PUBLICATIONS

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2018 — present

15.	Maeda, M., Arakawa, M. and *Saito, K. Disease-Associated Factors at the Endoplasmic Reticulum-Golgi Interface. Traffic., 26(1-3), e70001 (2025)
14.	Maeda, M. and *Saito, K. Various methods to detect small GTPase activation: from radioisotope-based methods to the Small GTPase ActIvitY ANalysing (SAIYAN) system. J. Biochem., 177(5), 321-327 (2025)
13.	Maeda, M. and *Saito, K. Methods for Detecting Phosphorylated Proteins and Observing Intracellular Localization During Mitosis. *Methods Mol. Biol.*, 2874, 153-166 (2025)
12.	Maeda, M., Arakawa, M., Komatsu, Y. and Saito, K. Small GTPase ActIvitY ANalyzing (SAIYAN) system: A method to detect GTPase activation in living cells. J. Cell Biol*.,223(10), e202403179 (2024)
11.	Maeda, M. and *Saito, K. p24 family Tango(1) at the endoplasmic reticulum exit site to organize cargo exit. J. Cell Biol.,223(5), e202403016 (2024)
10.	Saegusa, K., Matsunaga, K., Maeda, M., Saito, K., Izumi, T. and Sato, K. Cargo receptor Surf4 regulates endoplasmic reticulum export of proinsulin in pancreatic β-cells. Commun Biol.*, 5 (1), 458 (2022)
9.	Maeda, M., Komatsu, Y and *Saito, K. Mitotic ER exit site disassembly and reassembly are regulated by the phosphorylation status of TANGO1. *Dev. Cell*, 55(2),237-250 (2020)
8.	Maeda, M., Komatsu, Y and Saito, K. Mitotic ER exit site dynamics: insights into blockade of secretion from the ER during mitosis. Mol. Cell. Oncol.*, 7(6) 1832420 (2020)
7.	O’Donnell, M.A. People & Ideas, Kota Saito: Getting out and about. J. Cell Biol., 218(6), 1765-6 (2019)
6.	Centonze, F., Reiterer, V., Nalbach, K., Saito, K., Pawlowski, K., Behrends, C. and Farhan, H. LTK is an ER-resident receptor tyrosine kinase that regulates secretion. J. Cell Biol.*, 218(8), 2470-80 (2019)
5.	*Saito, K. and Maeda, M. Not just a cargo receptor for large cargoes; an emerging role of TANGO1 as an organizer of ER exit sites. J. Biochem.,166(2), 115-9 (2019)
4.	Maeda, M., Kurokawa, K., Katada, T., Nakano, A. and *Saito, K. COPII proteins exhibit distinct subdomains within each ER exit site for executing their functions. Sci. Rep., 9, 7346 (2019)
3.	齋藤康太北から南から生化学, 91, 280 (2019)
2.	Ogawa, E., Mukai, K., Saito, K., Arai, H. and Taguchi, T. The binding of TBK1 to STING requires exocytic membrane traffic from the ER. Biochem. Biophys. Res. Commun.*, 503, 138-145 (2018)
1.	齋藤康太高等真核生物における巨大分子分泌機構生化学, 90, 674-682 (2018)

Translations

2.	Lodish, H., Berk, A., Kaiser, C.A., Krieger, M., Bretscher, A., Ploegh, H., Martin, K.C., Yaffe, M.B., Amon, A. 堅田利明, 須藤和夫, 山本啓一, 岩井佳子, 上村慎治, 北川大樹, 齋藤康太, 坪井貴司, 富田泰輔, 名黒功, 仁科博史, 宮沢恵二, 山本啓一, 若林憲一訳分子細胞生物学　第９版東京化学同人 2023年 ISBN: 9784807920518
1.	Cooper G.M. 榎森康文, 足立博之, 富重道雄, 齋藤康太, 須藤和夫, 堅田利明訳クーパー分子細胞生物学　第８版東京化学同人 2022年 ISBN: 9784807920259

2002 — 2018

23.	*Saito, K., Maeda, M. and Katada, T. Regulation of the Sar1 GTPase Cycle Is Necessary for Large Cargo Secretion from the Endoplasmic Reticulum. Front. Cell Dev. Biol., 5, 75 (2017)
22.	Tomoishi, S.¹, Fukushima, S.¹, Shinohara, K., Katada, T. and *Saito, K.　CREB3L2-mediated expression of Sec23A/Sec24D is involved in hepatic stellate cell activation through ER-Golgi transport. (¹Contributed equally) Sci. Rep., 7, 7992 (2017)
21.	Ge, L., Zhang, M., Kenny, S., Liu, D., Maeda, M., Saito, K., Mathur, A., Xu, K. and Schekman, R. Remodeling of ER-exit sites initiates a membrane supply pathway for autophagosome biogenesis. EMBO Rep.,* 18, 1586-1603 (2017)
20.	Maeda, M., Katada, T. and *Saito, K. TANGO1 recruits Sec16 to coordinately organize ER exit sites for efficient secretion. J. Cell Biol., 216 (6), 1731-43 (2017)
19.	Maeda, M., Saito, K., and Katada, T. Distinct isoform-specific complexes of TANGO1 cooperatively facilitate collagen secretion from the endoplasmic reticulum. Mol. Biol. Cell,* 27, 2688-96 (2016)
18.	Tanabe, T., Maeda, M., *Saito, K., and Katada, T. Dual function of cTAGE5 in collagen export from the endoplasmic reticulum. Mol. Biol. Cell, 27, 2008-13 (2016)
17.	*Saito, K. and Katada, T. Mechanisms for exporting large-sized cargoes from the endoplasmic reticulum. Cell. Mol. Life Sci., 72 (19), 3709-20 (2015)
16.	*Saito, K., Yamashiro, K., Shimazu, N., Tanabe, T., Kontani, K. and Katada, T. Concentration of Sec12 at ER exit sites via interaction with cTAGE5 is required for collagen export. J. Cell. Biol., 206 (6), 751-62 (2014)
15.	Sasaki, A., Nakae, I., Nagasawa, M., Hashimoto, K., Abe, F., Saito, K., Fukuyama, M., Gengyo-Ando, K., Mitani, S., Katada, T. and Kontani, K. Arl8/ARL-8 functions in apoptotic cell removal by mediating phagolysosome formation in Caenorhabditis elegans. Mol. Biol. Cell,* 24,1584-92 (2013)
14.	Saito, K., Yamashiro, K., Ichikawa, Y., Erlmann, P., Kontani, K., Malhotra, V. and Katada, T. cTAGE5 mediates collagen secretion through interaction with TANGO1 at endoplasmic reticulum exit sites. Mol. Biol. Cell,* 22, 2301-8 (2011)
13.	Takahashi, S., Sakurai, K., Ebihara, A., Kajiho, H., Saito, K., Kontani, K., Nishina, H. and Katada, T. RhoA activation participates in rearrangement of processing bodies and release of nucleated AU-rich mRNAs. Nucleic Acids Res.*, 39(8), 3446-57 (2010)
12.	Nagai, Y., Asaoka, Y., Namae, M., Saito, K., Momose, H., Mitani, H., Furutani-Seiki, M., Katada, T. and Nishina, H. The LIM protein Ajuba is required for ciliogenesis and left-right axis determination in medaka. Biochem. Biophys. Res. Commun.,* 396(4), 887-93 (2010)
11.	Saito, K., Chen, M., Bard, F., Chen, S., Zhou, H., Woodley, D., Polischuk, R., Schekman, R. and Malhotra, V. TANGO1 facilitates cargo loading at endoplasmic reticulum exit sites. Cell*, 136, 891-902 (2009)
10.	Bard, F., Casano, L., Mallabiabarrena, A., Wallace, E., Saito, K., Kitayama, H., Guizzunti, G., Hu, Y., Wendler, F., Dasgupta, R., Perrimon, N. and Malhotra, V. Functional genomics reveals genes involved in protein secretion and Golgi organization. Nature*, 439, 604-7 (2006)
9.	Saito, K., Kajiho, H., Araki, Y., Kurosu, H., Kontani, K., Nishina, H. and Katada, T.　Purification and analysis of RIN family-novel Rab5 GEFs. Methods Enzymol.*, 403, 276-83 (2005)
8.	Saito, K., Araki, Y., Kontani, K., Nishina, H. and Katada T. Novel role of the small GTPase Rheb: its implication in endocytic pathway independent of the activation of mammalian target of rapamycin. J. Biochem.,* 137(3), 423-30 (2005)
7.	Watanabe, T., Asaka, S., Kitagawa, D., Saito, K., Kurashige, R., Sasado, T., Morinaga, C., Suwa, H., Niwa, K., Henrich, T., Hirose, Y., Yasuoka, A., Yoda, H., Deguchi, T., Iwanami, N., Kunimatsu, S., Osakada, M., Loosli, F., Quiring, R., Carl, M., Grabher, C., Winkler, S., Del Bene, F., Wittbrodt, J., Abe, K., Takahama, Y., Takahashi, K., Katada, T., Nishina, H., Kondoh, H. and Furutani-Seiki, M. Mutations affecting liver development and function in Medaka, Oryzias latipes, screened by multiple criteria. Mech. Dev., 121(7-8), 791-802 (2004)
6.	Kitagawa, D., Watanabe, T., Saito, K., Asaka, S., Sasado, T., Morinaga, C., Suwa, H., Niwa, K., Yasuoka, A., Deguchi, T., Yoda, H., Hirose, Y., Henrich, T., Iwanami, N., Kunimatsu, S., Osakada, M., Winkler, C., Elmasri, H., Wittbrodt, J., Loosli, F., Quiring, R., Carl, M., Grabher, C., Winkler, S., Del Bene, F., Momoi, A., Katada, T., Nishina, H., Kondoh, H. and Furutani-Seiki, M. Genetic dissection of the formation of the forebrain in Medaka, Oryzias latipes. Mech. Dev.*, 121(7-8), 673-85 (2004)
5.	Furutani-Seiki, M., Sasado, T., Morinaga, C., Suwa, H., Niwa, K., Yoda, H., Deguchi, T., Hirose, Y., Yasuoka, A., Henrich, T., Watanabe, T., Iwanami, N., Kitagawa, D., Saito, K., Asaka, S., Osakada, M., Kunimatsu, S., Momoi, A., Elmasri, H., Winkler, C., Ramialison, M., Loosli, F., Quiring, R., Carl, M., Grabher, C., Winkler, S., Del Bene, F., Shinomiya, A., Kota, Y., Yamanaka, T., Okamoto, Y., Takahashi, K., Todo, T., Abe, K., Takahama, Y., Tanaka, M., Mitani, H., Katada, T., Nishina, H., Nakajima, N., Wittbrodt, J. and Kondoh, H. A systematic genome-wide screen for mutations affecting organogenesis in Medaka, Oryzias latipes. Mech. Dev., 121(7-8), 647-58 (2004)
4.	Kajiho, H., Saito, K., Tsujita, K., Kontani, K., Araki, Y., Kurosu, H. and Katada, T. RIN3: a novel Rab5 GEF interacting with amphiphysin II involved in the early endocytic pathway. J. Cell Sci.*, 116(Pt 20), 4159-68 (2003)
3.	Kajiho, H., Saito, K., Araki, Y. and Katada, T. Mechanisms of vesicle transport in polarized cells orchestrated by Rab GTPase. Tanpakushitsu Kakusan Koso*, 48(2), 133-9 (2003)
2.	Kontani, K., Tada, M., Ogawa, T., Okai, T., Saito, K., Araki, Y. and Katada, T. Di-Ras, a distinct subgroup of ras family GTPases with unique biochemical properties. J. Biol. Chem.,* 277(43), 41070-8 (2002)
1.	Saito, K.¹, Murai, J.¹, Kajiho, H., Kontani, K., Kurosu, H. and Katada, T.(¹Contributed equally) A novel binding protein composed of homophilic tetramer exhibits unique properties for the small GTPase Rab5. J Biol Chem., 277(5), 3412-8 (2002)