Details of the Researcher

PHOTO

Mika Teranishi
Section
Graduate School of Life Sciences
Job title
Assistant Professor
Degree

  • 博士(農学)(東北大学)

  • 修士(農学)(東北大学)

e-Rad No.
10333832

Committee Memberships 1

  • 宇宙生物科学会・若手(次世代)研究者育成委員会 委員

    2013 -

Professional Memberships 4

  • 日本分子生物学会

  • 日本放射線影響学会

  • 日本植物生理学会

  • 日本宇宙生物科学会

Research Interests 6

  • 紫外線

  • UV-B

  • DNA損傷

  • DNA修復

  • 光回復酵素

  • 開花

Research Areas 5

  • Life sciences / Molecular biology /

  • Environmental science/Agricultural science / Landscape science /

  • Environmental science/Agricultural science / Environmental agriculture /

  • Environmental science/Agricultural science / Environmental effects of chemicals /

  • Environmental science/Agricultural science / Environmental effects of radiation /

Awards 3

  1. 日本宇宙生物科学会第26回大会 優秀発表賞

    2012

  2. 東北大学バイオサイエンスシンポジウムポスター賞

    2007

  3. 日本放射線影響学会 口頭発表部門 優秀発表賞

    2007

Papers 42

  1. UV-B irradiation does not promote flowering in Arabidopsis despite increased FT expression Peer-reviewed

    Ami Takahashi, Yuki Takahashi, Jun Hidema, Mika Teranishi

    Plant Direct 2025/05

    DOI: 10.1002/pld3.70073  

  2. Poaceae plants transfer cyclobutane pyrimidine dimer photolyase to chloroplasts for ultraviolet-B resistance Peer-reviewed

    Momo Otake, Mika Teranishi, Chiharu Komatsu, Mamoru Hara, Kaoru Okamoto Yoshiyama, Jun Hidema

    Plant Physiology 2024/02/12

    Publisher: Oxford University Press (OUP)

    DOI: 10.1093/plphys/kiae060  

    ISSN: 0032-0889

    eISSN: 1532-2548

    More details Close

    Abstract Photoreactivation enzyme that repairs cyclobutane pyrimidine dimer (CPD) induced by ultraviolet-B radiation, commonly called CPD photolyase (PHR) is essential for plants living under sunlight. Rice (Oryza sativa) PHR (OsPHR) is a unique triple-targeting protein. The signal sequences required for its translocation to the nucleus or mitochondria are located in the C-terminal region but have yet to be identified for chloroplasts. Here, we identified sequences located in the N-terminal region, including the serine-phosphorylation site at position 7 of OsPHR, and found that OsPHR is transported/localized to chloroplasts via a vesicle transport system under the control of serine-phosphorylation. However, the sequence identified in this study is only conserved in some Poaceae species, and in many other plants, PHR is not localized to the chloroplasts. Therefore, we reasoned that Poaceae species need the ability to repair CPD in the chloroplast genome to survive under sunlight and have uniquely acquired this mechanism for PHR chloroplast translocation.

  3. Cover Image

    Atsushi Higashitani, Mika Teranishi, Yui Nakagawa, Yukou Itoh, Surabhi Sudevan, Nathaniel J. Szewczyk, Yukihiko Kubota, Takaaki Abe, Takeshi Kobayashi

    The FASEB Journal 2023/04

    DOI: 10.1096/fsb2.22909  

  4. Increased mitochondrial Ca 2+ contributes to health decline with age and Duchene muscular dystrophy in C. elegans Peer-reviewed

    Atsushi Higashitani, Mika Teranishi, Yui Nakagawa, Yukou Itoh, Surabhi Sudevan, Nathaniel J. Szewczyk, Yukihiko Kubota, Takaaki Abe, Takeshi Kobayashi (Atsushi Higashitani and Mika Teranishi contributed equally)

    The FASEB Journal 37 (4) 2023/03/19

    Publisher: Wiley

    DOI: 10.1096/fj.202201489rr  

    ISSN: 0892-6638

    eISSN: 1530-6860

  5. Histone deacetylase HDA-4-mediated epigenetic regulation in space-flown C. elegans International-journal Peer-reviewed

    Atsushi Higashitani, Toko Hashizume, Mai Takiura, Nahoko Higashitani, Mika Teranishi, Rika Oshima, Sachiko Yano, Kana Kuriyama, Akira Higashibata

    npj Microgravity 7 (1) 33-33 2021/12

    Publisher: Springer Science and Business Media LLC

    DOI: 10.1038/s41526-021-00163-7  

    eISSN: 2373-8065

    More details Close

    Abstract Epigenetic changes during long-term spaceflight are beginning to be studied by NASA’s twin astronauts and other model organisms. Here, we evaluate the epigenetic regulation of gene expression in space-flown C. elegans by comparing wild type and histone deacetylase (hda)-4 mutants. Expression levels of 39 genes were consistently upregulated in all four generations of adult hda-4 mutants grown under microgravity compared with artificial Earth-like gravity (1G). In contrast, in the wild type, microgravity-induced upregulation of these genes occurred a little. Among these genes, 11 contain the domain of unknown function 19 (DUF-19) and are located in a cluster on chromosome V. When compared with the 1G condition, histone H3 trimethylation at lysine 27 (H3K27me3) increased under microgravity in the DUF-19 containing genes T20D4.12 to 4.10 locus in wild-type adults. On the other hand, this increase was also observed in the hda-4 mutant, but the level was significantly reduced. The body length of wild-type adults decreased slightly but significantly when grown under microgravity. This decrease was even more pronounced with the hda-4 mutant. In ground-based experiments, one of the T20D4.11 overexpressing strains significantly reduced body length and also caused larval growth retardation and arrest. These results indicate that under microgravity, C. elegans activates histone deacetylase HDA-4 to suppress overregulation of several genes, including the DUF-19 family. In other words, the expression of certain genes, including negative regulators of growth and development, is epigenetically fine-tuned to adapt to the space microgravity.

  6. SOG1, a plant‐specific master regulator of DNA damage responses, originated from nonvascular land plants Peer-reviewed

    Ayako N. Sakamoto, Tomoaki Sakamoto, Yuichiro Yokota, Mika Teranishi, Kaoru O. Yoshiyama, Seisuke Kimura

    Plant Direct 5 (12) 2021/12

    Publisher: Wiley

    DOI: 10.1002/pld3.370  

    ISSN: 2475-4455

    eISSN: 2475-4455

  7. Transgenic rice Oryza glaberrima with higher CPD photolyase activity alleviates UVB-caused growth inhibition Peer-reviewed

    Gideon Sadikiel Mmbando, Mika Teranishi, Jun Hidema

    GM Crops Food 12 (1) 435-448 2021/01/02

    Publisher: Informa UK Limited

    DOI: 10.1080/21645698.2021.1977068  

    ISSN: 2164-5698

    eISSN: 2164-5701

  8. Autophagy-deficient Arabidopsis mutant atg5, which shows ultraviolet-B sensitivity, cannot remove ultraviolet-B-induced fragmented mitochondria. International-journal Peer-reviewed

    Gönül Dündar, Mika Teranishi, Jun Hidema

    Photochemical & photobiological sciences : Official journal of the European Photochemistry Association and the European Society for Photobiology 19 (12) 1717-1729 2020/12/01

    DOI: 10.1039/c9pp00479c  

    More details Close

    Mitochondria damaged by ultraviolet-B radiation (UV-B, 280-315 nm) are removed by mitophagy, a selective autophagic process. Recently, we demonstrated that autophagy-deficient Arabidopsis thaliana mutants exhibit a UV-B-sensitive phenotype like that of cyclobutane pyrimidine dimer (CPD)-specific photolyase (PHR1)-deficient mutants. To explore the relationship between UV-B sensitivity and autophagy in UV-B-damaged plants, we monitored mitochondrial dynamics and autophagy in wild-type Arabidopsis (ecotype Columbia); an autophagy-deficient mutant, atg5; a PHR1-deficient mutant, phr1; an atg5 phr1 double mutant; and AtPHR1-overexpressing (AtPHR1ox) plants following high-dose UV-B exposure (1.5 W m-2 for 1 h). At 10 h after exposure, the number of mitochondria per mesophyll leaf cell was increased and the volumes of individual mitochondria were decreased independently of UV-B-induced CPD accumulation in all genotypes. At 24 h after exposure, the mitochondrial number had recovered or almost recovered to pre-exposure levels in plants with functional autophagy (WT, phr1, and AtPHR1ox), but had increased even further in atg5. This suggested that the high dose of UV-B led to the inactivation and fragmentation of mitochondria, which were removed by mitophagy activated by UV-B. The UV-B-sensitive phenotype of the atg5 phr1 double mutant was more severe than that of atg5 or phr1. In wild-type, phr1, and AtPHR1ox plants, autophagy-related genes were strongly expressed following UV-B exposure independently of UV-B-induced CPD accumulation. Therefore, mitophagy might be one of the important repair mechanisms for UV-B-induced damage. The severe UV-B-sensitive phenotype of atg5 phr1 is likely an additive effect of deficiencies in independent machineries for UV-B protection, autophagy, and CPD photorepair.

  9. Increased hydrostatic pressure induces nuclear translocation of DAF-16/FOXO in C. elegans. International-journal Peer-reviewed

    Naoshi Watanabe, Masatoshi Morimatsu, Ayano Fujita, Mika Teranishi, Surabhi Sudevan, Masaru Watanabe, Hiroaki Iwasa, Yutaka Hata, Hiroyuki Kagi, Masayoshi Nishiyama, Keiji Naruse, Atsushi Higashitani

    Biochemical and biophysical research communications 523 (4) 853-858 2020/03/19

    DOI: 10.1016/j.bbrc.2020.01.047  

    More details Close

    Mechanical stimulation is well known to be important for maintaining tissue and organ homeostasis. Here, we found that hydrostatic pressure induced nuclear translocation of a forkhead box O (FOXO) transcription factor DAF-16, in C. elegans within minutes, whereas the removal of this pressure resulted in immediate export of DAF-16 to the cytoplasm. We also monitored DAF-16-dependent transcriptional changes by exposure to 1 MPa pressure for 5 min, and found significant changes in collagen and other genes in a DAF-16 dependent manner. Lifespan was markedly prolonged with exposure to cyclic pressure treatment (1 MPa once a day for 5 min from L1 larvae until death). Furthermore, age-dependent decline in locomotor activity was suppressed by the treatment. In contrast, the nuclear translocation of the yes-associated protein YAP-1 was not induced under the same pressure conditions. Thus, moderate hydrostatic pressure improves ageing progression through activation of DAF-16/FOXO in C. elegans.

  10. Very high sensitivity of African rice to artificial ultraviolet-B radiation caused by genotype and quantity of cyclobutane pyrimidine dimer photolyase Peer-reviewed

    Gideon Sadikiel Mmbando, Mika Teranishi, Jun Hidema

    Scientific Reports 21 3158 2020/02

  11. Expression and Functional Analyses of Five B-class Genes in the Grape Hyacinth (<i>Muscari armeniacum</i>) Peer-reviewed

    Kana Miura, Mutsumi Nakada, Shosei Kubota, Shusei Sato, Soichiro Nagano, Akie Kobayashi, Mika Teranishi, Masaru Nakano, Akira Kanno

    The Horticulture Journal 88 (2) 284-292 2019

    Publisher: Japanese Society for Horticultural Science

    DOI: 10.2503/hortj.utd-036  

    ISSN: 2189-0102

    eISSN: 2189-0110

  12. Divergent evolution of rice blast resistance Pi54 locus in the genus Oryza International-journal Peer-reviewed

    Zhang L, Nakagomi Y, Endo T, Teranishi M, Hidema J, Sato S, Higashitani A

    Rice 11 (11) 63-63 2018/12

    DOI: 10.1186/s12284-018-0256-8  

    More details Close

    BACKGROUND: The rice blast resistance gene Pi54 was cloned from Oryza sativa ssp. indica cv. Tetep, which conferred broad-spectrum resistance against Magnaporthe oryzae. Pi54 allelic variants have been identified in not only domesticates but also wild rice species, but the majority of japonica and some indica cultivars lost the function. RESULTS: We here found that Pi54 (Os11g0639100) and its homolog Os11g0640600 (named as #11) were closely located on a 25 kbp region in japonica cv. Sasanishiki compared to a 99 kbp region in japonica cv. Nipponbare. Sasanishiki lost at least six genes containing one other R-gene cluster (Os11g0639600, Os11g0640000, and Os11g0640300). Eight AA-genome species including five wild rice species were classified into either Nipponbare or Sasanishiki type. The BB-genome wild rice species O. punctata was Sasanishiki type. The FF-genome wild rice species O. brachyantha (the basal lineage of Oryza) was neither, because Pi54 was absent and the orientation of the R-gene cluster was reversed in comparison with Nipponbare-type species. The phylogenetic analysis showed that #11gene of O. brachyantha was on the root of both Pi54 and #11 alleles. All Nipponbare-type Pi54 alleles were specifically disrupted by 143 and 37/44 bp insertions compared to Tetep and Sasanishiki type. In addition, Pi54 of japonica cv. Sasanishiki lost nucleotide-binding site and leucine-rich repeat (NBS-LRR) domains owing to additional mutations. CONCLUSIONS: These results suggest that Pi54 might be derived from a tandem duplication of the ancestor #11 gene in progenitor FF-genome species. Two divergent structures of Pi54 locus caused by a mobile unit containing the nearby R-gene cluster could be developed before domestication. This study provides a potential genetic resource of rice breeding for blast resistance in modern cultivars sustainability.

  13. 太陽光下で進化した植物がもつ紫外線適応戦略

    寺西 美佳

    放射線と産業 (143) 6-10 2017/12

  14. UV-B-Induced CPD Photolyase Gene Expression is Regulated by UVR8-Dependent and -Independent Pathways in Arabidopsis Peer-reviewed

    Nan Li, Mika Teranishi, Hiroko Yamaguchi, Tomonao Matsushita, Masaaki K. Watahiki, Tomohiko Tsuge, Shao-Shan Li, Jun Hidema

    PLANT AND CELL PHYSIOLOGY 56 (10) 2014-2023 2015/10

    DOI: 10.1093/pcp/pcv121  

    ISSN: 0032-0781

    eISSN: 1471-9053

  15. Analysis of DNA strand breaks induced by carbon ion beams in Arabidopsis.

    Teranishi M, Yamaguchi H, Sakamoto AN, Hidema J

    JAEA-Review 2014 (1) 115 2015/03

  16. Transport of rice cyclobutane pyrimidine dimer photolyase into mitochondria relies on a targeting sequence located in its C-terminal internal region Peer-reviewed

    Sayaka Takahashi, Mika Teranishi, Masanori Izumi, Masaaki Takahashi, Fumio Takahashi, Jun Hidema

    PLANT JOURNAL 79 (6) 951-963 2014/09

    DOI: 10.1111/tpj.12598  

    ISSN: 0960-7412

    eISSN: 1365-313X

  17. Isolation of a novel UVB-tolerant rice mutant obtained by exposure to carbon-ion beams Peer-reviewed

    Nao Takano, Yuko Takahashi, Mitsuru Yamamoto, Mika Teranishi, Hiroko Yamaguchi, Ayako N. Sakamoto, Yoshihiro Hase, Hiroko Fujisawa, Jianzhong Wu, Takashi Matsumoto, Seiichi Toki, Jun Hidema

    JOURNAL OF RADIATION RESEARCH 54 (4) 637-648 2013/07

    DOI: 10.1093/jrr/rrt007  

    ISSN: 0449-3060

    eISSN: 1349-9157

  18. Over-expression of ATR causes autophagic cell death Peer-reviewed

    Chihiro Mori, Yoshihiro Yamaguchi, Mika Teranishi, Takako Takanami, Takahiro Nagase, Shinichiro Kanno, Akira Yasui, Atsushi Higashitani

    Genes to Cells 18 (4) 278-287 2013/04

    DOI: 10.1111/gtc.12034  

    ISSN: 1356-9597 1365-2443

  19. Identification of a phosphorylation site in cyclobutane pyrimidine dimer photolyase of rice Peer-reviewed

    Mika Teranishi, Kentaro Nakamura, Haruya Furukawa, Jun Hidema

    Plant Physiology and Biochemistry 63 (63) 24-29 2013/02

    DOI: 10.1016/j.plaphy.2012.11.003  

    ISSN: 0981-9428

  20. The phosphorylation status of CPD photolyase in wild rice and other poaceae species.

    Teranishi M, Nakamura K

    Saito Ho-on Kai Museum Research Bulletin. (77) 1-8 2013

  21. Eukaryotic Class II Cyclobutane Pyrimidine Dimer Photolyase Structure Reveals Basis for Improved Ultraviolet Tolerance in Plants Peer-reviewed

    Kenichi Hitomi, Andrew S. Arvai, Junpei Yamamoto, Chiharu Hitomi, Mika Teranishi, Tokuhisa Hirouchi, Kazuo Yamamoto, Shigenori Iwai, John A. Tainer, Jun Hidema, Elizabeth D. Getzoff

    JOURNAL OF BIOLOGICAL CHEMISTRY 287 (15) 12060-12069 2012/04

    DOI: 10.1074/jbc.M111.244020  

    ISSN: 0021-9258

  22. Augmentation of CPD photolyase activity in japonica and indica rice increases their UVB resistance but still leaves the difference in their sensitivities Peer-reviewed

    Mika Teranishi, Taku Taguchi, Taiichi Ono, Jun Hidema

    PHOTOCHEMICAL & PHOTOBIOLOGICAL SCIENCES 11 (5) 812-820 2012

    DOI: 10.1039/c2pp05392f  

    ISSN: 1474-905X

  23. Cyclobutane pyrimidine dimer (CPD) photolyase repairs ultraviolet-B-induced CPDs in rice chloroplast and mitochondrial DNA Peer-reviewed

    Masaaki Takahashi, Mika Teranishi, Hiroyuki Ishida, Junji Kawasaki, Atsuko Takeuchi, Tomoyuki Yamaya, Masao Watanabe, Amane Makino, Jun Hidema

    PLANT JOURNAL 66 (3) 433-442 2011/05

    DOI: 10.1111/j.1365-313X.2011.04500.x  

    ISSN: 0960-7412

  24. Light-induced activation of class II cyclobutane pyrimidine dimer photolyases Peer-reviewed

    Asako Okafuji, Till Biskup, Kenichi Hitomi, Elizabeth D. Getzoff, Gebhard Kaiser, Alfred Batschauer, Adelbert Bacher, Jun Hidema, Mika Teranishi, Kazuo Yamamoto, Erik Schleicher, Stefan Weber

    DNA REPAIR 9 (5) 495-505 2010/05

    DOI: 10.1016/j.dnarep.2010.01.014  

    ISSN: 1568-7864

    eISSN: 1568-7856

  25. Visualization of Flavonol Distribution in the Abaxial Epidermis of Onion Scales via Detection of Its Autofluorescence in the Absence of Chemical Processes Peer-reviewed

    Emi Sudo, Mika Teranishi, Jun Hidema, Tetsuo Taniuchi

    BIOSCIENCE BIOTECHNOLOGY AND BIOCHEMISTRY 73 (9) 2107-2109 2009/09

    DOI: 10.1271/bbb.90169  

    ISSN: 0916-8451

    eISSN: 1347-6947

  26. The native cyclobutane pyrimidine dimer photolyase of rice is phosphorylated Peer-reviewed

    Mika Teranishi, Kentaro Nakamura, Hiroshi Morioka, Kazuo Yamamoto, Jun Hidema

    PLANT PHYSIOLOGY 146 (4) 1941-1951 2008/04

    DOI: 10.1104/pp.107.110189  

    ISSN: 0032-0889

    eISSN: 1532-2548

  27. Temperature-sensitive photoreactivation of cyclobutane thymine dimer in soybean Peer-reviewed

    Ayumi Yamamoto, Najrana Tanbir, Tokuhisa Hirouch, Mika Teranishi, Jun Hidema, Hiroshi Morioka, Kazuo Yamamoto

    JOURNAL OF RADIATION RESEARCH 49 (2) 189-196 2008/03

    DOI: 10.1269/jrr.07091  

    ISSN: 0449-3060

  28. UVB sensitivity and cyclobutane pyrimidine dimer (CPD) photolyase genotypes in cultivated and wild rice species Peer-reviewed

    Yutaka Iwamatsu, Chizuru Aoki, Masaaki Takahashi, Mika Teranishi, Yuanying Ding, Chuanqing Sun, Tadashi Kumagai, Jun Hidema

    PHOTOCHEMICAL & PHOTOBIOLOGICAL SCIENCES 7 (3) 311-320 2008

    DOI: 10.1039/b719034d  

    ISSN: 1474-905X

    eISSN: 1474-9092

  29. 高等植物への太陽紫外線影響の現在と近未来 -イネの紫外線防御機構- Peer-reviewed

    山岸朋香, 高野成央, 岩松優, 寺西美佳, 日出間純

    太陽紫外線防御研究 (18) 37-42 2008

  30. イネのピリミジン二量体光回復酵素のリン酸化修飾

    寺西美佳, 中村憲太郎, 日出間純

    放射線生物研究 43 (43) 304-314 2008

    Publisher: 放射線生物研究会

    ISSN: 0441-747X

  31. Biochemical and biological properties of DNA photolyases derived from utraviolet-sensitive rice cultivars Peer-reviewed

    Ayumi Yamamoto, Tokuhisa Hirouchi, Tamiki Mori, Mika Teranishi, Jun Hidema, Hiroshi Morioka, Tadashi Kumagai, Kazuo Yamamoto

    GENES & GENETIC SYSTEMS 82 (4) 311-319 2007/08

    DOI: 10.1266/ggs.82.311  

    ISSN: 1341-7568

    eISSN: 1880-5779

  32. Increase in CPD photolyase activity functions effectively to prevent growth inhibition caused by UVB radiation Peer-reviewed

    Jun Hidema, Taku Taguchi, Taiichi Ono, Mika Teranishi, Kazuo Yamamoto, Tadashi Kumagai

    PLANT JOURNAL 50 (1) 70-79 2007/04

    DOI: 10.1111/j.1365-313X.2007.03041.x  

    ISSN: 0960-7412

  33. Two different forms of class II CPD photolyase exist in the native protein of rice.

    Teranishi M, Kumagai T, Hidema J

    The 20th IUBMB International Congress of Biochemistry and Molecular Biology and 11th FAOBMB Congress 2006

  34. Significance of anthocyanins and UV-absorbing compounds in UV-B-induced cyclobutane pyrimidine dimers and their photorepair in purple rice (Oryza sativa L.). Invited Peer-reviewed

    Teranishi M, Hidema J, Kumagai T

    Recent Research Developments in Photochemistry and Photobiology 2005/10

  35. Spontaneously occurring mutations in the cyclobutane pyrimidine dimer photolyase gene cause different sensitivities to ultraviolet-B in rice Peer-reviewed

    J Hidema, M Teranishi, Y Iwamatsu, T Hirouchi, T Ueda, T Sato, B Burr, BM Sutherland, K Yamamoto, T Kumagai

    PLANT JOURNAL 43 (1) 57-67 2005/07

    DOI: 10.1111/j.1365-313X.2005.02428.x  

    ISSN: 0960-7412

  36. Ultraviolet-B sensitivities in japanese lowland rice cultivars: Cyclobutane pyrimidine dimer photolyase activity and gene mutation Peer-reviewed

    M Teranishi, Y Iwamatsu, T Kumagai

    PLANT AND CELL PHYSIOLOGY 45 (12) 1848-1856 2004/12

    DOI: 10.1093/pcp/pch215  

    ISSN: 0032-0781

  37. The male hypermethylation (MHM) region on the chicken Z chromosome: Female-specific transcription and its biological implication Peer-reviewed

    M Teranishi, S Mizuno

    CHROMOSOMES TODAY, VOL 14 14 (14) 45-53 2004

    ISSN: 0069-3944

  38. A gene for a Class II DNA photolyase from Oryza sativa: cloning of the cDNA by dilution-amplification Peer-reviewed

    Hirouchi T, Nakajima S, Najrana T, Tanaka M, Matsunaga T, Hidema J, Teranishi M, Fujino T, Kumagai T, Yamamoto K

    Molecular Genetics and Genomics 269 (269) 508-516 2003/05

    DOI: 10.1007/s00438-003-0856-9  

  39. Z and W chromosomes of chickens: studies on their gene functions in sex determination and sex differentiation Peer-reviewed

    S Mizuno, R Kunita, O Nakabayashi, Y Kuroda, N Arai, M Harata, A Ogawa, Y Itoh, M Teranishi, T Hori

    CYTOGENETIC AND GENOME RESEARCH 99 (1-4) 236-244 2002

    DOI: 10.1159/000071599  

    ISSN: 1424-8581

  40. Absence of Z-chromosome inactivation for five genes in male chickens Peer-reviewed

    Y Kuroda, N Arai, M Arita, M Teranishi, T Hori, M Harata, S Mizuno

    CHROMOSOME RESEARCH 9 (6) 457-468 2001/08

    DOI: 10.1023/A:1011672227256  

    ISSN: 0967-3849

  41. Transcripts of the MHM region on the chicken Z chromosome accumulate as non-coding RNA in the nucleus of female cells adjacent to the DMRT1 locus Peer-reviewed

    M Teranishi, Y Shimada, T Hori, O Nakabayashi, T Kikuchi, T Macleod, R Pym, B Sheldon, Solovei, I, H Macgregor, S Mizuno

    CHROMOSOME RESEARCH 9 (2) 147-165 2001

    DOI: 10.1023/A:1009235120741  

    ISSN: 0967-3849

  42. Difference in amino acid sequences of CPD photolyase between UV-sensitive and UV-resistant rice cultivars

    Teranishi M, Hidema J, Fujino T, Hirouchi T, Yamamoto K, Kumagai T

    Journal of Photoscience (9) 329-331 2001

Show all ︎Show first 5

Misc. 14

  1. 線虫体壁筋筋細胞および培養細胞におけるミトコンドリアの力学的刺激感知能の解析

    小林剛, 伊藤侑晃, 田中瑞奈, 田中瑞奈, 寺西美佳, 清島大資, 二川健, 曽我部正博, 東谷篤志

    日本筋学会学術集会プログラム・抄録集 5th 153-153 2019

    Publisher: 日本筋学会

    ISSN: 2433-975X

  2. Low-Temperature Tolerance via Carbohydrate Metabolism in rice

    HOSONUMA Nobutaka, ODA Susumu, TOMODA Aya, TERANISHI Mika, HIGASHITANI Atsushi

    日本植物生理学会年会要旨集 57th 2016

  3. Effect of different LET radiations on Root Growth of Arabidopsis thaliana

    Yoshiahra R, Nozawa S, Saika H, Teranishi M, Toki S, Hidema J, Sakamoto AN

    JAEA Takasaki Annual Report 2009 74 2011

  4. CPD photolyase repairs UVB-induced CPD on nuclear, chloroplast and mitochondrial DNAs in rice plant

    Masaaki Takahashi, Junji Kawasaki, Mika Teranishi, Atuko Takeuchi, Tadashi Kumagai, Jun Hidema

    PLANT AND CELL PHYSIOLOGY 48 S41-S41 2007

    ISSN: 0032-0781

  5. Characterization of rice class IICPD photolyase

    Mika Teranishi, Kentaro Nakamura, Jun Hidema, Tadashi Kumagai

    PLANT AND CELL PHYSIOLOGY 48 S41-S41 2007

    ISSN: 0032-0781

  6. Increasing in CPD photolyase activity can produce alleviation of UVB-caused growth inhibition

    Taku Taguchi, Jun Hidema, Mika Teranishi, Taiichi Ono, Tadashi Kumagai

    PLANT AND CELL PHYSIOLOGY 48 S41-S41 2007

    ISSN: 0032-0781

  7. Purification and characterization of rice class IICPD photolyase

    M Teranishi, R Saitou, J Hidema, T Kumagai

    PLANT AND CELL PHYSIOLOGY 47 S160-S160 2006

    ISSN: 0032-0781

  8. Photorepair of cyclobutane pyrimidine dimer in the organellar genomes of rice (Oryza sative L.)

    J Kawasaki, M Teranishi, J Hidema, T Kumagai

    PLANT AND CELL PHYSIOLOGY 46 S160-S160 2005

    ISSN: 0032-0781

  9. UVB sensitivity and the activity of CPD photolyase are tightly linked in rice plant

    J Hidema, M Teranishi, Y Iwamatsu, T Hirouchi, T Sato, K Yamamoto, T Kumagai

    PLANT AND CELL PHYSIOLOGY 45 S145-S145 2004

    ISSN: 0032-0781

  10. A correlation between variation of CPD photolyase gene and CPD photolyase activity in Japanese rice cultivars

    M Teranishi, Y Iwamatsu, J Hidema, T Kumagai

    PLANT AND CELL PHYSIOLOGY 45 S184-S184 2004

    ISSN: 0032-0781

  11. 119 Genetic Study of Correlation between UVB-sensitivity and Mutation of CPD Photolyase in UVB-sensitive and UVB-resistant Rice Cultivars(Effects of UV & sunlight, Abstracts of the 46th Annual Meeting of the Japan Radiation Research Society) :

    HIDEMA Jun, TERANISHI Mika, IWAMATSU Yutaka, SATO Tadashi, KUMAGAI Tadashi

    Journal of radiation research 44 (4) 416-416 2003

    Publisher: the Japan Radiation Research Society

    ISSN: 0449-3060

  12. 121 UVB Sensitivities in Several Wild Rice Plants (Oryza)(Effects of UV & sunlight, Abstracts of the 46th Annual Meeting of the Japan Radiation Research Society) :

    AOKI Chizuru, TERANISHI Mika, HIDEMA Jun, SUN Chuanging, KUMAGAI Tadashi

    Journal of radiation research 44 (4) 416-416 2003

    Publisher: the Japan Radiation Research Society

    ISSN: 0449-3060

  13. Analysis of photolyase gene of Oryza sativa L

    T Hirouchi, T Fujino, M Teranishi, J Hidema, T Kumagai, K Yamamoto

    PLANT AND CELL PHYSIOLOGY 43 S159-S159 2002

    ISSN: 0032-0781

  14. Relationship between the UV-sensitivity of rice and structural alteration of CPD photolyase

    M Teranishi, T Fujino, J Hidema, T Hirouchi, K Yamamoto, T Kumagai

    PLANT AND CELL PHYSIOLOGY 43 S160-S160 2002

    ISSN: 0032-0781

Show all ︎Show first 5

Books and Other Publications 3

  1. 月間 細胞

    寺西美佳, 小林剛

    (株)ニューサイエンス社 2020/10

  2. 放射線と産業

    一般財団法人 放射線利用振興協会 2017/12

  3. 光と生命の事典

    2016

Presentations 19

  1. UV-B照射がシロイヌナズナのCO安定化とFT発現に及ぼす影響

    高橋亜未, 高橋有希, 日出間純, 寺西美佳

    第66回日本植物生理学会年会 2025/03/15

  2. 線虫の若齢筋細胞におけるマイトファジーの研究

    川澄昌寛, 寺西美佳

    第22回日本ミトコンドリア学会年会 2023/11/14

  3. Effects of UV-B stress on flowering in Arabidopsis thaliana

    Ami Takahashi, Yuki Takahashi, Jun Hidema, Mika Teranishi

    2023/03/15

  4. UVB resistance and chloroplast movement in plant without CPD photolyase function in chloroplasts

    Momo Otake, Noriyuki Suetsugu, Mika Teranishi, Kaoru (Okamoto) Yoshiyama, Masamitsu Wada, Jun Hidema

  5. モデル生物C. elegansを用いた加齢ならびに疾患モデルに伴う筋萎縮とその緩和法の探索

    中川由惟, 伊藤侑晃, Wu Xintong, 寺西美佳, 阿部高明, 小林剛, 東谷篤志

    第7回 日本筋学会学術集会

  6. Improvement of C. elegans sarcopenia and muscular dystrophy by suppressing mitochondrial Ca2+ influx

    Atsushi Higashitani, Mika Teranishi, Takaaki Abe, Yukihiko Kubota, Takeshi Kobayashi

  7. 植物における CPD 光回復酵素の葉緑体移行メカニズムと UVB 抵抗性

    大竹 桃, 小松 千春, 寺西 美佳, 原 遵, 愿山(岡本)郁, 日出間 純

    日本放射線影響学会 第64回大会

  8. 植物におけるCPD光回復酵素の葉緑体局在性の違いと葉緑体移行メカニズム

    小松千春、原遵、高橋有希、寺西美佳、日出間純

    第61回日本植物生理学会年会 2020/03/19

  9. Mitochondrial morphology and calcium dynamics in C. elegans muscle cells with aging.

    2019/12/05

  10. 陸上植物におけるCPD光回復酵素の葉緑体局在の違いとUVB感受性について

    小松千春, 原遵,, 高橋有希, 寺西美佳, 三浦佳奈, 日出間純

    日本放射線影響学会第62回大会 2019/11/15

  11. 基部陸上植物ゼニゴケ光回復酵素の転写制御と局在

    小川裕雅, 寺西美佳, 三浦佳奈, 日出間純

    日本放射線影響学会第62回大会 2019/11/15

  12. イネいもち病抵抗性遺伝子Pi54の起源とジャポニカイネにみられる消失

    張琳, 寺西美佳, 佐藤修正, 中込祐介, 遠藤貴司, 日出間純, 東谷篤志

    日本植物学会第83回大会 2019/09/16

  13. African rice species (O. glaberrima, O. barthii and O. sativa) exhibit hypersensitivity to UVB radiation caused by lower specific activity and amount of CPD photolyase.

    Gideon Mmbando, Mika Teranishi, Jun Hidema

    第60回日本植物生理学会年会 2019/03/13

  14. イネCPD光回復酵素のリン酸化修飾と葉緑体移行性

    寺西美佳, 小松千春, 原遵, 山口弘子, 日出間純

    第60回日本植物生理学会年会 2019/03/13

  15. イネCPD光回復酵素の葉緑体移行シグナル領域配列の決定と植物種間での比較

    原遵, 高橋有希, 寺西美佳, 三浦佳奈, 中村咲耶, 泉正範, 日出間純

    第59回日本植物生理学会年会 2018/03/28

  16. UVB senseitivity and CPD photolyase of Africa rice cultivars O. glaberrima, O. barthii and O. sativa.

    Gideon Mmbando, Mika Teranishi, Jun Hidema

    第59回日本植物生理学会年会 2018/03/28

  17. 紫外線により核・ミトコンドリア・葉緑体DNAに誘発されたCPDがシロイヌナズナの生育に及ぼす影響

    寺西美佳, 高橋有希, 高橋育弥, 山口弘子, 日出間純

    日本宇宙生物科学会第31回大会 2017/09/20

  18. Difference in CPD photolyase localization of rice and Arabidopsis cells

    高橋有希, 原遵, 三浦佳奈, 寺西美佳, 中村咲耶, 高橋育弥, 泉正範, 日出間純

    第58回日本植物生理学会年会 2017/03/16

  19. ISSを利用した植物の太陽粒子線による障害とその修復機構に、微小重力が及ぼす影響解析

    日出間純, 泉正範, 寺西美佳, 中村咲耶, 高橋昭久

    第62回日本宇宙航空環境医学会大会 日本宇宙生物科学会第30回大会 合同大会 2016/10/13

Show all Show first 5

Research Projects 14

  1. 太陽紫外線によって細胞内葉緑体配置を変化させる植物の新たな紫外線抵抗性機構

    日出間 純

    Offer Organization: 日本学術振興会

    System: 科学研究費助成事業

    Category: 基盤研究(B)

    Institution: 東北大学

    2025/04 - 2028/03

  2. 植物におけるUV-B誘発CPDに依存した遺伝子発現誘導メカニズムの解明

    寺西 美佳

    Offer Organization: 日本学術振興会

    System: 科学研究費助成事業

    Category: 基盤研究(C)

    Institution: 東北大学

    2024/04 - 2027/03

  3. Novel solar UVB adaptation strategic mechanism in plants, which have not function of CPD photoreactivation in chloroplast.

    Offer Organization: Japan Society for the Promotion of Science

    System: Grants-in-Aid for Scientific Research

    Category: Grant-in-Aid for Scientific Research (B)

    Institution: Tohoku University

    2020/04/01 - 2023/03/31

  4. イネ冷害におけるエピジェネティックな制御機構の解明 Competitive

    東谷 篤志

    System: 基盤研究(A)

    2018/04 - 2023/03

  5. 紫外線誘発DNA損傷が非照射組織であるイネ茎頂分裂組織の転写と複製に及ぼす影響 Competitive

    寺西 美佳

    System: 基盤研究(C)

    2019/04 - 2022/03

  6. 地球規模での異常気象に対抗するイネ新規遺伝子資源の開発 Competitive

    東谷 篤志

    System: 基盤研究(B)

    2015/04 - 2018/03

  7. 植物におけるシクロブタンピリミジン二量体の修復と宇宙放射線耐性に関する研究 Competitive

    寺西 美佳

    System: 基盤研究(C)

    2015/04 - 2018/03

  8. 植物の宇宙放射線耐性メカニズムとゲノム不安定化に関する研究 Competitive

    寺西 美佳

    System: 基盤研究(C)

    2012/04 - 2016/03

  9. イネのUVB抵抗性の主要因子であるCPD光回復酵素のリン酸化修飾に関する解析 Competitive

    寺西 美佳

    System: 若手研究(B)

    2009/04 - 2011/03

  10. 紫外線感受性の異なるイネのシクロブタン型ピリミジンニ量体光回復酵素の構造の違い Competitive

    寺西 美佳

    System: 若手研究(B)

    2004/04 - 2006/03

  11. イネのシクロブタン型ピリミジンダイマー光修復酵素の生化学的特性と紫外線防御機構 Competitive

    熊谷 忠

    System: 基盤研究(B)

    2000/04 - 2002/03

  12. Mechanism of resistance to UVB-radiation in plant Competitive

    System: Grant-in-Aid for Scientific Research

    2001 -

  13. UVB-induced DNA damage and DNA repair Competitive

    System: Grant-in-Aid for Scientific Research

    2001 -

  14. UVB-induced DNA damage and DNA repair Competitive

Show all Show first 5