発表論文（平成28年度）

1.Fukuto A, Ikura M, Ikura T, Sun J, Horikoshi Y, Shima H, Igarashi K, Kusakabe M, Harata M, Horikoshi N, Kurumizaka H, Kiuchi Y, Tashiro S.

SUMO modification system facilitates the exchange of histone variant H2A.Z-2 at DNA damage sites.

Nucleus., 2017

Pubmed ID: 29095668　[領域内共同研究：原田・胡桃坂・田代]

2. Yamazaki S, Yamamoto K, de Lanerolle P, Harata M.

Nuclear F-actin enhances the transcriptional activity of β-catenin by increasing its nuclear localization and binding to chromatin

Histochem Cell Biol 145, 389-99, 2016

Pubmed ID: 26900020 責任著者

発表論文（平成25年度～平成27年度）

1. Kusakabe M, Oku H, Matsuda R, Hori T, Muto A, Igarashi K, Fukagawa T, Harata M.

Genetic complementation analysis showed distinct contributions of the N-terminal tail of H2A.Z to epigenetic regulations

Genes Cells 21, 122-135, 2016

Pubmed ID: 26833946 責任著者

　[領域内共同研究:原田・堀]

2. Kitamura, H., Matsumori, H., Kalendova, A., Hozak, P., Goldberg, I. G., Nakao, M., Saitoh, N., and Harata, M.

The actin family protein ARP6 contributes to the structure and the function of the nucleolus

Biochem Biophys Res Commun 464, 554-560, 2015

Pubmed ID: 26164235 責任著者

　[領域内共同研究:原田・斉藤]

3. Yamazaki S, Yamamoto K, Harata M.

Contribution of nuclear actin to transcription regulation

Genom Data4, 127-129, 2015

Pubmed ID: 26484196 責任著者

4. Yamazaki, S., Yamamoto, K., Tokunaga, M., Sakata-Sogawa, K., and Harata, M.

Nuclear actin activates human transcription factor genes including the OCT4 gene

Biosci Biotechnol Biochem 79, 242-246, 2015

Pubmed ID: 25355676 責任著者

　[領域内共同研究:原田・徳永]

5. Georgieva, M., Staneva, D., Uzunova, K., Efremov, T., Balashev, K., Harata, M., and Miloshev, G.

The linker histone in Saccharomyces cerevisiae interacts with actin-related protein 4 and both regulate chromatin structure and cellular morphology

Int J Biochem Cell Biol 59, 182-192, 2015

Pubmed ID: 25542182

6. Osakabe, A., Takahashi, Y., Murakami, H., Otawa, K., Tachiwana, H., Oma, Y., Nishijima, H., Shibahara, K. I., Kurumizaka, H., and Harata, M.

DNA binding properties of the actin-related protein Arp8 and its role in DNA repair

PLoS One 9, e108354, 2014

Pubmed ID: 25299602 責任著者

　[領域内共同研究:胡桃坂・原田]

7. Nishibuchi, I., Suzuki, H., Kinomura, A., Sun, J., Liu, N. A., Horikoshi, Y., Shima, H., Kusakabe, M., Harata, M., Fukagawa, T., Ikura, T., Ishida, T., Nagata, Y., and Tashiro, S.

Reorganization of damaged chromatin by the exchange of histone variant H2A.Z-2

Int J Radiat Oncol Biol Phys 89, 736-744, 2014

Pubmed ID: 24969791 責任著者

　[領域内共同研究:田代・原田]

8. Konishi, T., and Harata, M.

Improvement of the transformation efficiency of Sacchaaromyces cerevisiae by altering carbon sources in pre-culture

Biosci Biotechnol Biochem 78, 1090-1093, 2014

Pubmed ID: 25036141 責任著者

9. Kalendova, A., Kalasova, I., Yamazaki, S., Ulicna, L., Harata, M., and Hozak, P.

Nuclear actin filaments recruit cofilin and actin-related protein 3, and their formation is connected with a mitotic block

Histochem Cell Biol 142, 139-152, 2014

Pubmed ID: 25002125

10. Horigome, C., Oma, Y., Konishi, T., Schmid, R., Marcomini, I., Hauer, M. H., Dion, V., Harata, M., and Gasser, S. M.

SWR1 and INO80 chromatin remodelers contribute to DNA double-strand break perinuclear anchorage site choice

Mol Cell 55, 626-639, 2014

Pubmed ID: 25066231

11. Horikoshi, N., Sato, K., Shimada, K., Arimura, Y., Osakabe, A., Tachiwana, H., Hayashi-Takanaka, Y., Iwasaki, W., Kagawa, W., Harata, M., Kimura, H., and Kurumizaka, H.

Structural polymorphism in the L1 loop regions of human H2A.Z.1 and H2A.Z.2

Acta Crystallogr D Biol Crystallogr69, 2431-2439, 2013

Pubmed ID: 24311584

　[領域内共同研究:胡桃坂・香川・木村・原田]