Your search keyword '"Fukagawa, Tatsuo"' showing total 586 results

1. Molecular details and phosphoregulation of the CENP-T-Mis12 complex interaction during mitosis in DT40 cells

Author

Takenoshita, Yusuke, Hara, Masatoshi, Nakagawa, Reiko, Ariyoshi, Mariko, and Fukagawa, Tatsuo

Published

2024

2. Disordered region of nuclear membrane protein Bqt4 recruits phosphatidic acid to the nuclear envelope to maintain its structural integrity

Author

Hirano, Yasuhiro, Sato, Tsukino, Miura, Ayane, Kubota, Yoshino, Shindo, Tomoko, Fukase, Koichi, Fukagawa, Tatsuo, Kabayama, Kazuya, Haraguchi, Tokuko, and Hiraoka, Yasushi

Published

2024

3. Vertebrate centromeres in mitosis are functionally bipartite structures stabilized by cohesin

Author

Sacristan, Carlos, Samejima, Kumiko, Ruiz, Lorena Andrade, Deb, Moonmoon, Lambers, Maaike L.A., Buckle, Adam, Brackley, Chris A., Robertson, Daniel, Hori, Tetsuya, Webb, Shaun, Kiewisz, Robert, Bepler, Tristan, van Kwawegen, Eloïse, Risteski, Patrik, Vukušić, Kruno, Tolić, Iva M., Müller-Reichert, Thomas, Fukagawa, Tatsuo, Gilbert, Nick, Marenduzzo, Davide, Earnshaw, William C., and Kops, Geert J.P.L.

Published

2024

4. CENP-A and CENP-B collaborate to create an open centromeric chromatin state

Author

Nagpal, Harsh, Ali-Ahmad, Ahmad, Hirano, Yasuhiro, Cai, Wei, Halic, Mario, Fukagawa, Tatsuo, Sekulić, Nikolina, and Fierz, Beat

Published

2023

5. An updated view of the kinetochore architecture

Author

Ariyoshi, Mariko and Fukagawa, Tatsuo

Published

2023

6. Mitotic perturbation is a key mechanism of action of decitabine in myeloid tumor treatment

Author

Yabushita, Tomohiro, Chinen, Takumi, Nishiyama, Atsuya, Asada, Shuhei, Shimura, Ruka, Isobe, Tomoya, Yamamoto, Keita, Sato, Naru, Enomoto, Yutaka, Tanaka, Yosuke, Fukuyama, Tomofusa, Satoh, Hitoshi, Kato, Keiko, Saitoh, Kaori, Ishikawa, Takamasa, Soga, Tomoyoshi, Nannya, Yasuhito, Fukagawa, Tatsuo, Nakanishi, Makoto, Kitagawa, Daiju, Kitamura, Toshio, and Goyama, Susumu

Published

2023

7. Centromere/kinetochore is assembled through CENP-C oligomerization

Author

Hara, Masatoshi, Ariyoshi, Mariko, Sano, Tomoki, Nozawa, Ryu-Suke, Shinkai, Soya, Onami, Shuichi, Jansen, Isabelle, Hirota, Toru, and Fukagawa, Tatsuo

Published

2023

8. Transgenerational epigenetic control of constitutive heterochromatin, transposons, and centromeres

Author

Fukagawa, Tatsuo and Kakutani, Tetsuji

Published

2023

9. The cryo‐EM structure of the CENP‐A nucleosome in complex with ggKNL2

Author

Jiang, Honghui, Ariyoshi, Mariko, Hori, Tetsuya, Watanabe, Reito, Makino, Fumiaki, Namba, Keiichi, and Fukagawa, Tatsuo

Published

2023

10. Mobility of kinetochore proteins measured by FRAP analysis in living cells

Author

Watanabe, Reito, Hirano, Yasuhiro, Hara, Masatoshi, Hiraoka, Yasushi, and Fukagawa, Tatsuo

Published

2022

11. Recruitment of two Ndc80 complexes via the CENP-T pathway is sufficient for kinetochore functions

Author

Takenoshita, Yusuke, Hara, Masatoshi, and Fukagawa, Tatsuo

Published

2022

12. Transfected plasmid DNA is incorporated into the nucleus via nuclear envelope reformation at telophase

Author

Haraguchi, Tokuko, Koujin, Takako, Shindo, Tomoko, Bilir, Şükriye, Osakada, Hiroko, Nishimura, Kohei, Hirano, Yasuhiro, Asakawa, Haruhiko, Mori, Chie, Kobayashi, Shouhei, Okada, Yasushi, Chikashige, Yuji, Fukagawa, Tatsuo, Shibata, Shinsuke, and Hiraoka, Yasushi

Published

2022

13. Bub1 and CENP-U redundantly recruit Plk1 to stabilize kinetochore-microtubule attachments and ensure accurate chromosome segregation

Author

Chen, Qinfu, Zhang, Miao, Pan, Xuan, Yuan, Xueying, Zhou, Linli, Yan, Lu, Zeng, Ling-Hui, Xu, Junfen, Yang, Bing, Zhang, Long, Huang, Jun, Lu, Weiguo, Fukagawa, Tatsuo, Wang, Fangwei, and Yan, Haiyan

Published

2021

14. Kinetochore stretching-mediated rapid silencing of the spindle-assembly checkpoint required for failsafe chromosome segregation

Author

Uchida, Kazuhiko S.K., Jo, Minji, Nagasaka, Kota, Takahashi, Motoko, Shindo, Norihisa, Shibata, Katsushi, Tanaka, Kozo, Masumoto, Hiroshi, Fukagawa, Tatsuo, and Hirota, Toru

Published

2021

15. Vertebrate centromeres in mitosis are functionally bipartite structures stabilized by cohesin

Author

CMM, Cancer, Hubrecht Institute with UMC, Sacristan, Carlos, Samejima, Kumiko, Ruiz, Lorena Andrade, Deb, Moonmoon, Lambers, Maaike L.A., Buckle, Adam, Brackley, Chris A., Robertson, Daniel, Hori, Tetsuya, Webb, Shaun, Kiewisz, Robert, Bepler, Tristan, van Kwawegen, Eloïse, Risteski, Patrik, Vukušić, Kruno, Tolić, Iva M., Müller-Reichert, Thomas, Fukagawa, Tatsuo, Gilbert, Nick, Marenduzzo, Davide, Earnshaw, William C., Kops, Geert J.P.L., CMM, Cancer, Hubrecht Institute with UMC, Sacristan, Carlos, Samejima, Kumiko, Ruiz, Lorena Andrade, Deb, Moonmoon, Lambers, Maaike L.A., Buckle, Adam, Brackley, Chris A., Robertson, Daniel, Hori, Tetsuya, Webb, Shaun, Kiewisz, Robert, Bepler, Tristan, van Kwawegen, Eloïse, Risteski, Patrik, Vukušić, Kruno, Tolić, Iva M., Müller-Reichert, Thomas, Fukagawa, Tatsuo, Gilbert, Nick, Marenduzzo, Davide, Earnshaw, William C., and Kops, Geert J.P.L.

Published

2024

16. A Simple Method that Combines CRISPR and AID to Quickly Generate Conditional Knockouts for Essential Genes in Various Vertebrate Cell Lines

Author

Nishimura, Kohei, primary and Fukagawa, Tatsuo, additional

Published

2021

17. Essentiality of CENP-A Depends on Its Binding Mode to HJURP

Author

Hori, Tetsuya, Cao, JingHui, Nishimura, Kohei, Ariyoshi, Mariko, Arimura, Yasuhiro, Kurumizaka, Hitoshi, and Fukagawa, Tatsuo

Published

2020

18. Artificial generation of centromeres and kinetochores to understand their structure and function

Author

Hori, Tetsuya and Fukagawa, Tatsuo

Published

2020

19. Cryo-EM Structures of Centromeric Tri-nucleosomes Containing a Central CENP-A Nucleosome

Author

Takizawa, Yoshimasa, Ho, Cheng-Han, Tachiwana, Hiroaki, Matsunami, Hideyuki, Kobayashi, Wataru, Suzuki, Midori, Arimura, Yasuhiro, Hori, Tetsuya, Fukagawa, Tatsuo, Ohi, Melanie D., Wolf, Matthias, and Kurumizaka, Hitoshi

Published

2020

20. Artificial tethering of constitutive centromere-associated network proteins induces CENP-A deposition without Knl2 in DT40 cells

Author

Cao, JingHui, primary, Hori, Tetsuya, additional, Ariyoshi, Mariko, additional, and Fukagawa, Tatsuo, additional

Published

2024

21. Correction: A ubiquitin–proteasome pathway degrades the inner nuclear membrane protein Bqt4 to maintain nuclear membrane homeostasis

Author

Khanh Le, Toan, primary, Hirano, Yasuhiro, additional, Asakawa, Haruhiko, additional, Okamoto, Koji, additional, Fukagawa, Tatsuo, additional, Haraguchi, Tokuko, additional, and Hiraoka, Yasushi, additional

Published

2024

22. Dynamics of kinetochore structure and its regulations during mitotic progression

Author

Hara, Masatoshi and Fukagawa, Tatsuo

Published

2020

23. Bridgin connects the outer kinetochore to centromeric chromatin

Author

Sridhar, Shreyas, Hori, Tetsuya, Nakagawa, Reiko, Fukagawa, Tatsuo, and Sanyal, Kaustuv

Published

2021

24. Nuclear membrane protein Bqt4 maintains nuclear envelope integrity by recruiting phosphatidic acid

Author

Hirano, Yasuhiro, primary, Sato, Tsukino, additional, Miura, Ayane, additional, Kubota, Yoshino, additional, Shindo, Tomoko, additional, Fukase, Koichi, additional, Fukagawa, Tatsuo, additional, Kabayama, Kazuya, additional, Haraguchi, Tokuko, additional, and Hiraoka, Yasushi, additional

Published

2023

25. A ubiquitin–proteasome pathway degrades the inner nuclear membrane protein Bqt4 to maintain nuclear membrane homeostasis

Author

Le, Toan Khanh, primary, Hirano, Yasuhiro, additional, Asakawa, Haruhiko, additional, Okamoto, Koji, additional, Fukagawa, Tatsuo, additional, Haraguchi, Tokuko, additional, and Hiraoka, Yasushi, additional

Published

2023

26. Critical Foundation of the Kinetochore: The Constitutive Centromere-Associated Network (CCAN)

Author

Hara, Masatoshi, Fukagawa, Tatsuo, Müller, Werner E G, Editor-in-chief, Schröder, Heinz C., Series editor, Ugarković, Ðurðica, Series editor, and Black, Ben E., editor

Published

2017

27. Kinetochore assembly and disassembly during mitotic entry and exit

Author

Hara, Masatoshi and Fukagawa, Tatsuo

Published

2018

28. Cryo‐EM structure of the CENP‐A nucleosome in complex with phosphorylated CENP‐C

Author

Ariyoshi, Mariko, Makino, Fumiaki, Watanabe, Reito, Nakagawa, Reiko, Kato, Takayuki, Namba, Keiichi, Arimura, Yasuhiro, Fujita, Risa, Kurumizaka, Hitoshi, Okumura, Ei‐ichi, Hara, Masatoshi, and Fukagawa, Tatsuo

Published

2021

29. Stepwise unfolding supports a subunit model for vertebrate kinetochores

Author

Vargiu, Giulia, Makarov, Alexandr A., Allan, James, Fukagawa, Tatsuo, Booth, Daniel G., and Earnshaw, William C.

Published

2017

30. Centromeric Chromatin and Kinetochore Assembly in Vertebrate Cells

Author

Fukagawa, Tatsuo, Hanaoka, Fumio, editor, and Sugasawa, Kaoru, editor

Published

2016

31. Centromere maintenance during DNA replication

Author

Hara, Masatoshi and Fukagawa, Tatsuo

Published

2019

32. Multiple phosphorylations control recruitment of the KMN network onto kinetochores

Author

Hara, Masatoshi, Ariyoshi, Mariko, Okumura, Ei-ichi, Hori, Tetsuya, and Fukagawa, Tatsuo

Published

2018

33. Ceramide synthase homolog Tlc4 maintains nuclear envelope integrity via its Golgi translocation

Author

Hirano, Yasuhiro, primary, Ohno, Yusuke, additional, Kubota, Yoshino, additional, Fukagawa, Tatsuo, additional, Kihara, Akio, additional, Haraguchi, Tokuko, additional, and Hiraoka, Yasushi, additional

Published

2023

34. Centromere/kinetochore is assembled through CENP-C oligomerization

Author

1000030565099, 0000-0001-8433-1111, Hara, Masatoshi, 1000080437243, 0000-0002-1361-2642, Ariyoshi, Mariko, Sano, Tomoki, 1000070868710, Nozawa, Ryu-Suke, 1000060547058, Shinkai, Soya, 1000050348843, Onami, Shuichi, Jansen, Isabelle, 1000050421368, Hirota, Toru, 1000060321600, Fukagawa, Tatsuo, 1000030565099, 0000-0001-8433-1111, Hara, Masatoshi, 1000080437243, 0000-0002-1361-2642, Ariyoshi, Mariko, Sano, Tomoki, 1000070868710, Nozawa, Ryu-Suke, 1000060547058, Shinkai, Soya, 1000050348843, Onami, Shuichi, Jansen, Isabelle, 1000050421368, Hirota, Toru, 1000060321600, and Fukagawa, Tatsuo

Abstract

Hara M., Ariyoshi M., Sano T., et al. Centromere/kinetochore is assembled through CENP-C oligomerization. Molecular Cell 83, 2188 (2023); https://doi.org/10.1016/j.molcel.2023.05.023., Kinetochore is an essential protein complex required for accurate chromosome segregation. The constitutive centromere-associated network (CCAN), a subcomplex of the kinetochore, associates with centromeric chromatin and provides a platform for the kinetochore assembly. The CCAN protein CENP-C is thought to be a central hub for the centromere/kinetochore organization. However, the role of CENP-C in CCAN assembly needs to be elucidated. Here, we demonstrate that both the CCAN-binding domain and the C-terminal region that includes the Cupin domain of CENP-C are necessary and sufficient for chicken CENP-C function. Structural and biochemical analyses reveal self-oligomerization of the Cupin domains of chicken and human CENP-C. We find that the CENP-C Cupin domain oligomerization is vital for CENP-C function, centromeric localization of CCAN, and centromeric chromatin organization. These results suggest that CENP-C facilitates the centromere/kinetochore assembly through its oligomerization.

Published

2023

35. The CENP-A centromere targeting domain facilitates H4K20 monomethylation in the nucleosome by structural polymorphism

Author

Arimura, Yasuhiro, Tachiwana, Hiroaki, Takagi, Hiroki, Hori, Tetsuya, Kimura, Hiroshi, Fukagawa, Tatsuo, and Kurumizaka, Hitoshi

Published

2019

36. Data from KRAB Zinc Finger Protein ZNF382 Is a Proapoptotic Tumor Suppressor That Represses Multiple Oncogenes and Is Commonly Silenced in Multiple Carcinomas

Author

Cheng, Yingduan, primary, Geng, Hua, primary, Cheng, Suk Hang, primary, Liang, Pei, primary, Bai, Yan, primary, Li, Jisheng, primary, Srivastava, Gopesh, primary, Ng, Margaret H.L., primary, Fukagawa, Tatsuo, primary, Wu, Xiushan, primary, Chan, Anthony T.C., primary, and Tao, Qian, primary

Published

2023

37. Supplementary Figure Legend from Structure-Specific Endonucleases Xpf and Mus81 Play Overlapping but Essential Roles in DNA Repair by Homologous Recombination

Author

Kikuchi, Koji, primary, Narita, Takeo, primary, Pham, Van T., primary, Iijima, Junko, primary, Hirota, Kouji, primary, Keka, Islam Shamima, primary, Okawa, Katsuya, primary, Hori, Tetsuya, primary, Fukagawa, Tatsuo, primary, Essers, Jeroen, primary, Kanaar, Roland, primary, Whitby, Matthew C., primary, Sugasawa, Kaoru, primary, Taniguchi, Yoshihito, primary, Kitagawa, Katsumi, primary, and Takeda, Shunichi, primary

Published

2023

38. Supplementary Figure 2 from Structure-Specific Endonucleases Xpf and Mus81 Play Overlapping but Essential Roles in DNA Repair by Homologous Recombination

Author

Kikuchi, Koji, primary, Narita, Takeo, primary, Pham, Van T., primary, Iijima, Junko, primary, Hirota, Kouji, primary, Keka, Islam Shamima, primary, Okawa, Katsuya, primary, Hori, Tetsuya, primary, Fukagawa, Tatsuo, primary, Essers, Jeroen, primary, Kanaar, Roland, primary, Whitby, Matthew C., primary, Sugasawa, Kaoru, primary, Taniguchi, Yoshihito, primary, Kitagawa, Katsumi, primary, and Takeda, Shunichi, primary

Published

2023

39. Data from Structure-Specific Endonucleases Xpf and Mus81 Play Overlapping but Essential Roles in DNA Repair by Homologous Recombination

Author

Kikuchi, Koji, primary, Narita, Takeo, primary, Pham, Van T., primary, Iijima, Junko, primary, Hirota, Kouji, primary, Keka, Islam Shamima, primary, Okawa, Katsuya, primary, Hori, Tetsuya, primary, Fukagawa, Tatsuo, primary, Essers, Jeroen, primary, Kanaar, Roland, primary, Whitby, Matthew C., primary, Sugasawa, Kaoru, primary, Taniguchi, Yoshihito, primary, Kitagawa, Katsumi, primary, and Takeda, Shunichi, primary

Published

2023

40. Supplementary Figure 5 from Structure-Specific Endonucleases Xpf and Mus81 Play Overlapping but Essential Roles in DNA Repair by Homologous Recombination

Author

Kikuchi, Koji, primary, Narita, Takeo, primary, Pham, Van T., primary, Iijima, Junko, primary, Hirota, Kouji, primary, Keka, Islam Shamima, primary, Okawa, Katsuya, primary, Hori, Tetsuya, primary, Fukagawa, Tatsuo, primary, Essers, Jeroen, primary, Kanaar, Roland, primary, Whitby, Matthew C., primary, Sugasawa, Kaoru, primary, Taniguchi, Yoshihito, primary, Kitagawa, Katsumi, primary, and Takeda, Shunichi, primary

Published

2023

41. Supplementary Figure 6 from Structure-Specific Endonucleases Xpf and Mus81 Play Overlapping but Essential Roles in DNA Repair by Homologous Recombination

Author

Kikuchi, Koji, primary, Narita, Takeo, primary, Pham, Van T., primary, Iijima, Junko, primary, Hirota, Kouji, primary, Keka, Islam Shamima, primary, Okawa, Katsuya, primary, Hori, Tetsuya, primary, Fukagawa, Tatsuo, primary, Essers, Jeroen, primary, Kanaar, Roland, primary, Whitby, Matthew C., primary, Sugasawa, Kaoru, primary, Taniguchi, Yoshihito, primary, Kitagawa, Katsumi, primary, and Takeda, Shunichi, primary

Published

2023

42. Supplementary Figure 1 from Structure-Specific Endonucleases Xpf and Mus81 Play Overlapping but Essential Roles in DNA Repair by Homologous Recombination

Author

Kikuchi, Koji, primary, Narita, Takeo, primary, Pham, Van T., primary, Iijima, Junko, primary, Hirota, Kouji, primary, Keka, Islam Shamima, primary, Okawa, Katsuya, primary, Hori, Tetsuya, primary, Fukagawa, Tatsuo, primary, Essers, Jeroen, primary, Kanaar, Roland, primary, Whitby, Matthew C., primary, Sugasawa, Kaoru, primary, Taniguchi, Yoshihito, primary, Kitagawa, Katsumi, primary, and Takeda, Shunichi, primary

Published

2023

43. Supplementary Methods from Structure-Specific Endonucleases Xpf and Mus81 Play Overlapping but Essential Roles in DNA Repair by Homologous Recombination

Author

Kikuchi, Koji, primary, Narita, Takeo, primary, Pham, Van T., primary, Iijima, Junko, primary, Hirota, Kouji, primary, Keka, Islam Shamima, primary, Okawa, Katsuya, primary, Hori, Tetsuya, primary, Fukagawa, Tatsuo, primary, Essers, Jeroen, primary, Kanaar, Roland, primary, Whitby, Matthew C., primary, Sugasawa, Kaoru, primary, Taniguchi, Yoshihito, primary, Kitagawa, Katsumi, primary, and Takeda, Shunichi, primary

Published

2023

44. Supplementary Figure 4 from Structure-Specific Endonucleases Xpf and Mus81 Play Overlapping but Essential Roles in DNA Repair by Homologous Recombination

Author

Kikuchi, Koji, primary, Narita, Takeo, primary, Pham, Van T., primary, Iijima, Junko, primary, Hirota, Kouji, primary, Keka, Islam Shamima, primary, Okawa, Katsuya, primary, Hori, Tetsuya, primary, Fukagawa, Tatsuo, primary, Essers, Jeroen, primary, Kanaar, Roland, primary, Whitby, Matthew C., primary, Sugasawa, Kaoru, primary, Taniguchi, Yoshihito, primary, Kitagawa, Katsumi, primary, and Takeda, Shunichi, primary

Published

2023

45. Supplementary Figure 7 from Structure-Specific Endonucleases Xpf and Mus81 Play Overlapping but Essential Roles in DNA Repair by Homologous Recombination

Author

Kikuchi, Koji, primary, Narita, Takeo, primary, Pham, Van T., primary, Iijima, Junko, primary, Hirota, Kouji, primary, Keka, Islam Shamima, primary, Okawa, Katsuya, primary, Hori, Tetsuya, primary, Fukagawa, Tatsuo, primary, Essers, Jeroen, primary, Kanaar, Roland, primary, Whitby, Matthew C., primary, Sugasawa, Kaoru, primary, Taniguchi, Yoshihito, primary, Kitagawa, Katsumi, primary, and Takeda, Shunichi, primary

Published

2023

46. Supplementary Table 1 from KRAB Zinc Finger Protein ZNF382 Is a Proapoptotic Tumor Suppressor That Represses Multiple Oncogenes and Is Commonly Silenced in Multiple Carcinomas

Author

Cheng, Yingduan, primary, Geng, Hua, primary, Cheng, Suk Hang, primary, Liang, Pei, primary, Bai, Yan, primary, Li, Jisheng, primary, Srivastava, Gopesh, primary, Ng, Margaret H.L., primary, Fukagawa, Tatsuo, primary, Wu, Xiushan, primary, Chan, Anthony T.C., primary, and Tao, Qian, primary

Published

2023

47. Supplementary Figure 3 from Structure-Specific Endonucleases Xpf and Mus81 Play Overlapping but Essential Roles in DNA Repair by Homologous Recombination

Author

Kikuchi, Koji, primary, Narita, Takeo, primary, Pham, Van T., primary, Iijima, Junko, primary, Hirota, Kouji, primary, Keka, Islam Shamima, primary, Okawa, Katsuya, primary, Hori, Tetsuya, primary, Fukagawa, Tatsuo, primary, Essers, Jeroen, primary, Kanaar, Roland, primary, Whitby, Matthew C., primary, Sugasawa, Kaoru, primary, Taniguchi, Yoshihito, primary, Kitagawa, Katsumi, primary, and Takeda, Shunichi, primary

Published

2023

48. Let's enjoy the heated “Debate Forum” (Gekiron Colosseo) at Makuhari Messe: A report of the 45th Annual Meeting of the Molecular Biology Society of Japan (MBSJ2022)

Author

Fukagawa, Tatsuo, primary

Published

2023

49. Evolutionary analysis of a complete chicken genome

Author

Huang, Zhen, primary, Xu, Zaoxu, additional, Bai, Hao, additional, Huang, Yongji, additional, Kang, Na, additional, Ding, Xiaoting, additional, Liu, Jing, additional, Luo, Haoran, additional, Yang, Chentao, additional, Chen, Wanjun, additional, Guo, Qixin, additional, Xue, Lingzhan, additional, Zhang, Xueping, additional, Xu, Li, additional, Chen, Meiling, additional, Fu, Honggao, additional, Chen, Youling, additional, Yue, Zhicao, additional, Fukagawa, Tatsuo, additional, Liu, Shanlin, additional, Chang, Guobin, additional, and Xu, Luohao, additional

Published

2023

50. Cell Division: A New Role for the Kinetochore in Central Spindle Assembly

Author

Fukagawa, Tatsuo

Published

2015