Papers - Tokuraku Kiyotaka

1. Screening of a fraction with higher amyloid β aggregation inhibitory activity from a library containing 210 mushroom exracts using a microliter-scale high-throughput screening system with quantum dot imaging

   Gegentuya Huanood, Mahadeva Swamy M. M., Rina Sasaki, Keiya Shimamori, Masahiro Kuragano, Enkhmaa Enkhbat, Yoshiko Suga, Masaki Anetai, Kenji Monde, Kiyotaka Tokuraku，Foods，vol.13，Article Number:3740，2024.11

   

2. Analyzing Amylin Aggregation Inhibition Through Quantum Dot Fluorescence Imaging

   Xiaoyu Yin, Ziwei Liu, Gegentuya Huanood, Hayate Sawatari, Keiya Shimamori, Masahiro Kuragano, and Kiyotaka Tokuraku，International Journal of Molecular Science，vol.25，Article Number:11132，2024.10

   

3. Real-Time 3D Imaging and Inhibition Analysis of Human Serum Amyloid A Aggregations Using Quantum Dots

   Liangquan Shi, Gegentuya Huanood, Shuto Miura, Masahiro Kuragano, and Kiyotaka Tokuraku，International Journal of Molecular Science，vol.25，Article Number:11128，2024.10

   

4. Fiduciary-Free Frame Alignment for Robust Time-Lapse Drift Correction Estimation in Multi-Sample Cell Microscopy

   Stefan Baar, Masahiro Kuragano,Naoki Nishishita, Kiyotaka Tokuraku, and Shinya Watanabe，Journal of Imaging，vol.10，Article Number:181，2024.07

   

5. Amyloid β interferes with wound healing of brain microvascular endothelial cells by disorganizing the actin cytoskeleton

   Takuma Maeda, Keiya Shimamori, Hiroki Kurita, Kiyotaka Tokuraku, Masahiro Kuragano，Experimental Cell Research，vol.436，Article Number:113958，2024.03

   

6. Quantitative Evaluation of Neurite Morphology Using Graph Structure

   Fumiya Chikudo, Stefan Baar, Ayaka Ota, Masahiro Kuragano, Kiyotaka Tokuraku, Shinya Watanabe，Electronics，vol.12，(23)，Article Number:4750，2023.11

   

7. On-Site Evaluation of Constituent Content and Functionality of Perilla frutescens var. crispa Using Fluorescence Spectra

   Hidemichi Sano, Satoru Kawaguchi, Toshifumi Iimori, Masahiro Kuragano, Kiyotaka Tokuraku, Koji Uwai，Molecules ，vol.28，Article Number:7199，2023.10

   

8. Effects of three microtubule-associated proteins (MAP2, MAP4, and Tau) on microtubules' physical properties and neurite morphology

   Kohei Nishida, Kosuke Matsumura, Miki Tamura, Takuto Nakamichi, Keiya Shimamori, Masahiro Kuragano, Arif Md. Rashedul Kabir, Akira Kakugo, Susumu Kotani, Naoki Nishishita, Kiyotaka Tokuraku，Scientific Reports，vol.13，Article Number:8870，2023.05

   

9. Cultivation factors that affect amyloid-β aggregation inhibitory activity in Perilla frutescens var. crispa

   Keiya Shimamori, Tomohiko Nambu, Daiki Kawamata, Masahiro Kuragano, Naoki Nishishita, Toshifumi Iimori, Shinya Yamanaka, Koji Uwai, Kiyotaka Tokuraku，Foods，vol.12，Article Number:486，2023.01

   

10. Towards a comprehensive approach for characterizing cell activity in bright-field microscopic images

    Stefan Baar, Masahiro Kuragano, Kiyotaka Tokuraku, Shinya Watanabe，Scientific Reports，vol.12，Article Number:16884，2022.10

    

11. Actin-binding domain of Rng2 sparsely bound on F-actin strongly inhibits actin movement on myosin II

    Yuuki Hayakawa, Masak Takaine, Kien Xuan Ngo, Taiga Imai, Masafumi D Yamada, Arash Badami Behjat, Kenichi Umeda, Keiko Hirose, Ayhan Yurtsever, Noriyuki Kodera, Kiyotaka Tokuraku, Osamu Numata, Takeshi Fukuma, Toshio Ando, Kentaro Nakano, Taro QP Uyeda，LIFE SCIENCE ALLIANCE，vol.6，Article Number:202201469，2022.10

    

12. Kinetics of amyloid accumulation in physiological viscosity

    Masahiro Kuragano, Shinya Yamanaka, Kiyotaka Tokuraku，COLLOIDS AND SURFACES B-BIOINTERFACES，vol.214，Article Number:112449，2022.06

    

13. Microwave-assisted synthesis and formation mechanism of fluorescent carbon dots from starch

    Hisahiko Shibata, Mina Abe, Kazuya Sato, Koji Uwai, Kiyotaka Tokuraku, Toshifumi Iimori，Carbohydrate Polymer Technologies and Applications，vol.3，Article Number:100218，2022.06

    

14. Chiral Photomechanical Behavior of Achiral Azobenzene-based Molecular Glass Particles Fixed in Agar Gel

    Motona Matsubara, Hiroyasu Ukai, Masahiro Kuragano, Kiyotaka Tokuraku, Hideyuki Nakano，Chemistry Letters，vol.51，(p.493 ～ 496)，2022.05

    

15. Chemical analysis of amyloid β aggregation inhibitors derived from Geranium thunbergii

    Kenji Kubo, Hikaru Watanabe, Hiroyuki Kumeta, Tomoyasu Aizawa, Chigusa Seki, Hiroto Nakano, Kiyotaka Tokuraku, Koji Uwai，Bioorganic & Medicinal Chemistry，vol.68，Article Number:116840，2022.05

    

16. Amyloid β aggregation induces human brain microvascular endothelial cell death with abnormal actin organization

    Yushiro Take, Yusaku Chikai, Keiya Shimamori, Masahiro Kuragano, Hiroki Kurita, Kiyotaka Tokuraku，Biochemistry and Biophysics Reports，vol.29，Article Number:101189，2022.03

    

17. MARK4 controls ischaemic heart failure through microtubule detyrosination

    Yu Xian, Chen Xiao, Amrute-Nayak Mamta, Allgeyer Edward, Zhao Aite, Chenoweth Hannah, Clement Marc, Harrison James, Doreth Christian, Sirinakis George, Krieg Thomas, Zhou Huiyu, Huang Hongda, Tokuraku Kiyotaka, Johnston Daniel St, Mallat Ziad, Li Xuan，NATURE，vol.594，(7864)，(p.560 ～ +)，2021.06

    

18. Unidirectional cooperative binding of fimbrin actin-binding domain 2 to actin filament

    Naoki Hosokawa, Masahiro Kuragano, Atsuki Yoshino, Keitaro Shibata, Taro Q. P. Uyeda, Kiyotaka Tokuraku，BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS，vol.552，(p.59 ～ 65)，2021.05

    

19. Farm use of calcium hydroxide as an effective barrier against pathogens

    Shinji Matsuzaki, Kento Azuma, Xuguang Lin, Masahiro Kuragano, Koji Uwai, Shinya Yamanaka, Kiyotaka Tokuraku，Scientific Reports，vol.11，Article Number:7941，2021.04

    

20. Comparison of AA amyloid fibril morphology and serum amyloid A gene sequence in five animal species

    Xuguang Lin, Masahiro Kuragano, Kenichi Watanabe, Kiyotaka Tokuraku，Veterinary Pathology，vol.58，(2)，(p.369 ～ 375)，2021.03

    

21. Aggregation of Mouse Serum Amyloid A Protein Was Promoted by Amyloid-Enhancing Factors with the More Genetically Homologous Serum Amyloid A

    Xuguang Lin, Masahiro Kuragano, Kenichi Watanabe, Kiyotaka Tokuraku，International Journal of Molecular Sciences，vol.22，Article Number:1036，2021.01

    

22. Design of calcium hydroxide–based granules for livestock sanitation

    Shinya Yamanaka, Shuya Hirano, Koji Uwai, Kiyotaka Tokuraku，Case Studies in Chemical and Environmental Engineering，vol.2，Article Number:100005，2020.09

    

23. Microtubule elongation along actin filaments induced by microtubule-associated protein 4 contributes to the formation of cellular protrusions

    Chihiro Doki, Kohei Nishida, Shoma Saito, Miyuki Shiga, Hikaru Makihara, Ayumu Kuramoto, Masahiro Kuragano, Motohiro Nozumi, Michihiro Igarashi, Hiroyuki Nakagawa, Susumu Kotani, Kiyotaka Tokuraku，Journal of Biochemistry，vol.168，(p.295 ～ 303)，2020.09

    

24. Daurichromenic Acid from the Chinese Traditional Medicinal Plant Rhododendron dauricum Inhibits Sphingomyelin Synthase and Aβ Aggregation

    Hadya Virupaksha Deepak, Mahadeva M. Swamy, Yuta Murai, Yoshiko Suga, Masaki Anetai, Takuro Yo, Masahiro Kuragano, Koji Uwai, Kiyotaka Tokuraku, Kenji Monde，Molecules，vol.25，Article Number:4077，2020.09

    

25. Dietary intake of rosmarinic acid increases serum inhibitory activity in amyloid A aggregation and suppresses deposition in the organs of mice

    Xuguang Lin, Kenichi Watanabe, Masahiro Kuragano, Yukina Kurotaki, Ushio Nakanishi, Kiyotaka Tokuraku，International Journal of Molecular Science，vol.21，Article Number:6031，2020.08

    

26. Mechanical Stimulation-Induced Orientation of Gliding Microtubules in Confined Microwells

    Inoue Daisuke, Kabir Arif Md. Rashedul, Tokuraku Kiyotaka, Sada Kazuki, Kakugo Akira，ADVANCED MATERIALS INTERFACES，vol.7，(13)，Article Number:1902013，2020.07

    

27. Three-dimensional real time imaging of amyloid β aggregation on living cells

    Masahiro Kuragano, Ryota Yamashita, Yusaku Chikai, Ryota Kitamura, Kiyotaka Tokuraku，Scientific Reports，vol.10，Article Number:9742，2020.06

    

28. Evaluation of amyloid β42 aggregation inhibitory activity of commercial dressings by a microliter-scale high-throughput screening system using quantum-dot nanoprobes

    Masahiro Kuragano, Wataru Yoshinari, Xuguang Lin, Keiya Shimamori, Koji Uwai and Kiyotaka Tokuraku，Foods，vol.9，Article Number:825，2020.06

    

29. Long-Range and Directional Allostery of Actin Filaments Plays Important Roles in Various Cellular Activities

    Kiyotaka Tokuraku, Masahiro Kuragano, Taro Q. P. Uyeda，International Journal of Molecular Science，vol.21，Article Number:3209，2020.05

    

30. 蛍光イメージング技術を用いたアミロイドβ凝集阻害物質の微量ハイスループットスクリーニングシステム

    倉賀野正弘、上井幸司、徳樂清孝，分光研究，vol.69，(2)，(p.64 ～ 68)，2020.04

    

31. Real-Time 3D Imaging and Inhibition Analysis of Various Amyloid Aggregations Using Quantum Dots

    Xuguang Lin, Nuomin Galaqin, Reina Tainaka, Keiya Shimamori, Masahiro Kuragano, Taro Q.P. Noguchi, Kiyotaka Tokuraku，International Journal of Molecular Science，vol.21，Article Number:1978，2020.03

    

32. Adaptation of Patterns of Motile Filaments under Dynamic Boundary Conditions

    Daisuke Inoue, Greg Gutmann, Takahiro Nitta, Arif Md. Rashedul Kabir, Akihiko Konagaya, Kiyotaka Tokuraku, Kazuki Sada, Henry Hess, Akira Kakugo，ACS Nano，vol.13，(11)，(p.12452 ～ 12460)，2019.11

    

33. An automated microliter-scale high-throughput screening system (MSHTS) for real-time monitoring of protein aggregation using quantum-dot nanoprobes

    Rina Sasaki, Reina Tainaka, Yuichi Ando, Yurika Hashi, Deepak H. Virupaksha, Yoshiko Suga, Yuta Murai, Masaki Anetai, Kenji Monde, Kiminori Ota, Ikuko Ito, Haruhisa Kikuchi, Yoshiteru Oshima, Yasuyuki Endo, Hitomi Nakao, Masafumi Sakono, Koji Uwai, and Kiyotaka Tokuraku，SCIENTIFIC REPORTS，vol.9，Article Number:2587，2019.02

    

34. Structural insight into microtubule stabilization and kinesin inhibition by Tau family MAPs

    Hideki Shigematsu, Tsuyoshi Imasaki, Chihiro Doki, Takuya Sumi, Mari Aoki, Tomomi Uchikubo‑Kamo, Ayako Sakamoto, Kiyotaka Tokuraku, Mikako Shirouzu, and Ryo Nitta，JOURNAL OF CELL BIOLOGY，vol.217，(p.4155 ～ 4163)，2018.12

    

35. Uni-directional Propagation of Structural Changes in Actin Filaments

    Taro Q.P. Uyeda, Kien Xuan Ngo, Noriyuki Kodera, Kiyotaka Tokuraku，The Role of Water in ATP Hydrolysis Energy Transduction by Protein Machinery，(p.157 ～ 177)，2018

    

36. Unidirectional growth of heavy meromyosin (HMM) clusters along actin filaments revealed by real-time fluorescence microscopy

    Rika Hirakawa, Yusuke Nishikawa, Taro Q.P. Uyeda, Kiyotaka Tokuraku，Cytoskeleton，vol.74，(12)，(p.482 ～ 489)，2017.12

    

37. Structure-activity relations of rosmarinic acid derivatives for the amyloid beta aggregation inhibition and antioxidant properties

    Taguchi Riho, Hatayama Koki, Takahashi Tomohito, Hayashi Takafumi, Sato Yuki, Sato Daisuke, Ohta Kiminori, Nakano Hiroto, Seki Chigusa, Endo Yasuyuki, Tokuraku Kiyotaka, Uwai Koji，EUROPEAN JOURNAL OF MEDICINAL CHEMISTRY，vol.138，(p.1066 ～ 1075)，2017.09

    

38. Allosteric regulation by cooperative conformational changes of actin filaments drives mutually exclusive binding with cofilin and myosin

    Ngo Kien Xuan, Umeki Nobuhisa, Kijima Saku T., Kodera Noriyuki, Ueno Hiroaki, Furutani-Umezu Nozomi, Nakajima Jun, Noguchi Taro Q. P., Nagasaki Akira, Tokuraku Kiyotaka, Uyeda Taro Q. P.，SCIENTIFIC REPORTS，vol.6，Article Number:35449，2016.10

    

39. Evaluation of the effects of amyloid beta aggregation from seaweed extracts by a microliter-scale high-throughput screening system with a quantum dot nanoprobe

    Ogara Toshiki, Takahashi Tomohito, Yasui Hajime, Uwai Koji, Tokuraku Kiyotaka，JOURNAL OF BIOSCIENCE AND BIOENGINEERING，vol.120，(1)，(p.45 ～ 50)，2015.07

    

40. Molecular Evolution of a Group of Microtubule-Associated Proteins Sharing Partial Similarities in their Primary Structures

    Yurika Hashi, Susumu Kotani, Kiyotaka Tokuraku，Sci. J. Kanagawa Univ.，vol.26，(p.1 ～ 6)，2015.06

    

41. Depletion force induced collective motion of microtubules driven by kinesin

    Inoue Daisuke, Mahmot Bulbul, Kabir Arif Md. Rashedul, Farhana Tamanna Ishrat, Tokuraku Kiyotaka, Sada Kazuki, Konagaya Akihiko, Kakugo Akira，NANOSCALE，vol.7，(43)，(p.18054 ～ 18061)，2015

    

42. A Microliter-Scale High-throughput Screening System with Quantum-Dot Nanoprobes for Amyloid-beta Aggregation Inhibitors

    Ishigaki Yukako, Tanaka Hiroyuki, Akama Hiroaki, Ogara Toshiki, Uwai Koji, Tokuraku Kiyotaka，PLOS ONE，vol.8，(8)，Article Number:e72992，2013.08

    

43. Deletion in the Pro-rich Region of Microtubule-associated Protein 4 Influences Its Distribution in Neural Growth Cone

    Hiroyuki Nakagawa, Kazuyuki Matsushima, Masayuki Iwasaki, Miki Shimohigashi, Kiyotaka Tokuraku, Susumu Kotani，Fukuoka University science reports，vol.43，(1)，(p.67 ～ 72)，2013.03

    

44. Rapid Nucleotide Exchange Renders Asp-11 Mutant Actins Resistant to Depolymerizing Activity of Cofilin, Leading to Dominant Toxicity in Vivo

    Umeki Nobuhisa, Nakajima Jun, Noguchi Taro Q. P., Tokuraku Kiyotaka, Nagasaki Akira, Ito Kohji, Hirose Keiko, Uyeda Taro Q. P.，JOURNAL OF BIOLOGICAL CHEMISTRY，vol.288，(3)，(p.1739 ～ 1749)，2013.01

    

45. Imaging of amyloid-β aggregation using a novel quantum dot nanoprobe and its advanced applications

    Kiyotaka Tokuraku, and Tsuneya Ikezu，Bionanoimaging, 1st Edition, Protein Misfolding & Aggregation，(p.121 ～ 131)，2013

    

46. G146V Mutation at the Hinge Region of Actin Reveals a Myosin Class-specific Requirement of Actin Conformations for Motility

    Noguchi Taro Q. P., Komori Tomotaka, Umeki Nobuhisa, Demizu Noriyuki, Ito Kohji, Iwane Atsuko Hikikoshi, Tokuraku Kiyotaka, Yanagida Toshio, Uyeda Taro Q. P.，JOURNAL OF BIOLOGICAL CHEMISTRY，vol.287，(29)，(p.24339 ～ 24345)，2012.07

    

47. Functional Assessment of Waste Molten Slag as a Water Preservative

    Ryuta Nakamura, Saku Kijima, Shiro Kiyoyama, Kiyotaka Tokuraku，J. Jpn. Soc. Mater. Cycl. Waste Manag.，vol.23，(1)，(p.25 ～ 32)，2012.03

    

48. Microtubule-associated protein 4 binds to actin filaments and modulates their properties

    Matsushima Kazuyuki, Tokuraku Kiyotaka, Hasan Mohammad Rubayet, Kotani Susumu，JOURNAL OF BIOCHEMISTRY，vol.151，(1)，(p.99 ～ 108)，2012.01

    

49. The Student-centered PBL Education through a Research Presentation in the School Festival-An Approach of the Department of Chemical Science and Engineering

    Toshiaki Yamashita, Shiro Kiyoyama, Kiyotaka Tokuraku，Kosen Kyoiku，vol.34，(p.263 ～ 268)，2011.03

    

50. Actin interaction and regulation of cyclin-dependent kinase 5/p35 complex activity

    Xu Jiqing, Tsutsumi Koji, Tokuraku Kiyotaka, Estes Katherine A., Hisanaga Shin-ichi, Ikezu Tsuneya，JOURNAL OF NEUROCHEMISTRY，vol.116，(2)，(p.192 ～ 204)，2011.01

    

51. Microtubule-associated protein 4

    Kiyotaka Tokuraku, Kazuyuki Matsushima, Hiroyuki Nakagawa, and Susumu Kotani，Advances in Neurobiology, Cytoskeleton of the Nervous System，(p.151 ～ 166)，2011

    

52. Distinct neuronal localization of microtubule-associated protein 4 in the mammalian brain

    Tokuraku Kiyotaka, Okuyama Satoshi, Matsushima Kazuyuki, Ikezu Tsuneya, Kotani Susumu，NEUROSCIENCE LETTERS，vol.484，(2)，(p.143 ～ 147)，2010.10

    

53. Screening of novel dominant negative mutant actins using glycine targeted scanning identifies G146V actin that cooperatively inhibits cofilin binding

    Noguchi Taro Q. P., Toya Ryo, Ueno Hironori, Tokuraku Kiyotaka, Uyeda Taro Q. P.，BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS，vol.396，(4)，(p.1006 ～ 1011)，2010.06

    

54. Real-Time Imaging and Quantification of Amyloid-beta Peptide Aggregates by Novel Quantum-Dot Nanoprobes

    Tokuraku Kiyotaka, Marquardt Meg, Ikezu Tsuneya，PLOS ONE，vol.4，(12)，Article Number:e8492，2009.12

    

55. Novel Mode of Cooperative Binding between Myosin and Mg2+-actin Filaments in the Presence of Low Concentrations of ATP

    Tokuraku Kiyotaka, Kurogi Rika, Toya Ryo, Uyeda Taro Q. P.，JOURNAL OF MOLECULAR BIOLOGY，vol.386，(1)，(p.149 ～ 162)，2009.02

    

56. An Alternatively Spliced Site in the Proline-rich Region of Microtubule associated Protein 4 Plays an Important Role in Microtubule Stabilization

    Kiyotaka Tokuraku, Hatsune Moriyama, Kazuyuki Matsushima, and Susumu Kotani，Sci. J. Kanagawa Univ.，vol.19，(p.7 ～ 11)，2008.06

    

57. 高専型実践教育の可能性

    徳楽清孝，生物物理，vol.47，(6)，(p.397 ～ 401)，2007.11

    

58. An isoform of microtubule-associated protein 4 inhibits kinesin-driven microtubule gliding

    Tokuraku Kiyotaka, Noguchi Taro Q. P., Nishie Makiko, Matsushima Kazuyuki, Kotani Susumu，JOURNAL OF BIOCHEMISTRY，vol.141，(4)，(p.585 ～ 591)，2007.04

    

59. Temperature dependence of kinetics and diffusion coefficients for ferrocene/ferricenium in ammonium-imide ionic liquids

    Matsumiya M, Terazono M, Tokuraku K，ELECTROCHIMICA ACTA，vol.51，(7)，(p.1178 ～ 1183)，2006.01

    

60. Consecutive recovery of rare earth and alkaline earth elements by countercurrent electromigration in room temperature molten salts

    Matsumiya M, Tokuraku K, Matsuura H, Hinoue K，JOURNAL OF ELECTROANALYTICAL CHEMISTRY，vol.586，(1)，(p.12 ～ 17)，2006.01

    

61. Enrichment of rare earth and alkaline-earth elements by countercurrent electromigration in room temperature molten salts

    Matsumiya M, Tokuraku K, Matsuura H, Hinoue K，ELECTROCHEMISTRY COMMUNICATIONS，vol.7，(4)，(p.370 ～ 376)，2005.04

    

62. Identification of a neural cell specific variant of microtubule-associated protein 4

    Matsushima K, Aosaki M, Tokuraku K, Hasan MR, Nakagawa H, Kotani S，CELL STRUCTURE AND FUNCTION，vol.29，(5-6)，(p.111 ～ 124)，2005.02

    

63. Identification of an XMAP215-related 60 kDa polypeptide as a major microtubule-associated protein in Tetrahymena pyriformis

    Takanori Matui, Kiyotaka Tokuraku, Yuka Shimazaki, and Susumu Kotani，Jpn. J. Protozoo.，vol.37，(1)，(p.11 ～ 18)，2004

    

64. The number of repeat sequences in microtubule-associated protein 4 affects the microtubule surface properties

    Tokuraku K, Matsushima K, Matui T, Nakagawa H, Katsuki M, Majima R, Kotani S，JOURNAL OF BIOLOGICAL CHEMISTRY，vol.278，(32)，(p.29609 ～ 29618)，2003.08

    

65. Evidence for a novel, strongly bound acto-S1 complex carrying ADP and phosphate stabilized in the G680V mutant of Dictyostelium myosin II

    Uyeda TQP, Tokuraku K, Kaseda K, Webb MR, Patterson B，BIOCHEMISTRY，vol.41，(30)，(p.9525 ～ 9534)，2002.07

    

66. The actin-depolymerizing factor destrin has an actin-stabilizing domain

    Tokuraku K, Okamoto S, Katsuki M, Nakagawa H, Kotani S，BIOCHEMISTRY AND CELL BIOLOGY，vol.79，(6)，(p.773 ～ 778)，2001.12

    

67. Phalloidin affects the myosin-dependent sliding velocities of actin filaments in a bound-divalent cation dependent manner

    Tokuraku K, Uyeda TQP，JOURNAL OF MUSCLE RESEARCH AND CELL MOTILITY，vol.22，(4)，(p.371 ～ 378)，2001

    

68. Purification and characterization of a new, ubiquitously distributed class of microtubule-associated protein with molecular mass 250 kDa

    Katsuki M, Tokuraku K, Nakagawa H, Kotani S，EUROPEAN JOURNAL OF BIOCHEMISTRY，vol.267，(24)，(p.7193 ～ 7200)，2000.12

    

69. Functional analysis of microtubule-binding domain of bovine MAP4

    Katsuki M, Tokuraku K, Murofushi H, Kotani S，CELL STRUCTURE AND FUNCTION，vol.24，(5)，(p.337 ～ 344)，1999.10

    

70. Microtubule-binding property of microtubule-associated protein 2 differs from that of microtubule-associated protein 4 and tau

    Tokuraku K, Katsuki M, Matui T, Kuroya T, Kotani S，EUROPEAN JOURNAL OF BIOCHEMISTRY，vol.264，(3)，(p.996 ～ 1001)，1999.09

    

71. A new model for microtubule-associated protein (MAP)-induced microtubule assembly - The Pro-rich region of MAP4 promotes nucleation of microtubule assembly in vitro

    Tokuraku K, Katsuki M, Nakagawa H, Kotani S，EUROPEAN JOURNAL OF BIOCHEMISTRY，vol.259，(1-2)，(p.158 ～ 166)，1999.01

    

72. Human natural resistance-associated macrophage protein is a new type of microtubule-associated protein

    Tokuraku K, Nakagawa H, Kishi F, Kotani S，FEBS LETTERS，vol.428，(1-2)，(p.63 ～ 67)，1998.05

    

73. The 'assembly-promoting sequence region' of microtubule-associated protein 4 failed to promote microtubule assembly

    Katsuki M, Tokuraku K, Nakagawa H, Murofushi H, Kotani S，FEBS LETTERS，vol.418，(1-2)，(p.35 ～ 38)，1997.11