◆134
Momma K, Homma T, Isaka R, Sudevan S, Higashitani A.
Heat-induced calcium leakage causes mitochondrial damage in Caenorhabditis elegans body-wall muscles.
Genetics 206: 1985-1994. 2017 [PubMed]
◆133
Daigaku Y, Etheridge TJ, Nakazawa Y, Nakayama M, Watson AT, Miyabe I, Ogi T, Osborne MA, Carr AM.
PCNA ubiquitylation ensures timely completion of unperturbed DNA replication in fission yeast.
PLoS Genetics 13: e1006789. 2017 [PubMed]
◆132
Izumi M, Ishida H, Nakamura S, Hidema J.
Entire photodamaged chloroplasts are transported to the central vacuole
by autophagy.
Plant Cell 29: 377-394. 2017 [PubMed]
◆131
Tanaka H, Hirakawa H, Kosugi S, Nakayama S, Ono A, Watanabe A, Hashiguchi M, Gondo T, Ishigaki G, Muguerza M, Shimizu K, Sawamura N, Inoue T, Shigeki Y, Ohno N, Tabata S, Akashi R, Sato S.
Sequencing and comparative analyses of the genomes of zoysiagrasses.
DNA Research 23: 171-180. 2016 [PubMed]
◆130
Shah N, Hirakawa H, Kusakabe S, Sandal N, Stougaard J, Schierup MH, Sato S, Andersen SU.
High-resolution genetic maps of Lotus japonicus and L. burttii based on re-sequencing of recombinant inbred lines.
DNA Research 2016 (in press) [PubMed]
◆129
Iwabuchi K, Hidema J, Tamura K, Takagi S, Hara-Nishimura I.
Plant nuclei move to escape ultraviolet-induced DNA damage and cell death.
Plant Physiology 170: 678-685. 2016 [PubMed]
◆128
Wang QW, Kamiyama C, Hidema J, Hikosaka K.
UV-B induced DNA damage and UV-B tolerance
mechanisms in species with
different functional groups coexisting in subalpine moorlands
Oecologia 18: 1069-1082. 2016 [PubMed]
◆127
Harada S, Hashizume T, Nemoto K, Shao Z, Higashitani N, Etheridge T, Szewczyk
NJ, Fukui K, Higashibata A, Higashitani A.
Fluid dynamics alter Caenorhabditis elegans body length via TGF-β/DBL-1 neuromuscular signaling
NPJ Microgravity. 2: 16006. 2016 [Link]
◆126
Higashibata A, Hashizume T, Nemoto K, Higashitani N, Etheridge T, Mori
C, Harada S, Sugimoto T, Szewczyk NJ, Baba SA, Mogami Y, Fukui K, Higashitani
A.
Microgravity elicits reproducible alterations in cytoskeletal and metabolic gene and protein expression in space-flown Caenorhabditis elegans.
NPJ Microgravity. 2: 15022. 2016 [Link]
◆125
Izumi M, Hidema J, Ishida H.
From Arabidopsis to cereal crops: Conservation of chloroplast protein degradation by autophagy indicates its fundamental role in plant productivity.
Plant Signal Behav. 10: e1101199. 2015[PubMed]
◆124
Okazaki S, Noisangiam R, Okubo T, Kaneko T, Oshima K, Hattori M, Teamtisong K, Songwattana P, Tittabutr P, Boonkerd N, Saeki K, Sato S, Uchiumi T, Minamisawa K, Teaumroong N.
Genome analysis of a novel bradyrhizobium sp DOA9 carrying a symbiotic lasmid.
Plos one. e0117392. 2015 [PubMed]
◆123
Wakabayashi T, Oh H, Kawaguchi M, Harada K, Sato S, Ikeda H, Setoguchi H.
Polymorphisms of E1 and GIGANTEA in wild populations of Lotus japonicus
J Plant Res.128: 221. 2015 [PubMed]
◆122
Iida T, Itakura M, Anda M, Sugawara M, Isawa T, Okubo T, Sato S, Chiba-Kakizaki K, Minamisawa K.
Symbiosis island shuffling with abundant insertion sequences in the genomes of extra-slow-growing strains of soybean bradyrhizobia
Appl Environ Microbiol. 81: 4143-4154. 2015 [PubMed]
◆121
Li N, Teranishi M, Yamaguchi H, Matsushita T, Watahiki MK, Tsuge T, Li SS, Hidema J.
UV-B-induced CPD photolyase gene expression is regulated by UVR8-dependent and -independent pathways in Arabidopsis.
Plant Cell Physiol. 56: 2014-2023. 2015[PubMed]
◆120
Izumi M, Hidema J, Wada S, Kondo E, Kurusu T, Kuchitsu K, Makino A, Ishida H.
Establishment of monitoring methods for autophagy in rice reveals autophagic recycling of chloroplasts and root plastids during energy limitation.
Plant Physiol. 167: 1307-1320. 2015 [PubMed]
◆119
Takahashi S, Teranishi M, Izumi M, Takahashi M, Takahashi F, Hidema J.
Transport of rice cyclobutane pyrimidine dimer (CPD) photolyase into mitochondria relies on a targeting sequence located in its C-terminal internal region.
Plant J. 79: 951-963. 2014 [PubMed]
◆118
Hori K, Maruyama F, Fujisawa T, Togashi T, Yamamoto N, Seo M, Sato S, et al.
Klebsormidium flaccidum genome reveals primary factors for plant terrestrial adaptation..
Nat Commun. 28 ; 5:3978. 2014 [PubMed]
◆117
Wang QW, Hidema J, Hikosaka K.
Is UV-induced DNA damage greater at higher elevation?.
Am J Bot. 101: 796-802. 2014 [PubMed]
◆116
Kunihiro S, Kowata H, Kondou Y, Takahashi S, Matsui M, Berberich T, Youssefian
S, Hidema J, Kusano T.
Overexpression of rice OsREX1-S, encoding a putative component of the core
general transcription and DNA repair factor IIH, renders plant cells tolerant
to cadmium- and UV-induced damage by enhancing DNA excision repair.
Planta. 239: 1101-1111. 2014 [PubMed]
◆115
Sakata T, Oda S, Tsunaga Y, Shomura H,
Kawagishi-Kobayashi M, Aya K, Saeki K, Endo T, Nagano K, Kojima M, Sakakibara
H, Watanabe M, Matsuoka M, Higashitani A.
Reduction of gibberellin by low temperature disrupts pollen development
in rice.
Plant Physiol. 164: 2011-2019. 2014 [PubMed]
◆114
Yagi M, Kosugi S, Hirakawa H, Ohmiya A, Tanase K, Harada T, Kishimoto K,
Nakayama M, Ichimura K, Onozaki T, Yamaguchi H, Sasaki N, Miyahara T,
Nishizaki Y, Ozeki Y, Nakamura N, Suzuki T, Tanaka Y, Sato S, Shirasawa K,
Isobe S, Miyamura Y, Watanabe A, Nakayama S, Kishida Y, Kohara M, Tabata S
Sequence analysis of the genome of carnation (Dianthus caryophyllus L.).
DNA Research 21: 231-241. 2013 [PubMed]
◆113
Hirakawa H, Shirasawa K, Kosugi S, Tashiro K, Nakayama S, Yamada M, Kohara M, Watanabe A, Kishida Y, Fujishiro T, Tsuruoka H, Minami C, Sasamoto S, Kato M, Nanri K, Komaki A, Yanagi T, Guoxin Q, Maeda F, Ishikawa M, Kuhara S, Sato S, Tabata S, Isobe SN
Dissection of the octoploid strawberry genome by deep sequencing of the
genomes of Fragaria species.
DNA Research21: 169-181. 2013 [PubMed]
◆112
Okazaki S, Kaneko T, Sato S, Saeki K
Hijacking of leguminous nodulation signaling by the rhizobial type III
secretion system.
Proceedings of the National Academy of Sciences of the United States of
America 110: 17131-17136. 2013 [PubMed]
◆111
Groth M, Kosuta S, Gutjahr C, Haage K, Hardel SL, Schaub M, Brachmann A,
Sato S, Tabata S, Findlay K, Wang TL, Parniske M
Two Lotus japonicus symbiosis mutants impaired at distinct steps of arbuscule
development.
The Plant Journal 75: 117-129. 2013 [PubMed]
◆110
Hirakawa H, Shirasawa K, Ohyama A, Fukuoka H, Aoki K, Rothan C, Sato S,
Isobe S, Tabata S
Genome-wide SNP genotyping to infer the effects on gene functions in tomato.
DNA Research 20: 221-233. 2013 [PubMed]
◆109
Kasai-Maita H, Hirakawa H, Nakamura Y, Kaneko T, Miki K, Maruya J, Okazaki S, Tabata S, Saeki K, Sato S.
Commonalities and differences among symbiosis islands of three Mesorhizobium loti strains.
Microbes Environ. 28: 275-278. 2013 [PubMed]
◆108
Masuda S, Hori K, Maruyama F, Ren S, Sugimoto S, Yamamoto N, Mori H, Yamada T, Sato S, Tabata S, Ohta H, Kurokawa K.
Whole-Genome Sequence of the Purple Photosynthetic Bacterium Rhodovulum sulfidophilum Strain W4..
Genome Announc. 1: e00577-13. 2013 [PubMed]
◆107
Tominaga-Wada R, Nukumizu Y, Sato S, Wada T.
Control of plant trichome and root-hair development by a tomato (Solanum lycopersicum) R3 MYB transcription factor..
PLos One. 8: e54019. 2013 [PubMed]
◆106
Takahara M, Magori S, Soyano T, Okamoto S, Yoshida C, Yano K, Sato S, Tabata S, Yamaguchi K, Shigenobu S, Takeda N, Suzaki T, Kawaguchi M.
Too much love, a novel Kelch repeat-containing F-box protein, functions in the long-distance regulation of the legume-Rhizobium symbiosis. .
Plant Cell Physiol. 54: 433-447. 2013 [PubMed]
◆105
Takanashi K, Yokosho K, Saeki K, Sugiyama A, Sato S, Tabata S, Ma JF, Yazaki K.
LjMATE1: a citrate transporter responsible for iron supply to the nodule infection zone of Lotus japonicus..
Plant Cell Physiol. 54: 585-594. 2013 [PubMed]
◆104
Lota F, Wegmuller S, Buer B, Sato S, Brautigam A, Hanf B, Bucher M.
The cis-acting CTTC-P1BS module is indicative for gene function of LjVTI12, a Qb-SNARE protein gene that is required for arbuscule formation in Lotus japonicus..
Plant J. 74: 280-293. 2013 [PubMed]
◆103
日出間純
総説「高等植物の紫外線(UVB)耐性機構と太陽紫外線影響」
太陽紫外線防御研究委員会 学術報告 23:7-12. 2013
◆102
Izumi M, Hidema J, Ishida H.
Deficiency of autophagy leads to significant changes of metabolic profiles
in Arabidopsis.
Plant Signal Behav. 8: e25023. 2013 [PubMed]
◆101
Yoshihara R, Nozawa S, Hase Y, Narumi I, Hidema J, Sakamoto AN.
Mutational effects of γ-rays and carbon ion beams in Arabidopsis seedlings.
J Radiat Res. 54: 1050-1056. 2013 [PubMed]
◆100
Teranishi M, Nakamura K.
The phosphorylation status of CPD photolyase in wild rice and other poaceae
species.
Saito Ho-on Kai Museum Research Bulletin. 77: 1-8. 2013
◆099
Izumi M, Hidema J, Makino A, Ishida H.
Autophagy contributes to night-time energy availability for growth in Arabidopsis.
Plant Physiol. 161: 1682-1693. 2013 [PubMed]
◆098
Suetomi K, Mereiter S, Mori C, Takanami T, Higashitani A.
C. elegans ATR checkpoint kinase ATL-1 influences life span through mitochondrial maintenance.
Mitochondrion. 13: 729-735. 2013 [PubMed]
◆097
Higashitani A.
High-temperature injury and auxin biosynthesis in microsporogenesis.
Front Plant Sci. 4:47. 2013 [PubMed]
◆096
Chen M, Zhang W H, Lv Z W, Zhang S L, Hidema J, Shi F M, Liu L L.
Abscisic acid is involved in the response of Arabidopsis mutant sad2-1
to ultraviolet-B radiation by enhancing antioxidant enzymes.
S Afr J Bot. 85: 79-86. 2013 [Link]
◆095
Takano N, Takahashi Y, Yamamoto M, Teranishi M, Yamagushi H, Sakamoto AN, Hase Y, Fujisawa H, Wu J, Matsumoto T, Toki S, Hidema J.
Isolation of a novel UVB-tolerant rice mutant obtained by exposure to carbon-ion beams.
J Radiat Res. 54:637-648. 2013 [PubMed]
◆094
Mori C, Yamaguchi Y, Teranishi M, Takanami T, Nagase T, Kanno S, Yasui
A, Higashitani A.
Overexpression of ATR causes autophagic cell death.
Genes Cells. 18:278-287. 2013 [Link]
◆093
Teranishi M, Nakamura K, Furukawa H, Hidema J.
Identification of a phosphorylation site in cyclobutane pyrimidine dimer photolyase of rice.
Plant Physiol Biochem. 63: 24-29. 2013 [PubMed]
◆092
Kimura T, Takanami T, Sakashita T, Wada S, Kobayashi Y, Higashitani A.
Innate immune genes including a mucin-like gene, mul-1, induced by ionizing
radiation in Caenorhabditis elegans.
Radiat Res. 178: 313-20. 2012 [PubMed]
◆091
Honda Y, Higashibata A, Matsunaga Y, Yonezawa Y, Kawano T, Higashitani A, Kuriyama K, Shimazu T, Tanaka M, Szewczyk NJ, Ishioka N, Honda S.
Genes down-regulated in spaceflight are involved in the control of longevity in Caenorhabditis elegans.
Sci Rep. 2: article number 487. 2012 [Link]
◆090
Sasagawa Y, Higashitani A, Urano T, Ogura T, Yamanaka K.
CDC-48/p97 is required for proper meiotic chromosome segregation via controlling
AIR-2/Aurora B kinase localization in C. elegans.
J Struct Biol. 179: 104-11. 2012 [PubMed]
◆089
Hozumi H, Takeda K, Yoshida-Amano Y, Takemoto Y, Kusumi R, Fukuzaki-Dohi U, Higashitani A, Yamamoto H, Shibahara S.
Impaired development of melanoblasts in the black-eyed white Mitf(mi-bw)
mouse, a model for auditory-pigmentary disorders.
Genes Cells. 17: 494-508. 2012 [PubMed]
◆088
Uga Y, Hanzawa E, Nagai S, Sasaki K, Yano M, Sato T
Identification of qSOR1, a major rice QTL involved in soil-surface rooting in paddy fields.
Theor Appl Genet. 124: 75-86. 2012 [PubMed]
◆087
Teranishi M, Taguchi T, Ono T, Hidema J
Augmentation of CPD photolyase activity in japonica and indica rice increases
their UVB resistance but still leaves the difference in their sensitivities.
Photochem Photobiol Sci. 11: 812-820. 2012 [PubMed]
◆086
Hitomi K, Arvai AS, Yamamoto J, Hitomi C, Teranishi M, Hirouchi T, Yamamoto
K, Iwai S, Tainer JA, Hidema J, Getzoff ED.
Eukaryotic Class II CPD photolyase structure reveals a basis for improved
UV-tolerance in plants.
J Biol Chem. 287: 12060-12069 2012 [PubMed]
◆085
Etheridge T, Nemoto K, Hashizume T, Mori C, Sugimoto T, Suzuki H, Fukui K, Yamazaki T, Higashibata A, Szewczyk NJ, Higashitani A.
The Effectiveness of RNAi in Caenorhabditis elegans Is Maintained during
Spaceflight.
PLoS One 6: e20459. 2011 [PubMed]
◆084
Takahashi M, Teranishi M, Ishida H, Kawasaki J, Takeuchi A, Yamaya T, Watanabe
M, Makino A, Hidema J.
CPD photolyase repairs ultraviolet-B-induced CPDs in rice chloroplast and mitochondrial DNA.
Plant J. 66: 433-442. 2011 [PubMed]
◆083
Oshino T, Miura S, Kikuchi S, Hamada K, Yano K, Watanabe M, Higashitani
A.
Auxin depletion in barley plants under high-temperature conditions represses DNA proliferation in organelles and nuclei via transcriptional alterations.
Plant Cell Environ. 34:284-290. 2011
◆082
Ikeda S, Okubo T, Takeda N, Banba M, Sasaki K, Imaizumi-Anraku H, Fujihara
S, Ohwaki Y, Ohshima K, Fukuta Y, Eda S, Mitsui H, Hattori M, Sato T, Shinano
T, Minamisawa K.
The Genotype of the
Calcium/Calmodulin-Dependent Protein Kinase Gene (CCaMK) Determines Bacterial
Community Diversity in Rice Roots under Paddy and Upland Field Conditions.
Appl Environ Microbiol. 77: 4399-4405. 2011 [PubMed]
◆081
Sakata T, Yagihashi N, Higashitani A.
Tissue-specific auxin signaling in response to temperature fluctuation.
Plant Signal Behav. 5: 1510-2. 2010 [PubMed]
◆080
Sakata T, Oshino T, Miura S, Tomabechi M, Tsunaga Y, Higashitani N, Miyazawa
Y, Takahashi H, Watanabe M, Higashitani A.
Auxins reverse plant male sterility caused by high temperatures.
Proc Natl Acad Sci USA. 107: 8569-74. 2010
(Faculty of 1000 Biology Recommended) [PubMed]
◆079
Sakashita T, Takanami T, Yanase S, Hamada N, Suzuki M, Kimura T, Kobayashi
Y, Ishii N, Higashitani A.
Radiation biology of Caenorhabditis elegans: germ cell response, aging
and behavior.
J Radiat Res. 51: 107-21. 2010 [PubMed]
◆078
Fedina I. Hidema J. Velitchkova M. Georgieva K. Nedeva D.
UV-B induced stress responses in three rice cultivars.
Biol. Plant. 54:571-574. 2010
◆077
Tamura W, Hidaka Y, Tabuchi M, Kojima S, Hayakawa T, Sato T, Obara M, Kojima
M, Sakakibara H, Yamaya T.
Reverse genetics approach to characterize a function of NADH-glutamate
synthase1 in rice plants.
Amino Acids 39: 1003-1012. 2010 [PubMed]
◆076
Obara M, Tamura W, Ebitani T, Yano M, Sato T, Yamaya T.
Fine-mapping of qRL6.1, a major QTL for root length of rice seedlings grown
under a wide range of NH4+ concentrations in hydroponic conditions.
Theor. Appl. Genet. 121: 535-547. 2010 [PubMed]
◆075
Sasaki K, Ikeda S, Eda S, Mitsui H, Hanzawa E, Kisaka C, Kazama Y, Kushida A, Shinano T, Minamisawa K, Sato T.
Impact of plant genotype and nitrogen level on rice growth response to
inoculation with Azospirillum sp. strain B510 under paddy field conditions.
Soil Sci. Plant Nutr. 56: 636–644. 2010
◆074
Lee HS, Ahn SN, Sasaki K, Chung NJ, Choi KS, Sato T.
Identification of molecular markers for photoblastism in weedy rice.
Korean J. Breed. Sci. 42: 144-150. 2010
◆073
惣田訓・福井希一・佐藤雅志・土本卓
インドネシア・南スラウェシにおける油糧作物ジャトロファの栽培状況.
環境と技術 12 :745-749. 2010
◆072
佐藤雅志
「農」の持続可能性、ユーラシア農耕史・第5巻 農耕の変遷と環境問題
鞍田崇編、臨川書店、217-252. 2010
◆071
Sasagawa Y, Otani M, Higashitani N, Higashitani A, Sato K, Ogura T, Yamanaka
K.
Caenorhabditis elegans p97 controls germline-specific sex determination by controlling the TRA-1 level in a CUL-2-dependent manner.
J Cell Sci. 122: 3663-72. 2009 [PubMed]
◆070
Higashitani A, Hashizume T, Sugimoto T, Mori C, Nemoto K, Etheridge T, Higashitani N, Takanami T, Suzuki H, Fukui K, Yamazaki T, Ishioka N, Szewczyk N, Higashibata A.
C. elegans RNAi space experiment (CERISE) in Japanese Experiment Module KIBO.
Biol Sci Space. 23: 183-7. 2009 [PubMed]
◆069
Endo M, Tsuchiya T, Hamada K, Kawamura S, Yano K, Ohshima M, Higashitani
A, Watanabe M, Kawagishi-Kobayashi M.
High temperatures cause male sterility in rice plants with transcriptional alterations during pollen development.
Plant Cell Physiol. 50: 1911-22. 2009 [PubMed]
◆068
Kubota Y, Takanami T, Higashitani A, Horiuchi S.
Localization of X-ray cross complementing gene 1 protein in the nuclear matrix is controlled by casein kinase II-dependent phosphorylation in response to oxidative damage.
DNA Repair 8: 953-60. 2009 [PubMed]
◆067
Suzuki M, Sakashita T, Yanase S, Kikuchi M, Ohba H, Higashitani A, Hamada N, Funayama T, Fukamoto K, Tsuji T, Kobayashi Y.
Effects of ionizing radiation on locomotory behavior and mechanosensation
in Caenorhabditis elegans.
J Radiat Res. 50: 119-25. 2009 [PubMed]
◆066
Sudo E. Teranishi M. Hidema J. Taniuchi T.
Visualization of flavonol distribution in the abaxial epidermis o onion
scales via detection of its autofluorescence in the absence of chemical
processes.
Bioscience, Biotechnology, and Biochemistry, 73:2107-2109. 2009 [PubMed]
◆065
Hidema J.
Betsy and photolyase.
Biol. Sci. Space. 23: 221-222. 2009
◆064
Okafuji A., Biskup T., Hitomi K. GetzoffED., Kaiser G., Bacher A., Hidema
J., Teranishi M., Yamamoto K., Schleicher E., Weber S.
Light-induced activation of class II cyclobutane pyrimidine dimer photolyase.
DNA Repair 9:495-505. 2009 [PubMed]
◆063
Takehisa H, Yasuda M, Fukuta Y, Kobayashi N, Hayashi N, Nakashita H, Abe
T, Sato T.
Genetic analysis for resistance gene in an Indica-type rice (Oryza sativa L.), Kasalath, using DNA markers.
Breeding Sci. 59: 253-260. 2009
◆062
竹久妃奈子・林依子・阿部知子・佐藤雅志
重イオンビーム育種技術による耐塩性イネの育成
放射線と産業 121 : 22-26. 2009
◆061
佐藤雅志
水をきれいにするイネ –環境保全対策への活用を期待.
人と水 7 : 6 2009
◆060
Yamauchi S, Higashitani N, Otani M, Higashitani A, Ogura T, Yamanaka K.
Involvement of HMG-12 and CAR-1 in the cdc-48.1 expression of Caenorhabditis
elegans.
Dev Biol. 318: 348-59. 2008 [PubMed]
◆059
Selch F, Higashibata A, Imamizo-Sato M, Higashitani A, Ishioka N, Szewczyk
NJ, Conley CA.
Genomic response of the nematode Caenorhabditis elegans to spaceflight.
Adv Space Res. 41: 807-15. 2008 [PubMed]
◆058
Sugimoto T, Mori C, Takanami T, Sasagawa Y, Saito R, Ichiishi E, Higashitani
A.
Caenorhabditis elegans par2.1/mtssb-1 is essential for mitochondrial DNA
replication and its defect causes comprehensive transcriptional alterations
including a hypoxia response.
Exp Cell Res. 314: 103-14. (Highlights Issue) 2008 [PubMed]
◆057
Mori C, Takanami T, Higashitani A.
Maintenance of mitochondrial DNA by the Caenorhabditis elegans ATR checkpoint protein ATL-1.
Genetics. 180: 681-6. 2008 [PubMed]
◆056
Sakata T, Higashitani A.
Male sterility accompanied with abnormal anther development in plants ?
Genes and environmental stresses with special reference to high temperature
injury.
Intl J Plant Dev Biol. 2: 42-51. 2008
◆055
Kimura T, Takahashi K, Suzuki Y, Konishi Y, Ota Y, Mori C, Ikenaga T, Takanami T, Saito R, Ichiishi E, Awaji S, Watanabe K, Higashitani A.
The effect of high strength static magnetic fields and ionizing radiation
on gene expression and DNA damage in Caenorhabditis elegans.
Bioelectromagnetics. 29: 605-14. 2008 [PubMed]
◆054
Yamamoto A., Tanbir N., Hirouchi T., Teranishi M., Hidema J., Morioka H. Yamamoto K.
Temperature-sensitive photoreactivation of cyclobutane thymine dimer in
soybean.
Journal of Radiation Research, 49: 189-196. 2008 [PubMed]
◆053
山岸朋香、高野成央、岩松優、寺西美佳、日出間純
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-
太陽紫外線防御研究委員会 学術報告、18: 37-42. 2008
◆052
Iwamatsu Y., Aoki C., Takahashi M., Teranishi M., Ding Y., Sun C., Kumagai
T. and Hidema J.
UVB sensitivity and cyclobutane pyrimidine dimer (CPD) photolyase genotypes
in cultivated and wild rice species.
Photochem. Photobiol. Sci. 7: 311-320. 2008 [PubMed]
◆051
Teranishi M., Nakamura K., Morioka H., Yamamoto K. Hidema J.
The native cyclobutane pyrimidine dimer photolyase of rice is phosphorylated.
Plant Physio. 146: 1941-1951. 2008 [PubMed]
◆050
寺西美佳、中村憲太郎、日出間純
イネのピリミジン二量体光回復酵素のリン酸化修飾
放射線生物研究、43: 304-314. 2008
◆049
佐藤雅志
水田稲作と漁労.ユーラシア農耕史・第1巻、モンスーン農耕圏の人びとと植物
臨川書店 103-112. 2008
◆048
Sasagawa Y, Sato S, Ogura T, Higashitani A.
C. elegans RBX-2-CUL-5- and RBX-1-CUL-2-based complexes are redundant for oogenesis and activation of the MAP kinase MPK-1.
FEBS Lett. 581: 145-150. 2007 [PubMed]
◆047
Higashibata A, Higashitani A, Adachi R, Kagawa H, Honda S, Honda Y, Higashitani N, Sasagawa Y, Miyazawa Y, Szewczyk NJ, Conley CA, Fujimoto N, Fukui K, Shimazu T, Kuriyama K, Ishioka N.
Biochemical and Molecular Biological Analyses of space-flown nematodes
in Japan, the First International Caenorhabditis elegans Experiment (ICE-First).
Microgravity Sci Technol. 19: 159-63. 2007 [PubMed]
◆046
Oshino T, Abiko M, Saito R, Ichiishi E, Endo M, Kawagishi-Kobayashi M, Higashitani A.
Premature progression of anther early developmental programs accompanied
by comprehensive alterations in transcription during high-temperature injury
in barley plants.
Mol Genet Genomics 278: 31-42. 2007 [PubMed]
◆045
Hidema J., Taguchi T., Ono T., Teranishi M., Yamamoto K. Kumagai T.
Increase in CPD photolyase activity functions effectively for preventing
ultraviolet-B-caused growth inhibition.
Plant J. 50: 70-79. 2007 [PubMed]
◆044
Yamamoto A., Hirouchi T., Mori T., Teranishi M., Hidema J., Morioka H., Kumagai T Yamamoto K.
Biochemical and biological properties of DNA photolyases derived from ultraviolet-sensitive
rice cultivars.
Genes Genet. Syst. 81: 311-319. 2007 [PubMed]
◆043
Higashibata A, Szewczyk NJ, Conley CA, Imamizo-Sato M, Higashitani A, Ishioka N.
Decreased expression of myogenic transcription factors and myosin heavy
chains in Caenorhabditis elegans muscles developed during spaceflight.
J. Exp. Biol. 209: 3209-3218. 2006 [PubMed]
◆042
森ちひろ,東谷篤志
線虫の放射線応答:重イオンマイクロビームを用いた研究結果を中心に
放射線生物研究 41: 399-408. 2006
◆041
東谷篤志.
放射線照射に対する生物応答:モデル生物Cエレガンスを用いたイオンマイクロビームの照射研究
放射線と産業 111: 13-187. 2006
◆040
Sugimoto T, Dazai K, Sakashita T, Funayama T, Wada S, Hamada N, Kakizaki
T, Kobayashi Y, Higashitani A.
Cell cycle arrest and apoptosis in Caenorhabditis elegans germline cells following heavy-ion microbeam irradiation.
Int J Radiat Biol. 82: 31-38. 2006 [PubMed]
◆039
Hidema J. Kumagai T.
Sensitivity of rice to ultraviolet-B radiation. Invited Review
Annal. Bot. 97: 933-942. 2006 [PubMed]
◆038
Sasagawa Y, Saito Y, Shimizu M, Takahashi H, Higashitani A.
Perturbation of oocyte meiotic division by hypergravity in Caenorhabditis elegans.
Biol. Sci. Space.19: 155-162. 2005 [PubMed]
◆037
Sasagawa Y, Kikuchi K, Dazai K, Higashitani A.
Caenorhabditis elegans Elongin BC complex is essential for cell proliferation
and chromosome condensation and segregation during mitosis and meiotic
division II.
Chromosome Res.13: 357-375. 2005 [Pub Med]
◆036
Kamada M, Higashitani A, Ishioka N.
Proteomic analysis of Arabidopsis root gravitropism.
Biol. Sci. Space. 19:148-154. 2005
◆035
Higashitani A, Higashibata A, Sasagawa Y, Sugimoto T, Miyazawa Y, Szewcyk NJ, Viso M, Gasset G, Eche B, Fukui K, Shimazu T, Fujimoto N, Kuriyama K, Ishioka N.
Checkpoint and physiological apoptosis in germ cells proceeds normally
in spaceflown Caenorhabditis elegans.
Apoptosis 10: 949-954. 2005
◆034
Abiko M, Akibayashi K, Sakata T, Kimura M, Kihara M, Itoh K, Asamizu E,
Sato S, Takahashi H, Higashitani A.
High-temperature induction of male sterility during barley (Hordeum vulgare
L.) anther development is mediated by transcriptional inhibition.
Sexual Plant Reprod. 18: 91-100. 2005 [PubMed]
◆033
Ueda T., Sato T., Hidema J., Hirouchi T., Yamamoto K., Kumagai T. Yano
M.
qUVR-10, a major quantitative trait locus for ultraviolet-B resistance
in rice, encodes cyclobutane pyrimidine dimer photolyase.
Genetics, 171: 1941-1950. 2005 [PubMed]
◆032
岩松優、日出間純、熊谷忠
イネの紫外線抵抗性は何が決めているか -DNA損傷光回復酵素の役割- 化学と生物 43: 72-74. 2005
◆031
Hidema J., Zhang W-H, Yamamoto M., Sato T. Kumagai T.
Changes in grain size and grain storage protein of rice (Oryza sativa L.) in response to elevated UV-B radiation under outdoor conditions.
J. Radiat. Res. 46: 143-149. 2005 [PubMed]
◆030
Hidema J., Teranishi M., Iwamatsu Y., Hirouchi T., Ueda T., Sato T., Burr
B., Sutherland BM., Yamamoto K. Kumagai T.
Spontaneously occurring mutations in the cyclobutane pyrimidine dimer photolyase
gene cause different sensitivities to ultraviolet-B in rice.
Plant J. 43: 57-67. 2005 [PubMed]
◆029
Endo M, Tsuchiya T, Saito H, Matsubara H, Hakozaki H, Masuko H, Kamada
M, Higashitani A, Takahashi H, Fukuda H, Demura T, Watanabe M.
Identification and molecular characterization of novel anther-specific genes in Oryza sativa L. by using cDNA microarray.
Genes Genet Syst. 79: 213-226. 2004 [PubMed]
◆028
Hakozaki H, Endo M, Masuko H, Park JI, Ito H, Uchida M, Kamada M, Takahashi H, Higashitani A, Watanabe M.
Cloning and expression pattern of a novel microspore-specific gene encoding
hypersensitive-induced response protein (LjHIR1) from the model legume,
Lotus japonicus.
Genes Genet Syst. 79: 307-310. 2004 [PubMed]
◆027
Hidema J., Takahashi Y., Yamamoto M., Kumagai T., Hase Y., Sakamoto A.
Tanaka A.
Isolation of UV-sensitive or resistant rice (Oryza sativa L.) mutants. TIARA Annual Report 2004, 25: 70-72. 2004
◆026
Teranishi M., Iwamatsu Y., Hidema J. Kumagai T.
Ultraviolet-B sensitivities in japanease lowland rice cultivars: cyclobutane
pyrimidine dimer photolyase activity and gene mutation.
Plant Cell Physiol. 45: 1848-1856. 2004 [PubMed]
◆025
Hidema J and Kumagai T.
UVB sensitivity and CPD photolyase gene mutation in rice plant.
Photomedicine and Photobiol. 26: 11-12. 2004
◆024
Takanami T, Mori A, Takahashi H, Horiuchi S, Higashitani A.
Caenorhabditis elegans Ce-rdh-1/rad-51 functions after double-strand break formation of meiotic recombination.
Chromosome Res. 11: 125-135. 2003 [PubMed]
◆023
Sasagawa Y, Urano T, Kohara Y, Takahashi H, Higashitani A.
Caenorhabditis elegans> RBX1 is essential for meiosis, mitotic chromosomal
condensation and segregation, and cytokinesis.
Genes Cells.8: 857-872. 2003 [PubMed]
◆022
高浪タカ子, 堀内三郎, 東谷篤志.
減数分裂細胞の放射線抵抗性と遺伝子組換え酵素の発現
放射線生物研究 38, 180-188. 2003
◆021
高浪タカ子, 東谷 篤志.
減数分裂過程における放射線の影響
化学と生物 41: 138-141. 2003
◆020
Takanami T, Zhang Y, Aoki H, Abe T, Yoshida S, Takahashi H, Horiuchi S, Higashitani A.
Efficient repair of DNA damage induced by heavy ion particles in meiotic
prophase I nuclei of Caenorhabditis elegans.
J Radiat Res. 44: 271-276. 2003 [PubMed]
◆019
日出間純
総説「イオンビームによるイネの紫外線 (UVB)耐性・感受性変異体」
放射線利用技術試験研究データベース 2003 [Link]
◆018
Hidema J., Yamamoto M., Kumagai T., Hase Y., Sakamoto A. and Tanaka A.
Biological effects of carbon ion on rice (Oryza sativa L.).
JAERI-Review 2003-33: 85-87. 2003
◆017
Hirouchi T., Nakajima S., Najrana T., Tanaka M., Matsunaga T., Hidema J., Teranishi M., Fujino T., Kumagai T Yamamoto K.
A gene for Class II DNA photolyase from Oryza sativa: cloning of the cDNA
by dilution-amplification.
Mol. Genet. Genomics 269: 508-516. 2003 [PubMed]
◆016
Hada H., Hidema J., Maekewa M. Kumagai T.
Higher amounts of anthocyanins and UV-absorbing compounds effectively lowered
CPD photorepair in purple rice (Oryza sativa L.).
Plant. Cell Environ. 26: 1691-1701. 2003 [Link]
◆015
日出間純
総説「植物の紫外線防御機構」
太陽紫外線防御研究委員会 学術報告 12: 29-38. 2002
◆014
Hada H., Hidema J. Kumagai T.
Light environment during culture and changes in cyclobutane pyrimidine dimmer levels in rice.
In: Pandalai SG (ed) Recent Research Developments in Photochemistry and
Photobiology, Transworld Research Network, India 6: 1-10. 2002
◆013
Teranishi M., Hidema J., Fujino T., Hirouchi T., Yamamoto K., Kumagai T.
Differences in the amino acid sequences of CPD photolyases of UV-sensitive and UV-resistant rice cultivars.
J. Photoscience, 9: 329-331. 2002
◆012
Hidema J.
Physiological and biochemical analyses of rice sensitivities to UV-B. J. Photoscience, 9: 162-165. 2002
◆011
Takeuchi A., Yamaguchi T., Hidema J., Strid A. Kumagai T.
Changes in synthesis and degradation of Rubisco and LHCII with leaf age
in rice (Oryza sativa L.) growing under supplementary UV-B radiation.
Plant, Cell Environ. 25: 695-706. 2002 [Link]
◆010
日出間純、熊谷忠
総説「イネの紫外線感受性とピリミジン二量体光回復酵素」
放射線生物研究、36: 264-278, 2001
◆009
Bennet PV., Hada M., Hidema J., Lepre AM., Pope LC., Quaite FE., Sullivan
JH., Takayanagi S., Sutherland JC., Sutherland BM.
Isolation of high molecular length DNA: Alfalfa, Pea, Rice, Sorghum, Soybean and Spinach.
Crop science, 41: 167-172, 2001
◆008
Hidema J., Song IK., Sato T. Kumagai T.
Relationship between ultravioret-B sensitivity and cyclobutane pyrimidine
dimer photorepair in rice.
Journal of Radiation Research, 42: 295-303, 2001 [PubMed]
◆007
Kumagai T., Hidema J., Kang HS. Sato T.
Effects of Supplemental UV-B radiation on the growth and yield of two cultivars of Japanease lowland rice (Oryza sativa L.) under the field in a cool rice-growing region of Japan.
Agriculture, Ecosystems and Environment, 83: 201-208, 2001
◆006
Kalbin G., Hidema J., Brosche M., Kumagai T., Bornman JF and Strid A.
UV-B induced DNA damage and expression of defence gene under UV-B stress:
tissue-specific molecular marker analysis in leaves.
Plant, Cell and Environment, 24: 983-990, 2001 [Link]
◆005
Hidema J, Kumagai T, Sutherland BM.
UV radiation-sensitive Norin 1 rice contains defective cyclobutane pyrimidine dimer photolyase.
Plant Cell, 12: 1569-1578, 2000 [PubMed]
◆004
Hidema J.
Mechanisms of UVB-resistance in rice: Cultivar differences in the sensitivity
to UVB radiation in rice.
Gamma Field Symposia, 39: 33-42, 2000 [Link]
◆003
Higashitani A, Aoki H, Mori A, Sasagawa Y, Takanami T, Takahashi H.
Caenorhabditis elegans Chk2-like gene is essential for meiosis but dispensable for DNA repair.
FEBS Lett. 485: 35-39. 2000 [PubMed]
◆002
Sakata T, Takahashi H, Nishiyama I, Higashitani A.
Effects of high temperature on the development of pollen mother cells and microspores in barley Hordeum vulgare L.
J. Plant Res. 113: 395-402. 2000
◆001
Takanami T, Mori A, Takahashi H, Higashitani A.
Hyper-resistance of meiotic cells to radiation due to a strong expression
of a single recA-like gene in Caenorhabditis elegans.
Nucleic Acids Res. 28: 4232-4236. 2000 [PubMed]