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| September 21 (Wednesday) |
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| Oral Presentation |
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| AM 9:15 〜 AM 10:30 |
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| 10 | A MATE-type transporter is involved in Fe translocation in nodules of Lotus japonicus |
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| *Kojiro Takanashi1, Hirokazu Takahashi2, Kengo Yokosho3, Akifumi Sugiyama1, Shusei Sato4, Satoshi Tabata4, Jian Feng MA3, Mikio Nakazono1, Kazufumi Yazaki1 |
| 1Kyoto Univ., 2Nagoya Univ., 3Okayama Univ., 4Kazusa DNA Res. Inst. |
| 11 | Mechanism of neutral lipid synthesis in arbuscular mycorrhizal fungi |
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| *Yoshihiro Kobae, Shingo Hata |
| Grad. Sch. Bioagricult. Sci. Nagoya Univ. |
| 12 | Involvement of autoregulation system in the interaction between rhizobial nodulation and arbuscular mycorrhizal colonization in soybean root |
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| *Kazunori Sakamoto, Natsuko Ogiwara, Tomomitsu Kaji |
| Grad. Sch. Hort., Chiba Univ. |
| 13 | Diagnosis of problems for decreasing seed production of black soybean cv Tanbakuro induced by continuous cropping. Endophytic occupations of non-symbiotic bacteria to root nodules of black soybean cv Tanbakuro are accelerated by continuous cropping of the black soybean at high frequencies. |
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| *Tadashi Yokoyama1, Masanori Sasada2, Naoko Ohkama-Ohtsu1, Masami Yoshikawa3, Yukiaki Shizukawa3, Ai Ono3, Yoshinari Ohwaki4, Junko Tazawa4 |
| 1Institute of Agriculture, Tokyo Univ. of Agri. and Tech., 2Faculty of Agriculture,Tokyo Univ. of Agri. and Tech., 3Biotechnology Research Departmrnt, Kyoto Prefectural Agriculture, Forestry and Fishery Technology center, 4National Agriculture Research Center, NARO |
| 14 | Mechanism in tolerance to anthracnose with Actinomycetes (A12) endophytic in cucumber |
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| *Katsuyuki Maeda, Machiko Yoshida, Yasuo Yamagiwa, Yoshishige Inagaki, Yuki Ichinose, Kazuhiro Toyoda, Tomonori Shiraishi |
| Graduate School of Natural Science and Technology, Okayama University, Japan |
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| Coffee Break |
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| AM 10:30 〜 AM 10:45 |
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| . | . |
| Poster 90sec Oral Presentation |
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| AM 10:45 〜 PM 12:00 |
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| Lunch |
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| . | . |
| Oral Presentation |
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| PM 2:15 〜 PM 3:30 |
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| . | . |
| 15 | Involvement of siderophore productivity of Pseudomonas cichorii in its virulence on eggplant but not lettuce |
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| Md.Ullah Wali, Masayuki Tanaka, Hiroyuki Mizumoto, Kouhei Ohnishi, Akinori Kiba, *Yasufumi Hikichi |
| Kochi Univ. |
| 16 | Proteomic analysis of proteins regulated by chloroplast radical in plant immunity. |
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| *Hironari Nomura1, Masayuki Fujiwara2, Yoichiro Fukao2, Takashi Shiina3, Hirofumi Yoshioka1 |
| 1Gra. Sch. Bioagri. Sci., Nagoya Univ., 2Gra. Sch.Biol. Sci., NAIST, 3Gra. Sch. Life Environ. Sci., Kyoto Pref. Univ. |
| 17 | Phosphorylation of the WRKY transcription factor by MAPK functions in the defense response |
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| *Nobuaki Ishihama1, Reiko Yamada1, Miki Yoshioka1, Shinpei Katou2, Hirofumi Yoshioka1 |
| 1Nagoya Univ., 2Shinshu Univ. |
| 18 | Involvement of phosphatidic acid phosphatase in defense responses of Nicotiana plants |
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| *Masahito Nakano1,2, Masahiro Nishihara3, Kouhei Ohnishi4, Yasufumi Hikichi2, Akinori Kiba2 |
| 1UGAS Ehime Univ., 2Kochi Univ., 3IBRC., 4RIMG Kochi Univ. |
| 19 | Mutant analysis suggests root-knot nematode requires part of the symbiotic pathway for parasitic infection |
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| Shuhei Hayashi1, Tatsuhiro Ezawa1, Mitsuru Osaki1, Erika Asamizu2, Masayoshi Kawaguchi3, Derek Goto1 |
| 1Hokkaido University; 2University of Tsukuba; 3Nat. Inst. Basic Biology |
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| Coffee Break |
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| PM 3:30 〜 PM 3:45 |
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| Discussion 2 |
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| PM 3:45 〜 PM 4:30 |
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| . | . |
| Coffee Break |
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| PM 4:30 〜 PM 4:45 |
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| . | . |
| Poster Presentation (odd number) |
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| PM 4:45 〜 PM 5:45 |
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| . | . |
| Poster Presentation (even number) |
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| PM 5:45 〜 PM 6:45 |
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| . | . |
| Poster Presentation and free discussion |
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| PM 6:45 〜 PM 8:00 |
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| P1 | Infection phenotype of root knot nematodes on EMS-mutagenized Micro-Tom, a dwarf model cultivar of tomato |
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| Yoshihiro Okabe1,Hiroshi Ezura1, Derek Goto2, *Erika Asamizu1 |
| 1Univ. Tsukuba, 2Hokkaido Univ. |
| P2 | SGT1 and chloroplast-generated ROS: The new players in coronatine-induced chlorosis and Pseudomonas syringae pv. tomato disease associated cell death |
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| *Takako Ishiga, Yasuhiro Ishiga, Kirankmar S Mysore, Srinivasa Rao Uppalapati |
| The Samuel Roberts Noble Foundation |
| P3 | The roles of MAPK cascade and ethylene in AAL-toxin-induced cell death |
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| *Keisuke Mase1, Takahito Mizuno1, Hitoshi Mori1, Motoichiro Kodama2, Hirofumi Yoshioka1 |
| 1Graduate School of Bioagricultural Sciences, Nagoya University,2Faculty of Agriculture, Tottori University |
| P4 | Chemical biology toward understanding molecular mechanism of hypersensitive cell death in Arabidopsis thaliana |
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| *Yoshiteru Noutoshi1, Masateru Okazaki1, Etsuko Yokota1, Ken Shirasu2 |
| 1RCIS, Okayama Univ., 2RIKEN PSC |
| P5 | Mechanism of predomination of Methylobacterium species in phyllosphere |
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| *Yuki Nakamura1, Izumi Mori1, Nobuhiro Suzuki1, Kazuhide kimbara2, Akio Tani1 |
| 1Institute of Plant Science and Resources, Okayama Univ., 2Faculty of Engineering, Shizuoka Univ. |
| P6 | Molecular analysis of viral elicitor recognition by temperature stable disease resistance protein L1a |
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| *Hiroyuki Mizumoto1, Ikumi Nakamura1, Reiko Tomita2, Akinori Kiba1, Masamichi Nishiguchi3, Kappei Kobayashi3, Yasufumi Hikichi1 |
| 1Kochi Univ.,2IBRC,3Ehime Univ. |
| P7 | Fungal signal molecules regulate the effluxes of Na+ and K+ ions from pea and cowpea |
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| *Masashi Amano1, KazuhiroToyoda2, Akinori Kiba3, Yoshishige Inagaki2, Yuki Ichinose2, Tomonori Shiraishi2 |
| 1Saitama Gensyu Ikuseikai Co,.Ltd., 2Okayama Univ., 3Kochi Univ. |
| P8 | Jasmonate signaling in Medicago truncatula and its role in conditioning plant susceptibility to the hemibiotrophic fungus Mycosphaerella pinodes |
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| Satoki Yamamoto, Yuriko Kawamoto, Yuriko Kawanishi, Mayumi Morizane, Chiaki Kurihara, Yoshishige Inagaki, Yuki Ichinose, Kazuhiro Toyoda, Tomonori Shiraishi |
| Graduate School of Natural Science and Technology, Okayama Univ. |
| P9 | Transcriptome analysis of the parasitic species in Orobanchaceae |
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| Satoko Yoshida1, Juliane K. Ishida1,2, Eric Wafula3, Claude dePamphilis3, Ken Shirasu1 |
| 1RIKEN・PSC, 2Univ. Tokyo, 3Penn State Univ. |
| P10 | Genome analysis of the symbiotic nitrogen-fixing bacterium Frankia with high-throughput sequencer |
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| *Ken-ichi Kucho1, Hideo Sasakawa2, Shiro Higashi1, Mikiko Abe1, Toshiki Uchiumi1 |
| 1Kagoshima Univ., 2Okayama Univ. |
| P11 | Transformation of Frankia using plasmids. |
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| *Yu-ma Matsui1, Kentaro Kakoi1, Peter Pujic2, Shiro Higasi3, Mikiko Abe3, Philippe Normando2, Toshiki Uchiumi1, Kenichi Kucho1 |
| 1Graduate school of Science and Engineering, Kagoshima Univ., 2Lyon Univ., 3Faculy of Science, Kagoshima Univ. |
| P12 | OsCCaMK genotype determines bacterial communities in rice roots under paddy and upland field conditions |
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| *Kiwamu Minamisawa1, Seishi Ikeda2, Takashi Okubo1, Naoya Takeda3, Mari Banba3, Haruko Imaizumi-Anraku3, Yoshimichi Fukuta4, Shinsuke Fujihara2, Yoshinari Ohwaki2, Kazuhiro Sasaki1, Tadashi Sato1, Zhihua Bao1 |
| 1Tohoku Univ., Life Sci., 2National Agricultural Research Center, 3National Institute of Agrobiological Sciences (NIAS), 4Japan International Research Center for Agricultural Sciences (JIRCAS) |
| P13 | Free-living nitrogen fixation by endophytic bacteria isolated from sweet potato |
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| *Junko Terakado-Tonooka1,2, Shinsuke Fujihara1, Yoshinari Ohwaki1 |
| 1NARC, 2JSPS |
| P14 | Phenotypic analysis of symbiotic mutant ME966 in Lotus japonicus |
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| Junya Terasawa1, Tomoko Kojima2, Masayoshi Kawaguchi3, Ryo Ohtomo4, *Katsuharu Saito1 |
| 1Shinshu Univ., 2NILGS, 3NIBB, 4NARCH |
| P15 | Relationship between location of polyphosphate and acid phosphatase activity in arbuscules of mycorrhiza. |
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| Yasuyuki Osada, *Kosuke Nakiri, Katsuharu Saito |
| Shinshu Univ. |
| P16 | The expression analysis of Mycorrhiza-inducible chitinase of rice |
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| *Takai Shoko, Kobae Yoshihiro, Hata Shingo |
| Grad. Sch. Bioagricult. Sci. Nagoya Univ. |
| P17 | Functional analysis of Mycorrhiza-inducible H+-ATPase of rice |
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| Grad. Sch. Bioagricult. Sci. Nagoya Univ. |
| P18 | Expression analysis of a mycorrhiza-inducible Flotillin gene |
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| *Kazuko Hamachi, Yoshihiro Kobae, Shingo Hata |
| Grad. Sch. Bioagricult. Sci. Nagoya Univ. |
| P19 | Characterization of rhizobial isolates from the original habitat of Lotus japonicus accession MG-20, Miyakojima |
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| Yoshimi Tani, Kazuhiko Saeki |
| Nara Women's Univ |
| P20 | Complete Genome Sequence of A Soybean Symbiont Bradyrhizobium japonicum USDA6T |
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| Takakazu Kaneko11 Hiroko Maita2, Nobukazu Uchiike1, Akiko Watanabe2, Manabu Yamada2, Hideki Hirakawa2, Kiwamu Minamisawa3, Shusei Sato2 |
| 1Kyoto Sangyo U., 2Kazusa DNA Res.Inst., 3Tohoku U. |
| P21 | Analysis of Bradyrhizobium japonicum genomic loci induced by genistein in the initial stage of symbiosis |
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| Keisuke Takeshima1, Min Wei2, Tadashi Yokoyama3, Kiwamu Minamisawa4, Hisayuki Mitsui4, Manabu Itakura4, Takakazu Kaneko5, Satoshi Tabata6, Kazuhiko Saeki7, Hirofumi Oomori8, Shigeyuki Tajima9, Toshiki Uchiumi10, Mikiko Abe10, Takuji Ohwada1 |
| 1Department of Food Sciense, Obihiro Univ. of Agriculture and Veterinary Medicine, 2School of Life Science,Lanzhou Univ., 3Tokyo Univ. of Agriculture and Technology, 4Graduate School of Life Science, Tohoku Univ., 5Faculty of Engineering, Kyoto Sangyo Univ., 6Kazusa DNA Res.Inst., 7Department of Biological Science, Faculty of Science, Nara Women’s Univ., 8Department of Biology, Graduate School of Science, Osaka Univ., 9Departmemt of Life Science, Kagawa Univ., 10Graduate School of Science and Engineering, Kagoshima Univ. |
| P22 | Biochemical Characterization of Two Distinct Catalases in Mesorhizobium loti MAFF303099 to Elucidate Their Functional Difference |
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| Rie Shirai, Shin Okazaki, Kazuhiko Saeki |
| Department of Biological Sciences, Nara Women’s University |
| P23 | myo-inositol-1-phosphate synthase of Sinorhizobium meliloti |
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| *Yoshihiro Ashida, Ayako Terakawa, Ken-ichi Yoshida |
| Dept. Agrobiosci., Kobe Univ. |
| P24 | nif gene expression of nodule formed by mcp deletion mutant of Sinorhizobium meliloti |
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| *Yuu Yamamoto, Atsushi, Takasaki, Takayoshi Suwa, Shinji Iida, Fumio Ikenishi, Osamu Yoshimura, Katsuharu Saito, Akira Tabuchi |
| Shinshu Uni. Agricul. |
| P25 | The effect of γ-sterilization of biofertilizer’s carrier on bacterial inoculants survival |
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| *Kouhei Tejima1, Tadashi Yokoyama2, Katsuya Satoh1, Kiyoko Takeda1,3, Issay Narumi1 |
| 1Quantum Beam Science Directorate, Japan Atomic Energy Agency, 2Institute of Agriculture, Tokyo Univ. of Agriculture and Technology, 3United Graduate school of Agricultural Science, Tokyo Univ. of Agriculture and Technology |
| P26 | Characterization of nodulation mutants that exhibit pleiotropic phenotypes |
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| *Koji Yano1, Norio Suganuma2, Shusei Sato3, Satoshi Tabata3, Hiroshi Kouchi4, Yosuke Umehara4, Masayoshi Kawaguchi1 |
| 1NIBB, 2Aichi Univ. of Education, 3Kazusa DNA Res. Inst., 4NIAS |
| P27 | Pollen tube growth of nup85 mutant in Lotus japonicus |
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| Hisanori Kamahara, *Yusaku Sugimura, Katsuharu Saito |
| Shinshu Univ. |
| P28 | Root nodule formation is controlled by sensing the R/FR ratio through JA signaling in Lotus japonicus |
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| *Tamaki Shigeyama1, Lalith Suriyagoda1, Akiyoshi Tominaga1, Masayo Sasaki1, Yoshimi Hiratsuka1, Aya Yoshinaga1, Susumu Arima1, Sakae Agarie2, Tatsuya Sakai3, Sayaka Inada4, Yusuke Jikumaru4, Yuji Kamiya4, Toshiki Uchiumi5, Mikiko Abe5, Masatsugu Hashiguchi6, Ryo Akashi6, Shusei Sato7, Takakazu Kaneko7, Satoshi Tabata7, Ann M. Hirsch8, Akihiro Suzuki1 |
| 1Agriculture, Saga Univ., 2Agriculture, Kagawa Univ., 3Grad. sch. Science and Technology, Niigata Univ., 4PSC, RIKEN, 5Science, Kagoshima Univ., 6FSRC, Univ. of Miyazaki, 7Plant Research, Kazusa DNA Res. Inst., 8UCLA |
| P29 | Survey of efflux transporters for flavonoid glycosides in soybean root. |
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| *Kazuaki Ymamashita, Akifumi Sugiyama, Kazufimi Yazaki |
| Kyoto Univ. |
| P30 | Functional analysis of LjALMT1 inducible during nodulation in Lotus japonicus |
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| *Tomohiro Kan1, Takayuki Sasaki2, Kojiro Takanashi1, Akifumi Sugiyama1, Kazufumi Yazaki11 |
| 1Research Institute for Sustainable Humanosphere, Kyoto Univ., 2Institute of Plant Science and Resources, Okayama Univ. |
| P31 | Functional analysis of Lotus japonicus CLV2-like gene |
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| Naoto Sato1, Izumi Fukuhara1, *Satoru Okamoto2, Tomomi Nakagawa3, Shusei Sato4, Satoshi Tabata5, Jillian Perry5, Trevor Wang5, Masayoshi Kawaguchi2 |
| 1Grad. Sch. Sci., Tokyo Univ., 2NIBB, 3Meiji Univ., 4Kazusa DNA Res. Inst., 5John Innes Centre |
| P32 | Expression of pathogenesis-related β-1,3-glucanase gene in autoregulation of nodulation |
|---|
| *Osuki, K. 1, Suzuki, A.2, Hara, H.1, Yamashita, K.1, Kobayashi, Y.3, Takahara, A.1, Araragi, M.1, Asami, T. 4, Kucho, K. 1, Higashi, S. 1, Abe, M. 1, Uchiumi, T. 1 |
| 1Graduate School of Science and Engineering,Kagoshima Univ., 2Department of Environmental Science,Saga Univ., 3Department of Chemistry and Bioscience, Kagoshima Univ., 4Graduate School of Agriculture and Life Science, Tokyo Univ. |
| P33 | Characterization of , LjGlu1, β-1,3-glucanase gene of Lotus japonicus |
|---|
| Shun Hashimoto1, Akihito Takahara1, Akihiro Suzuki2, Ken-ichi Kucho1, Mikiko Abe1, Shiro Higashi1, Toshiki Uchiumi1 |
| 1Graduate School of Science and Engineering, Kagoshima Univ., 2Department of Environmental Science, Saga Univ. |
| P34 | Direct targets of a nodulation-specific transcription factor, NIN, regulate infection thread development and cortical cell division |
|---|
| *Takashi Soyano, Hayashi Makoto |
| NIAS |
| P35 | Screening of proteins interacting with symbiosis related SNARE protein by yeast two hybrid system. |
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| *Takahiro Miyoshi1, Hiroki Yamasaki1, Syou Okumura1, Syusei Sato2, Yoshikazu Shimoda3, Makoto Hayashi3, Keisuke Yokota3, Shigeyuki Tajima1, Mika Nomura1 |
| 1Kagawa Univ., 2Kazusa DNA Res. Inst., 3NIAS. |
| P36 | Physiological function of Plant class 1 Hemoglobin in legume-microbe symbiosis. |
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| *Tomohiro Kado, Yo-ichiro Tanimura, Ken-ichi Kucho, Mikiko Abe, Siro Higashi, Toshiki Uchiumi |
| Grad.Sc. Sci. & Eng., Kadoshima Univ. |
| P37 | The effect of nitrate, temperature, and light/dark conditions on nodule growth of soybean |
|---|
| *Shiori Watanabe1, Sayuri Tanabata2, Takanari Tanabata3, Seiya Tajima1, Noritake Ohtake4, Kuni Sueyoshi4, Takuji Ohyama4 |
| 1Grad.Sci.Niigata Univ., 2Ibaraki Pref. Agr. center for Exp. Extension and Education, 3Natl. Inst. of Agrobiological Resources, 4Niigata Univ. |
| P38 | Quantitative trait locus analysis of symbiotic nitrogen fixation activity in the model legume Lotus japonicus |
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| *Akiyoshi Tominaga1,3, Takahiro Gondo2, Ryo Akashi2, Shao-hui Zheng3, Susumu Arima1,3, Akihiro Suzuki1,3 |
| 1Kagoshima Univ., 2Miyazaki Univ., 3Saga Univ. |
| P39 | A Lotus japonicus symbiotic mutant defective of SNARE protein LjSYP71 |
|---|
| Tsuneo Hakoyama1,2 Ryo Oi2, Kazuya Hazuma1, Eri Suga2, Yuka Adachi2, Mayumi Kobayashi2, Shusei Sato3, Eigo Fukai3, Satoshi Tabata3, Satoshi Shibata1, Guo-Jiang Wu1, Yoshihiro Hase4, Atsushi Tanaka4, Masayoshi Kawaguchi5, Hiroshi Kouchi1, Yosuke Umehara1, *Norio Suganuma2 |
| 1Natl. Inst. Agrobiol. Sci., 2Aichi Univ. Educ., 3Kazusa DNA Res. Inst., 4Japan Atomic Energy Agency, 5Natl. Inst. Basic Biol. |
| P40 | Characterization of a novel symbiotic mutant of Lotus japonicus, Ljsym104, that shows a Fix- phenotype in M. loti strain-dependent manner. |
|---|
| *Hiroko Yamaya1, Tsuneo Hakoyama1, Shusei Sato2, Md. Shakhawat Hossain1, Satoshi Shibata1, Yoshihiro Hase3, Atsushi Tanaka3, Masayoshi Kawaguchi4, Satoshi Tabata4, Makoto Hayashi1, Hiroshi Kouchi1, Yosuke Umehara1 |
| 1NIAS, 2Kazusa DNA Res. Inst., 3Japan Atomic Energy Agency, 4NIBB |
| P41 | Expression analysis of a putative sugar transporter in nodules of Lotus japonicus. |
|---|
| Yuka Saida, Akifumi Sugiyama, Kojiro Takanashi, Kazufumi Yazaki |
| RISH Kyoto Univ. |
| P42 | Expression analysis of two MATE-type transporters LjMATE2 and LjMATE3 in Lotus japonicus. |
|---|
| *Yoshihiro Ota, Kojiro Takanashi, Akifumi Sugiyama, Kazufumi Yazaki |
| Kyoto Univ. |
| P43 | Analysis of amino acid metabolism for a symbiotic nitrogen fixation in M. loti. |
|---|
| *Hiroyuki Matsuura1, Enoki Ayao1, Nantipak Thapanapongworakul1, Shuusei Satou2, Yoshikazu Simoda3, Mika Nomura1, Sigeyuki Tajima1 |
| 1Kagawa Univ, 2Kazusa DNA Res. Inst, 3NIAS |
| P44 | Genetic diversity, symbiotic evolution and proposed infection process of Bradyrhizobium strains isolated from root nodules of Aeschynomene americana in Thailand. |
|---|
| *Kamonluck Teamtisong1, Rujirek Noisa-ngiam1, Kiwamu Minamisawa2, Panlada Tittaburt1, Nantakorn Boonkerd1, Mikiko Abe3, Neung teaumroong1, Uchiumi Toshiki3 |
| 1Suranaree Univ. Technol., 2Tohoku Univ., 3Kagoshima Univ. |
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