"Vladimir V. Rogov,Ioannis P. Nezis,Panagiotis Tsapras,Hong Zhang,Yasin Dagdas,Nobuo N. Noda,Hitoshi Nakatogawa,Martina Wirth,Stephane Mouilleron,David G. McEwan,Christian Behrends,Vojo Deretic,Zvulun Elazar,Sharon A. Tooze,Ivan Dikic,Trond Lamark &Terje Johansen","Atg8 family proteins, LIR/AIM motifs and other interaction modes.",,"Autophagy Reports",,"Vol. 2","Issue 1",,2023,Mar.
"Keisuke Mochida,Hitoshi Nakatogawa","ER-phagy: selective autophagy of the endoplasmic reticulum.",,"EMBO Reports",,"Vol. 23",,,2022,June
"Keisuke Mochida,Hitoshi Nakatogawa","Atg39 binding to the inner nuclear membrane triggers nuclear envelope deformation in piecemeal macronucleophagy",,"Autophagy",,"Vol. 18","number 12",,2022,Apr.
"Ziyang Li,Hitoshi Nakatogawa","Degradation of nuclear components via different autophagy pathways.",,"Trends in Cell Biol.",,"  32","  7","  574-584",2022,Jan.
"Keisuke Mochida,Toshifumi Otani,Yuto Katsumata,Hiromi Kirisako,Chika Kakuta,Tetsuya Kotani,Hitoshi Nakatogawa","Atg39 links and deforms the outer and inner nuclear membranes in selective autophagy of the nucleus.",,"J Cell Biol",,"  221","  2","  e202103178",2022,Jan.
"Tatsuro Maruyama,Jahangir Md Alam,Tomoyuki Fukuda,Shun Kageyama,Hiromi Kirisako,Yuki Ishii,Ichio Shimada,Yoshinori Ohsumi,Masaaki Komatsu,Tomotake Kanki,Hitoshi Nakatogawa,Nobuo N Noda","Membrane perturbation by lipidated Atg8 underlies autophagosome biogenesis.",,"Nat. Struct. Mol. Biol.",,,"  7","  583-593.",2021,July
"中戸川 仁","酵母の選択的オートファジー",,"実験医学  特集「選択的オートファジー〜既成概念を覆す分子機構と生理作用」",,,"  13","  2039-2045",2021,July
"Mochida K,Hitoshi Nakatogawa","Atg8-mediated super-assembly of Atg40 induces local ER remodeling in reticulophagy.",,"Autophagy",,,,,2020,Oct.
"Matoba K,Kotani T,Tsutsumi A,Tsuji T,Mori T,Noshiro D,Sugita Y,Nomura N,Iwata S,Ohsumi Y,Fujimoto T,Nakatogawa H,Kikkawa M,Noda N.N","Atg9 is a lipid scramblase that mediates autophagosomal membrane expansion.",,"Nat. Struct. Mol. Biol.",,,"  27","  1185?1193",2020,Oct.
"Meguro S,Zhuang X,Kirisako H,Nakatogawa H","Pex3 confines pexophagy receptor activity of Atg36 to peroxisomes by regulating Hrr25-mediated phosphorylation and proteasomal degradation.",,"J. Biol. Chem.",,,,,2020,Sept.
"Mochida K,Yamasaki A,Matoba K,Kirisako H,Noda. N.N,Nakatogawa H","Super-assembly of ER-phagy receptor Atg40 induces local ER remodeling at contacts with forming autophagosomal membranes.",,"Nat. Commun.",,,,,2020,July
"Hitoshi Nakatogawa","Mechanisms governing autophagosome biogenesis.",,"Nat. Rev. Mol. Cell Biol.",,,"  21","  439?458.",2020,May
"Tomioka Y,Kotani T,Kirisako H,Oikawa Y,Kimura Y,Hirano H,Ohsumi Y,Nakatogawa H","TORC1 inactivation stimulates autophagy of nucleoporin and nuclear pore complexes.",,"J. Cell Biol.",,,,,2020,May
"Obara K,Kotani T,Hitoshi Nakatogawa,Kihara A,Kamura T","N-glycosylation of Rim21 at an unconventional site fine-tunes its behavior in the plasma membrane.",,"Cell. Struct. Funct.",,,"  45","  1-8.",2020,Jan.
"Hitoshi Nakatogawa","Autophagic degradation of the endoplasmic reticulum.",,,,,"  96","  1-9.",2020,Jan.
"中戸川仁","オートファジーと脂質との新たなつながり",,"オートファジーと脂質との新たなつながり セラミド研究の新展開?基礎から応用へ?（編集: セラミド研究会）","株式会社食品化学新聞社",,,"  164-172.",2019,June
"Osawa T,Kotani T,Kawaoka T,Hirata E,Suzuki K,Hitoshi Nakatogawa,Yoshinori Ohsumi,Noda NN","Atg2 mediates direct lipid transfer between membranes for autophagosome formation.",,"Nat. struct. mol. biol.",,,"  26","  281?288",2019,Mar.
"Kumi Harada,Tetsuya Kotani,Kirisako H,Sakoh-Nakatogawa M,Oikawa Y,Kimura Y,Hirano H,Yamamoto H,Ohsumi Y,Hitoshi Nakatogawa","Two distinct mechanisms target the autophagy-related E3 complex to the pre-autophagosomal structure.",,"eLife",,,"  8","  e43088",2019,Feb.
"Liu XM,Yamasaki A,Du XM,Coffman VC,Ohsumi Y,Nakatogawa H,Wu JQ,Noda NN,Du LL","Lipidation-independent vacuolar functions of Atg8 rely on its noncanonical interaction with a vacuole membrane protein.",,"eLife",,"Vol. 7","No. e41237",,2018,Nov.
"Kotani T,Kirisako H,Koizumi M,Ohsumi Y,Nakatogawa H","The Atg2-Atg18 complex tethers pre-autophagosomal membranes to the endoplasmic reticulum for autophagosome formation.",,"Proceedings of the National Academy of Sciences of the United States of America",,"Vol. 41",,"pp. 10363-10368",2018,Oct.
"中戸川仁","Spoon-feeding ribosomes to autophagy.",,"Molecular cell",,"Vol. 71","No. 2","pp. 197-199",2018,July
"Kentaro Furukawa,Tomoyuki Fukuda,Shun-ichi Yamashita,Tetsu Saigusa,Yusuke Kurihara,Yutaka Yoshida,Hiromi Kirisako,中戸川 仁,Tomotake Kanki","The PP2A-like protein phosphatase Ppg1 and the Far complex cooperatively counteract CK2-mediated phosphorylation of Atg32 to inhibit mitophagy.",,"Cell Reports",,"Vol. 23","No. 12","  3579-3590",2018,June
"中戸川万智子,中戸川仁","オートファジーと脂質恒常性",,"Plant Morphology",,"Vol. 30","No. 1","pp. 25-29",2018,Apr.
"中戸川 仁","オートファジーによるオルガネラの選択的分解：酵母における ERファジーおよびヌクレオファジーの発見",,"膜",,"Vol. 42","No. 5","p. 181-185",2018,Jan.
"大隅良典,吉森保,水島 昇,中戸川仁","オートファゴソームの形成における膜動態のメカニズム",,"オートファジー 分子メカニズムの理解から病態の解明まで","南山堂",,,,2017,Dec.
"持田 啓佑,中戸川 仁","酵母における選択的オートファジー",,"実験医学増刊 The オートファジー 研究者たちの集大成が見える最新ビジュアルテキスト","羊土社","Vol. 35","No. 15","p. 82-89",2017,Sept.
"持田 啓佑,中戸川 仁","ERファジーとヌクレオファジー オートファジーによる小胞体と核の分解",,"化学と生物",,"Vol. 55","No. 2","p. ,86-87",2017,Jan.
"Klionsky DJ,Abdelmohsen K,Abe A,Abedin MJ,Abeliovich H,Acevedo Arozena A,Adachi H,Adams CM,Adams PD,Adeli K,Adhihetty PJ,Adler SG,Agam G,Agarwal R,Aghi MK,Agnello M,Agostinis P,Aguilar PV,Aguirre-Ghiso J,Airoldi EM,Hitoshi Nakatogawa","Guidelines for the use and interpretation of assays for monitoring autophagy (3rd edition).",,"Autophagy",,"Vol. 12","No. 1","pp. 1-222",2016,Dec.
"Yamasaki A,Watanabe Y,Adachi W,Suzuki K,Matoba K,Kirisako H,Kumeta H,Nakatogawa H,Ohsumi Y,Inagaki F,Noda NN*","Structural basis for receptor-mediated selective autophagy of aminopeptidase I aggregates.",,"Cell Reports",,"Vol. 16","No. 1","pp. 19-27",2016,June
"Kaori Sakakibara,Akinori Eiyama,Sho W Suzuki,Machiko Sakoh‐Nakatogawa,Nobuaki Okumura,Motohiro Tani,Ayako Hashimoto,Sachiyo Nagumo,Noriko Kondo‐Okamoto,Chika Kondo‐Kakuta,Eri Asai,Hiromi Kirisako,Nakatogawa H,Osamu Kuge,Toshifumi Takao,Yoshinori Ohsumi,Koji Okamoto","Phospholipid methylation controls Atg32‐mediated mitophagy and Atg8 recycling",,"The EMBO Journal",,"Vol. 34","No. 21","pp. 2703-2719",2015,Nov.
"Nakatogawa H","Regulated degradation: controlling the stability of autophagy gene transcripts.",,"Developmental Cell",,"Vol. 34","No. 2","pp. 132?134",2015,July
"Nakatogawa H","Eating the ER and the nucleus for survival under starvation conditions.",,"Molecular and Cellular Oncology",,"Vol. 3","No. 2","  e1073416",2015,July
"Keisuke Mochida,Yu Oikawa,Yayoi Kimura,Hiromi Kirisako,Hisashi Hirano,Yoshinori Ohsumi,Nakatogawa H","Receptor-mediated selective autophagy degrades the endoplasmic reticulum and the nucleus",,"Nature",,"Vol. 522","No. 7556","pp. 359?362",2015,June
"Machiko Sakoh-Nakatogawa,Hiromi Kirisako,Nakatogawa H,Yoshinori Ohsumi","Localization of Atg3 to autophagy-related membranes and its enhancement by the Atg8-family interacting motif to promote expansion of the membranes.",,"FEBS Letters",,"Vol. 589","No. 6","pp. 744-749",2015,Mar.
"Nakatogawa H","Hrr25: an emerging major player in selective autophagy regulation in Saccharomyces cerevisiae.",,"Autophagy",,"Vol. 11","No. 2","pp. 432-3.",2015,
"Nakatogawa H,Mochida K","Reticulophagy and nucleophagy: New findings and unsolved issues.",,"Autophagy",,"Vol. 11","No. 12","pp. 2377-8.",2015,
"Mochida K,Nakatogawa H","Appetite for ER/nucleus destruction.",,"Cell Cycle",,"Vol. 14","No. 20","pp. 3209-10",2015,
"Keisuke Mochida,Yoshinori Ohsumi,Hitoshi Nakatogawa","Hrr25 phosphorylates the autophagic receptor Atg34 to promote vacuolar transport of α-mannosidase under nitrogen starvation conditions.",,"FEBS Letters",,"Vol. 588","No. 21","pp. 3862-3869",2014,Nov.
"Chikara Tanaka,Li-Jing Tan,Keisuke Mochida,Hiromi Kirisako,Michiko Koizumi,Eri Asai,Machiko Sakoh-Nakatogawa,Yoshinori Ohsumi,Hitoshi Nakatogawa","Hrr25 triggers selective autophagy-related pathways by phosphorylating receptor proteins",,"Journal of Cell Biology",,"Vol. 207","No. 1","pp. 91-105",2014,Oct.
"中戸川仁","オートファジーにおける二つのユビキチン様結合システムの役割と作動機構",,"生化学","日本生化学会","Vol. 86","No. 4","pp. 441-451",2014,Aug.
"Hitoshi Nakatogawa,Yoshinori Ohsumi","Autophagy: close contact keeps out the uninvited.",,"Current Biology",,"Vol. 24","No. 12","pp. R560-R562",2014,June
"Knorr, Roland L.,Hitoshi Nakatogawa,Ohsumi, Yoshinori,Lipowsky, Reinhard,Baumgart, Tobias,Dimova, Rumiana","Membrane Morphology Is Actively Transformed by Covalent Binding of the Protein Atg8 to PE-Lipids",,"Plos One",,"Vol. 9","No. 12",,2014,
"Machiko Sakoh-Nakatogawa,Kazuaki Matoba,Eri Asai,Hiromi Kirisako,Junko Ishii,Nobuo N Noda,Fuyuhiko Inagaki,Hitoshi Nakatogawa,Yoshinori Ohsumi","Atg12-Atg5 conjugate enhances E2 activity of Atg3 by rearranging its catalytic site.",,"Nature Structural & Molecular Biology",,"Vol. 20","No. 4","pp. 433-439",2013,Mar.
"Hitoshi Nakatogawa","Systematic analysis of essential genes identifies those involved in autophagy in Saccharomyces cerevisiae",,"Genes & Genetic Systems",,"Vol. 88","No. 6","pp. 390",2013,
"Fujita, Naonobu,Morita, Eiji,Itoh, Takashi,Tanaka, Atsushi,Nakaoka, Megumi,Osada, Yuki,Umemoto, Tetsuo,Saitoh, Tatsuya,Hitoshi Nakatogawa,Kobayashi, Shouhei,Haraguchi, Tokuko,Guan, Jun-Lin,Iwai, Kazuhiro,Tokunaga, Fuminori,Saito, Kazunobu,Ishibashi, Koutaro,Akira, Shizuo,Fukuda, Mitsunori,Noda, Takeshi,Yoshimori, Tamotsu","Recruitment of the autophagic machinery to endosomes during infection is mediated by ubiquitin",,"Journal of Cell Biology",,"Vol. 203","No. 1","pp. 115-128",2013,
"Hitoshi Nakatogawa,Lane, JD","Two ubiquitin-like conjugation systems that mediate membrane formation during autophagy",,"Autophagy: Molecules and Mechanisms",,"Vol. 55",,"pp. 39-50",2013,
"Masaya Yamaguchi,Kazuaki Matoba,Ryoko Sawada,Yuko Fujioka,Hitoshi Nakatogawa,Hayashi Yamamoto,Yoshihiro Kobashigawa,Hisashi Hoshida,Rinji Akada,Yoshinori Ohsumi,Nobuo N Noda,Fuyuhiko Inagaki","Noncanonical recognition and UBL loading of distinct E2s by autophagy-essential Atg7.",,"Nature Structural & Molecular Biology",,"Vol. 19","No. 12","pp. 1250-1256",2012,Nov.
"Hitoshi Nakatogawa,Shiran Ohbayashi,Machiko Sakoh-Nakatogawa,Soichiro Kakuta,Sho W. Suzuki,Hiromi Kirisako,Chika Kondo-Kakuta,Nobuo N. Noda,Hayashi Yamamoto,Yoshinori Ohsumi","The autophagy-related protein kinase Atg1 interacts with the ubiquitin-like protein Atg8 via the Atg8 family interacting motif to facilitate autophagosome formation.",,"Journal of Biological Chemistry",,"Vol. 287","No. 34","pp. 28503-28507",2012,Aug.
"Klionsky DJ,Abdalla FC,Abeliovich H,Abraham RT,Acevedo-Arozena A,Adeli K,Agholme L,Agnello M,Agostinis P,Aguirre-Ghiso JA,Ahn HJ,Ait-Mohamed O,Ait-Si-Ali S,Akematsu T,Akira S,Al-Younes HM,Al-Zeer MA,Albert ML,Albin RL,Alegre-Abarrategui J,Hitoshi Nakatogawa","Guidelines for the use and interpretation of assays for monitoring autophagy.",,"Autophagy",,"Vol. 8","No. 4","pp. 445-544",2012,Apr.
"Noriko Kondo-Okamoto,Nobuo N. Noda,Sho W. Suzuki,Hitoshi Nakatogawa,Ikuko Takahashi,Miou Matsunami,Ayako Hashimoto,Fuyuhiko Inagaki,Yoshinori Ohsumi,Koji Okamoto","Autophagy-related protein 32 as autophagic degron and directly initiates mitophagy.",,"JOURNAL OF BIOLOGICAL CHEMISTRY",,"Vol. 287","No. 13","pp. 10631-10638",2012,Mar.
"Hitoshi Nakatogawa,Junko Ishii,Eri Asai,Yoshinori Ohsumi","Atg4 recycles inappropriately lipidated Atg8 to promote autophagosome biogenesis.",,"Autophagy",,"Vol. 8","No. 2","pp. 177-186",2012,Feb.
"Nakatogawa H,Yoshinori Ohsumi","SDS-PAGE techniques to study ubiquitin-like conjugation systems in yeast autophagy.",,"Methods in Molecular Biology","Springer","Vol. 832",,"pp. 519-529",2012,Jan.
"Nobuo N. Noda,Kenji Satoo,Yuko Fujioka,Hiroyuki Kumeta,Kenji Ogura,Hitoshi Nakatogawa,Yoshinori Ohsumi,Fuyuhiko Inagaki","Structural basis of Atg8 activation by a homodimeric E1, Atg7.",,"Molecular Cell",,"Vol. 44","No. 3","pp. 462-475",2011,Nov.
"Masaya Yamaguchi,Nobuo N. Noda,Hitoshi Nakatogawa,Hiroyuki Kumeta,Yoshinori Ohsumi,Fuyuhiko Inagaki","Autophagy-related Protein 8 (Atg8) Family Interacting Motif in Atg3 Mediates the Atg3-Atg8 Interaction and Is Crucial for the Cytoplasm-to-Vacuole Targeting Pathway",,"Journal of Biological Chemistry",,"Vol. 285","No. 38","pp. 29599-29607",2010,Sept.
"Hiroyuki Kumeta,Masahiro Watanabe,Masaya Yamaguchi,Hitoshi Nakatogawa,Kenji Ogura,Wakana Adachi,Yuko Fujioka,Nobuo N. Noda,Yoshinori Ohsumi,Fuyuhiko Inagaki","The NMR structure of the autophagy-related protein Atg8.",,"Journal of Biomolecular Nmr",,"Vol. 47","No. 3","pp. 237-241",2010,July
"Yuko Fujioka,Nobuo N. Noda,Hitoshi Nakatogawa,Yoshinori Ohsumi,Fuyuhiko Inagaki","Dimeric Coiled-coil Structure of Saccharomyces cerevisiae Atg16 and Its Functional Significance in Autophagy",,"Journal of Biological Chemistry",,"Vol. 285","No. 2","pp. 1508-1515",2010,Jan.
"Nakatogawa H,Suzuki K,Kamada Y,Ohsumi Y.","Dynamics and diversity in autophagy mechanisms: lessons from yeast",,"NATURE REVIEWS MOLECULAR CELL BIOLOGY",,,,"pp. 458-467",2009,June
"Hitoshi Nakatogawa,Ohsumi, Yoshinori","Analyses of ATG8-PE-containing structures involved in autophagosome formation",,"Autophagy",,"Vol. 5","No. 6","pp. 895",2009,
"Nobuo N. Noda,Hiroyuki Kumeta,Hitoshi Nakatogawa,Kenji Satoo,Wakana Adachi,Junko Ishii,Yuko Fujioka,Yoshinori Ohsumi,Fuyuhiko Inagaki","Structural basis of target recognition by Atg8/LC3 during selective autophagy.",,"Genes To Cells",,"Vol. 13","No. 12","pp. 1211-1218",2008,Dec.
"Oh-oka K,Nakatogawa H,Ohsumi Y.","Physiological pH and phospholipids contribute to substrate specificity in lipidation of Atg8.",,"Journal of Biological Chemistry",,"Vol. 283","No. 32","pp. 21847-21852",2008,Aug.
"Hitoshi Nakatogawa,Kyoko Oh-oka,Yoshinori Ohsumi","Lipidation of Atg8: How is substrate specificity determined without a canonical E3 enzyme?",,"Autophagy",,"Vol. 4","No. 7","pp. 911-913",2008,
"Hitoshi Nakatogawa,Ohsumi, Yoshinori","Starved cells eat ribosomes",,"Nature Cell Biology",,"Vol. 10","No. 5","pp. 505-507",2008,
"Hitoshi Nakatogawa,Yoshinobu Ichimura,Yoshinori Ohsumi","Atg8, a ubiquitin-like protein required for autophagosome formation, mediates membrane tethering and hemifusion.",,"Cell",,"Vol. 130","No. 1","pp. 165-178",2007,July
"Hitoshi Nakatogawa","Mechanisms of membrane biogenesis in autophagy",,"Seikagaku",,"Vol. 79","No. 11","pp. 1065-1068",2007,
"Obara Keisuke,Sekito Takayuki,Hanada Takao,Hitoshi Nakatogawa,Suzuki Nobuo,Inagaki Fuyuhiko,Ohsumi Yoshinori","PI3K mediates protein-lipid cooperation during autophagy",,"Autophagy",,"Vol. 2","No. 4","pp. 350",2006,Dec.
"Muto, H,Hitoshi Nakatogawa,Ito, K","Genetically encoded but nonpolypeptide Prolyl-tRNA functions in the A site for SecM-mediated ribosomal stall",,"Molecular Cell",,"Vol. 22","No. 4","pp. 545-552",2006,
"Hitoshi Nakatogawa,Ichimura, Yoshinobu,Ohsumi, Yoshinori","Membrane tethering function of Atg8 in vitro and its significance in autophagosome formation in vivo. (short talk-1)",,"Autophagy",,"Vol. 2","No. 4","pp. 350",2006,
"Hitoshi Nakatogawa,Murakanti, A,Mori, H,Ito, K","SecM facilitates translocase function of SecA by localizing its biosynthesis",,"Genes & Development",,"Vol. 19","No. 4","pp. 436-444",2005,Feb.
"Ito Koreaki,Mori Hiromki,Hitoshi Nakatogawa,Akiyama Yoshinori,Sbimohata Nobuyuki","Regulation and route-selection in SecA-SecYEG protein translocase",,"Cell Structure and Function",,"Vol. 30",,"pp. 9",2005,Jan.
"Murakami, A,Hitoshi Nakatogawa,Ito, K","Translation arrest of SecM is essential for the basal and regulated expression of SecA",,"Proceedings of the National Academy of Sciences of the United States of America",,"Vol. 101","No. 33","pp. 12330-12335",2004,Aug.
"Hitoshi Nakatogawa,Murakami, A,Ito, K","Control of CesA and SecM translation by protein secretion",,"Current Opinion in Microbiology",,"Vol. 7","No. 2","pp. 145-150",2004,Apr.
"Hitoshi Nakatogawa,Ito, K","Intraribosomal regulation of expression and fate of proteins",,"Chembiochem",,"Vol. 5","No. 1","pp. 48-51",2004,Jan.
"Hitoshi Nakatogawa,Ito, K","The ribosomal exit tunnel functions as a discriminating gate",,"Cell",,"Vol. 108","No. 5","pp. 629-636",2002,Mar.
"Hitoshi Nakatogawa,Ito, K","Secretion monitor, SecM, undergoes self-translation arrest in the cytosol",,"Molecular Cell",,"Vol. 7","No. 1","pp. 185-192",2001,Jan.
"Matsumoto, G,Hitoshi Nakatogawa,Mori, H,Ito, K","Genetic dissection of SecA: suppressor mutations against the secY205 translocase defect",,"Genes To Cells",,"Vol. 5","No. 12","pp. 991-999",2000,Dec.
"Hitoshi Nakatogawa,Mori, H,Ito, K","Two independent mechanisms down-regulate the intrinsic SecA ATPase activity",,"Journal of Biological Chemistry",,"Vol. 275","No. 43","pp. 33209-33212",2000,Sept.
"Hitoshi Nakatogawa,Mori, H,Matsumoto, G,Ito, K","Characterization of a mutant form of SecA that alleviates a SecY defect at low temperature and shows a synthetic defect with SecY alteration at high temperature",,"Journal of Biochemistry",,"Vol. 127","No. 6","pp. 1071-1079",2000,Jan.