lipoprotein secretion. | Elife, 2019 Sep 17; | Morishita H, Zhao YG, ..., Li D, Mizushima N | 0 | 2019/09/21 |
31406169 | Identification of a factor controlling lysosomal homeostasis using a novel lysosomal trafficking probe. | Sci Rep, 2019 Aug 12;9(1);11635, | Ishii S, Matsuura A, Itakura E | 0 | 2019/09/19 |
31379911 | , a New Model Plant for Autophagy Studies. | Front Plant Sci, 2019;935, | Norizuki T, Kanazawa T, ..., Tsukaya H, Ueda T | 0 | 2019/08/23 |
31271352 | The autophagic membrane tether ATG2A transfers lipids between membranes. | Elife, 2019 Jul 04; | Maeda S, Otomo C, Otomo T | 0 | 2019/08/13 |
31196886 | MITOL prevents ER stress-induced apoptosis by IRE1α ubiquitylation at ER-mitochondria contact sites. | EMBO J, 2019 Jun 13; [Epub ahead of print] | 0 | 2019/06/16 | |
31006538 | Intrinsically Disordered Protein TEX264 Mediates ER-phagy. | Mol Cell, 2019 Apr 11; [Epub ahead of print] | Chino H, Hatta T, Natsume T, Mizushima N | 0 | 2019/05/08 |
30787039 | COPII vesicles contribute to autophagosomal membranes. | J Cell Biol, 2019 Feb 20; [Epub ahead of print] | Shima T, Kirisako H, Nakatogawa H | 0 | 2019/04/26 |
30810528 | Two distinct mechanisms target the autophagy-related E3 complex to the pre-autophagosomal structure. | Elife, 2019 Feb 27; | Harada K, Kotani T, ..., Ohsumi Y, Nakatogawa H | 0 | 2019/04/21 |
30911187 | Evolution from covalent conjugation to non-covalent interaction in the ubiquitin-like ATG12 system. | Nat Struct Mol Biol, 2019 Apr;26(4);289-296, | Pang Y, Yamamoto H, ..., Jia H, Mizushima N | 0 | 2019/04/14 |
30911189 | Atg2 mediates direct lipid transfer between membranes for autophagosome formation. | Nat Struct Mol Biol, 2019 Mar 25; [Epub ahead of print] | Osawa T, Kotani T, ..., Ohsumi Y, Noda NN | 0 | 2019/03/31 |
30783089 | Suppression of autophagic activity by Rubicon is a signature of aging. | Nat Commun, 2019 Feb 19;10(1);847, | Nakamura S, Oba M, ..., Antebi A, Yoshimori T | 0 | 2019/03/19 |
30451685 | Lipidation-independent vacuolar functions of Atg8 rely on its noncanonical interaction with a vacuole membrane protein. | Elife, 2018 Nov 19; [Epub ahead of print] | Liu XM, Yamasaki A, ..., Noda NN, Du LL | 0 | 2018/11/21 |
30309841 | NDP52 interacts with mitochondrial RNA poly(A) polymerase to promote mitophagy. | EMBO Rep, 2018 Oct 11; [Epub ahead of print] | Furuya N, Kakuta S, ..., Saiki S, Hattori N | 0 | 2018/10/16 |
30254161 | The Atg2-Atg18 complex tethers pre-autophagosomal membranes to the endoplasmic reticulum for autophagosome formation. | Proc Natl Acad Sci U S A, 2018 Oct 09;115(41);10363-10368, | Kotani T, Kirisako H, ..., Ohsumi Y, Nakatogawa H | 0 | 2018/10/11 |
30185561 | Insights into autophagosome biogenesis from structural and biochemical analyses of the ATG2A-WIPI4 complex. | Proc Natl Acad Sci U S A, 2018 Sep 05; [Epub ahead of print] | Chowdhury S, Otomo C, ..., Lander GC, Otomo T | 0 | 2018/10/05 |
30093494 | as a gene required for autophagosome formation. | J Cell Biol, 2018 Aug 09; [Epub ahead of print] | Morita K, Hama Y, ..., Mano H, Mizushima N | 0 | 2018/08/16 |
30030437 | An autophagy assay reveals the ESCRT-III component CHMP2A as a regulator of phagophore closure. | Nat Commun, 2018 Jul 20;9(1);2855, | Takahashi Y, He H, ..., Abraham T, Wang HG | 0 | 2018/08/10 |
29925000 | The PP2A-like Protein Phosphatase Ppg1 and the Far Complex Cooperatively Counteract CK2-Mediated Phosphorylation of Atg32 to Inhibit Mitophagy. | Cell Rep, 2018 Jun 19;23(12);3579-3590, | Furukawa K, Fukuda T, ..., Nakatogawa H, Kanki T | 0 | 2018/07/03 |
29868776 | Biallelic UFM1 and UFC1 mutations expand the essential role of ufmylation in brain development. | Brain, 2018 Jun 02; [Epub ahead of print] | Nahorski MS, Maddirevula S, ..., Komatsu M, Alkuraya FS | 0 | 2018/06/13 |
29708272 | Three Distinct Types of Microautophagy Based on Membrane Dynamics and Molecular Machineries. | Bioessays, 2018 Apr 30; [Epub ahead of print] | Oku M, Sakai Y | 0 | 2018/05/28 |
29698392 | Gtr/Ego-independent TORC1 activation is achieved through a glutamine-sensitive interaction with Pib2 on the vacuolar membrane. | PLoS Genet, 2018 Apr;14(4);e1007334, | Ukai H, Araki Y, ..., May AI, Noda T | 0 | 2018/05/21 |
29255173 | The autophagy receptor ALLO-1 and the IKKE-1 kinase control clearance of paternal mitochondria in Caenorhabditis elegans. | Nat Cell Biol, 2018 Jan;20(1);81-91, | Sato M, Sato K, ..., Kosako H, Sato K | 0 | 2018/03/26 |
29514857 | Rab7 knockout unveiled regulated autolysosome maturation induced by glutamine starvation. | J Cell Sci, 2018 Mar 07; [Epub ahead of print] | 0 | 2018/03/13 | |
29434298 | Loss of autophagy in dopaminergic neurons causes Lewy pathology and motor dysfunction in aged mice. | Sci Rep, 2018 Feb 12;8(1);2813, | Sato S, Uchihara T, ..., Tanaka K, Hattori N | 0 | 2018/03/05 |
29475974 | Forced lipophagy reveals that lipid droplets are required for early embryonic development in mouse. | Development, 2018 Feb 23;145(4); | Tatsumi T, Takayama K, ..., Itakura E, Tsukamoto S | 0 | 2018/03/02 |
29339380 | Negative regulation of the Keap1-Nrf2 pathway by a p62/Sqstm1 splicing variant. | Mol Cell Biol, 2018 Jan 16; [Epub ahead of print] | Kageyama S, Saito T, ..., Ichimura Y, Komatsu M | 0 | 2018/02/04 |
29237558 | Atg7 activates an autophagy-essential ubiquitin-like protein Atg8 through multi-step recognition. | J Mol Biol, 2017 Dec 10; [Epub ahead of print] | Yamaguchi M, Satoo K, ..., Inagaki F, Noda NN | 0 | 2017/12/18 |
28931592 | Ubiquitin ligase SPSB4 diminishes cell repulsive responses mediated by EphB2. | Mol Biol Cell, 2017 Nov 15;28(24);3532-3541, | Okumura F, Joo-Okumura A, ..., Nakatsukasa K, Kamura T | 0 | 2017/11/17 |
29113029 | Differential requirement for ATG2A domains for localization to autophagic membranes and lipid droplets. | FEBS Lett, 2017 Nov 07; [Epub ahead of print] | Tamura N, Nishimura T, ..., Yamamoto H, Mizushima N | 0 | 2017/11/14 |
28980865 | Morphometric analysis of autophagy-related structures in Saccharomyces cerevisiae. | Autophagy, 2017 Oct 05; [Epub ahead of print] | Kawaoka T, Ohnuki S, Ohya Y, Suzuki K | 0 | 2017/10/10 |
28838958 | Evidence for ESCRT- and clathrin-dependent microautophagy. | J Cell Biol, 2017 Aug 24; [Epub ahead of print] | Oku M, Maeda Y, ..., Fujimoto T, Sakai Y | 0 | 2017/08/28 |
28743755 | Ubiquitination of exposed glycoproteins by SCF(FBXO27) directs damaged lysosomes for autophagy. | Proc Natl Acad Sci U S A, 2017 Jul 25; [Epub ahead of print] | Yoshida Y, Yasuda S, ..., Matsuda N, Tanaka K | 0 | 2017/07/31 |
28724756 | Lysosomal targeting of SIDT2 via multiple YXXΦ motifs is required for SIDT2 function in the process of RNautophagy. | J Cell Sci, 2017 Jul 19; [Epub ahead of print] | Contu VR, Hase K, ..., Wada K, Kabuta T | 0 | 2017/07/26 |
28704456 | Atg4 plays an important role in efficient expansion of autophagic isolation membranes by cleaving lipidated Atg8 in Saccharomyces cerevisiae. | PLoS One, 2017;12(7);e0181047, | Hirata E, Ohya Y, Suzuki K | 0 | 2017/07/19 |
28683091 | Endothelial cells are intrinsically defective in xenophagy of Streptococcus pyogenes. | PLoS Pathog, 2017 Jul;13(7);e1006444, | Lu SL, Kawabata T, ..., Lin YS, Yoshimori T | 0 | 2017/07/07 |
28460043 | Cell-free mitochondrial fusion assay detected by specific protease reaction revealed Ca2+ as regulator of mitofusin-dependent mitochondrial fusion. | J Biochem, 2017 Apr 27; [Epub ahead of print] | Ishihara N, Maeda M, Ban T, Mihara K | 0 | 2017/06/30 |
28628083 | Molecular basis of selective mitochondrial fusion by heterotypic action between OPA1 and cardiolipin. | Nat Cell Biol, 2017 Jul;19(7);856-863, | Ban T, Ishihara T, ..., Mihara K, Ishihara N | 0 | 2017/06/30 |
28590904 | Niemann-Pick type C proteins promote microautophagy by expanding raft-like membrane domains in the yeast vacuole. | Elife, 2017 Jun 07; | Tsuji T, Fujimoto M, ..., Takatori S, Fujimoto T | 0 | 2017/06/08 |
28361485 | The Use of Correlative Light-Electron Microscopy (CLEM) to Study PINK1/Parkin-Mediated Mitophagy. | Methods Mol Biol, 2017 Mar 31; [Epub ahead of print] | Kishi-Itakura C, Buss F | 1 | 2017/05/24 |
28495679 | Autophagosome formation is initiated at phosphatidylinositol synthase-enriched ER subdomains. | EMBO J, 2017 May 11; [Epub ahead of print] | Nishimura T, Tamura N, ..., Yamamoto H, Mizushima N | 0 | 2017/05/14 |
28492547 | Autophagy is essential for hearing in mice. | Cell Death Dis, 2017 May 11;8(5);e2780, | Fujimoto C, Iwasaki S, ..., Mizushima N, Yamasoba T | 0 | 2017/05/13 |
28483912 | An in vitro TORC1 kinase assay that recapitulates the Gtr-independent glutamine-responsive TORC1 activation mechanism on yeast vacuoles. | Mol Cell Biol, 2017 May 08; [Epub ahead of print] | Tanigawa M, Maeda T | 0 | 2017/05/10 |
28320861 | Recycling of iron via autophagy is critical for the transition from glycolytic to respiratory growth. | J Biol Chem, 2017 Mar 20; [Epub ahead of print] | Horie T, Kawamata T, Matsunami M, Ohsumi Y | 0 | 2017/05/09 |
28264932 | Zinc starvation induces autophagy in yeast. | J Biol Chem, 2017 Mar 06; [Epub ahead of print] | Kawamata T, Horie T, ..., Sasaki M, Ohsumi Y | 0 | 2017/05/09 |
28394947 | Hypoxia-inducible factor-2α stabilizes the von Hippel-Lindau (VHL) disease suppressor, Myb-related protein 2. | PLoS One, 2017;12(4);e0175593, | Okumura F, Joo-Okumura A, Nakatsukasa K, Kamura T | 0 | 2017/04/17 |
28369861 | Dissection of ubiquitinated protein degradation by basal autophagy. | FEBS Lett, 2017 Mar 30; [Epub ahead of print] | Takayama K, Matsuura A, Itakura E | 0 | 2017/04/16 |
28039390 | Lysosomal degradation of intracellular nucleic acids-multiple autophagic pathways. | J Biochem, 2016 Dec 30; [Epub ahead of print] | Fujiwara Y, Wada K, Kabuta T | 0 | 2017/03/23 |
28277980 | SIDT2 mediates gymnosis, the uptake of naked single-stranded oligonucleotides into living cells. | RNA Biol, 2017 Mar 09; [Epub ahead of print] | Takahashi M, Contu VR, ..., Wada K, Kabuta T | 0 | 2017/03/21 |
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