| Nutrient-dependent mTORC1 association with the ULK1–Atg13–FIP200 complex required for autophagy N Hosokawa, T Hara, T Kaizuka, C Kishi, A Takamura, Y Miura, S Iemura, ... Molecular biology of the cell 20 (7), 1981-1991, 2009 | 2578 | 2009 |
| An autophagic flux probe that releases an internal control T Kaizuka, H Morishita, Y Hama, S Tsukamoto, T Matsui, Y Toyota, ... Molecular cell 64 (4), 835-849, 2016 | 541 | 2016 |
| Tti1 and Tel2 are critical factors in mammalian target of rapamycin complex assembly T Kaizuka, T Hara, N Oshiro, U Kikkawa, K Yonezawa, K Takehana, ... Journal of Biological Chemistry 285 (26), 20109-20116, 2010 | 365 | 2010 |
| Dynamic association of the ULK1 complex with omegasomes during autophagy induction E Karanasios, E Stapleton, M Manifava, T Kaizuka, N Mizushima, ... Journal of cell science 126 (22), 5224-5238, 2013 | 322 | 2013 |
| FIP200 regulates targeting of Atg16L1 to the isolation membrane T Nishimura, T Kaizuka, K Cadwell, MH Sahani, T Saitoh, S Akira, ... EMBO reports 14 (3), 284-291, 2013 | 210 | 2013 |
| Postsynaptic density proteins and their involvement in neurodevelopmental disorders T Kaizuka, T Takumi The Journal of Biochemistry 163 (6), 447-455, 2018 | 139 | 2018 |
| Structure of the Atg101–Atg13 complex reveals essential roles of Atg101 in autophagy initiation H Suzuki, T Kaizuka, N Mizushima, NN Noda Nature structural & molecular biology 22 (7), 572-580, 2015 | 128 | 2015 |
| Atg13 is essential for autophagy and cardiac development in mice T Kaizuka, N Mizushima Molecular and cellular biology 36 (4), 585-595, 2016 | 111 | 2016 |
| Expression of a ULK1/2 binding-deficient ATG13 variant can partially restore autophagic activity in ATG13-deficient cells N Hieke, AS Löffler, T Kaizuka, N Berleth, P Böhler, S Drießen, ... Autophagy 11 (9), 1471-1483, 2015 | 70 | 2015 |
| A new probe to measure autophagic flux in vitro and in vivo H Morishita, T Kaizuka, Y Hama, N Mizushima Autophagy 13 (4), 757-758, 2017 | 42 | 2017 |
| Autophagy is required for maturation of surfactant-containing lamellar bodies in the lung and swim bladder H Morishita, Y Kanda, T Kaizuka, H Chino, K Nakao, Y Miki, Y Taketomi, ... Cell reports 33 (10), 2020 | 34 | 2020 |
| Small fluorogenic amino acids for peptide‐guided background‐free imaging F De Moliner, Z Konieczna, L Mendive‐Tapia, RS Saleeb, K Morris, ... Angewandte Chemie International Edition 62 (4), e202216231, 2023 | 26 | 2023 |
| Open and closed HORMAs regulate autophagy initiation H Suzuki, T Kaizuka, N Mizushima, NN Noda Autophagy 11 (11), 2123-2124, 2015 | 10 | 2015 |
| Developmental dynamics of the postsynaptic proteome to understand synaptic maturation and dysmaturation T Kaizuka, T Suzuki, N Kishi, MW Kilimann, T Ueyama, M Watanabe, ... BioRxiv, 2022.05. 05.490828, 2022 | 5 | 2022 |
| Remodeling of the postsynaptic proteome in male mice and marmosets during synapse development T Kaizuka, T Suzuki, N Kishi, K Tamada, MW Kilimann, T Ueyama, ... Nature communications 15 (1), 2496, 2024 | 3 | 2024 |
| Sequential replacement of PSD95 subunits in postsynaptic supercomplexes is slowest in the cortex K Morris, E Bulovaite, T Kaizuka, S Schnorrenberg, CT Adams, ... Elife 13, RP99303, 2024 | 2 | 2024 |
| Alteration of synaptic protein composition during developmental synapse maturation T Kaizuka, T Takumi European Journal of Neuroscience 59 (11), 2894-2914, 2024 | 2 | 2024 |
| FAM81A is a postsynaptic protein that regulates the condensation of postsynaptic proteins via liquid–liquid phase separation T Kaizuka, T Hirouchi, T Saneyoshi, T Shirafuji, MO Collins, SGN Grant, ... Plos Biology 22 (3), e3002006, 2024 | 2 | 2024 |
| Remodeling of the postsynaptic proteome in male and marmosets during synapse development T Kaizuka Nat Commun, 0 | 1 | |
| 3D super-resolution imaging of PSD95 reveals an abundance of diffuse protein supercomplexes in the mouse brain S Daly, E Bulovaite, A Handa, K Morris, L Muresan, C Adams, T Kaizuka, ... ACS Chemical Neuroscience 16 (1), 40-51, 2024 | | 2024 |