発表論文 1999-2009

2009

1. Recombinant plant dsRNA-binding protein as an effective tool for the isolation of viral replicative form dsRNA and universal detection of RNA viruses.

2. Kobayashi, K., Tomita, R. and Sakamoto, M.

3. J. Gen. Plant Pathol., 75, 87-91. [Abstract] H23, JGPP論文賞

4. Single amino acid substitution in the methyltransferase domain of Paprika mild mottle virus replicase proteins confers the ability to overcome the high temperature-dependent Hk gene-mediated resistance in Capsicum plants.

5. Matsumoto, K., Johnishi, K., Hamada, H., Sawada, H., Takeuchi, S., Kobayashi, K., Suzuki, K., Kiba, A., and Hikichi, Y.

6. Virus Res., 140, 98-102. [link to Pubmed]

7. A protein containing an XYPPX repeat and a C2 domain is associated with virally induced hypersensitive cell death in plants.

8. Sakamoto, M., Tomita, R. and Kobayashi, K.

9. FEBS Let., 583, 2552-2556. [link to Pubmed]

10. A new plant protein interacts with eIF3 and 60S to enhance virus-activated translation re-initiation.

11. Thiebeauld, O., Schepetilnikov, M., Park, H.-S., Geldreich, A., Kobayashi, K., Keller, M., Hohn T. and Ryabova, L. A.

12. EMBO J., 28, 3171-3184. [link to Pubmed]

2008

1. SuperSAGE revealed different classes of early resistance response genes in Capsicum chinense plants harboring L3-resistance gene infected with Pepper mild mottle virus.

2. Hamada, H., Matsumura, H., Tomita, R., Terauchi, R., Suzuki, K. and Kobayashi, K.

3. J. Gen. Plant Pathol., 74, 313-321. [Abstract] H22, JGPP論文賞

4. The coat protein gene of P0 pathotype of tobamovirus is a determinant to activate temperature-insensitive L1a gene-mediated resistance in Capsicum plants.

5. Matsumoto, K., Sawada, H., Matsumoto, K., Hamada, H., Yoshimoto, E., Ito, T., Takeuchi, S., Tsuda, S., Suzuki, K., Kobayashi, K., Kiba, A., Okuno, T. and Hikichi, Y.

6. Arch. Virol., 153, 645-650. [link to Pubmed]

7. A primer-introduced restriction analysis-PCR-based method to analyse Pepper mild mottle virus populations in plants and field soil with respect to virus mutations that break L3 gene-mediated resistance of Capsicum plants.

8. Sakamoto, M., Tomita, R., Hamada, H., Iwadate, Y., Munemura, I. and Kobayashi, K.

9. Plant Pathol., 57, 825-833. [Abstract]

10. Involvement of hydrogen peroxide in leaf abscission signaling, revealed by analysis with an in vitro abscission system in Capsicum plants.

11. Sakamoto, M., Munemura, I., Tomita, R. and Kobayashi, K.

12. Plant J., 56, 13-27. [link to Pubmed]

13. Reactive oxygen species in leaf abscission signaling.

14. Sakamoto, M., Munemura, I., Tomita, R. and Kobayashi, K.

15. Plant Signaling Behavior, 3, 1014 - 1015. [link to Pubmed]

16. Fine mapping and DNA fiber FISH analysis locates the tobamovirus resistance gene L3 of Capsicum chinense in a 400-kb region of R-like genes cluster embedded in highly repetitive sequences.

17. Tomita, R., Murai, J., Miura, Y., Ishihara, H., Liu, S., Kubotera, Y., Honda, A., Hatta, R., Kuroda, T., Hamada, H. Sakamoto, M., Munemura, I. Nunomura, O., Ishikawa, K. Genda, Y., Kawasaki, S., Suzuki, K., Meksem, K. and Kobayashi K.

18. Theor. Appl. Genet., 117, 1107-1118. [link to Pubmed]

2007

1. Cooperative effect of two amino acid mutations in the coat protein of Pepper mild mottle virus overcomes L3-mediated resistance in Capsicum plants.

2. Hamada, H., Tomita, R., Iwadate, Y., Kobayashi, K., Munemura, I., Takeuchi, S., Hikichi, Y. and Suzuki, K.

3. Virus Genes, 34, 205-214. [link to Pubmed]

4. 遺伝子組換え検査のための豆腐・豆乳からの簡便迅速なDNA抽出法．

5. 小林括平，宗村郁子，内宮博文，山村三郎．

6. 育種学研究，９，21-25．

7. イネいもち病菌MBI-D剤耐性菌遺伝子検査を効率化する新規プライマー．

8. 小林括平・佐々木直子・冨田麗子・宗村郁子．

9. 北日本植物病害虫研究会報，58，16-19.

2006

1. Bisexual sterility conferred by the differential expression of Barnase and Barstar: a simple and efficient method of transgene containment.

2. Kobayashi, K., Munemura, I., Hinata, K. and Yamamura, S.

3. Plant Cell Rep., 25, 1347-1354. [link to Pubmed]

2005

1. The open reading frame VI product of Cauliflower mosaic virus is a nucleocytoplasmic protein: Its N terminus mediates its nuclear export and formation of electron-dense viroplasms.

2. Haas, M., Geldreich, A., Bureau, M., Dupuis, L., Leh, V., Vetter, G., Kobayashi, K., Hohn, T., Ryabova, L., Yot, P. and Keller M.

3. Plant Cell, 17, 927-943. [link to Pubmed]

4. Timing and Extent of Hypersensitive Response are Critical to Restrict Local and Systemic Spread of Pepper mild mottle virus in Pepper Containing the L3 Gene.

5. Hamada,H., Takeuchi,S., Kiba,A., Tsuda,S., Suzuki,K., Hikichi,Y. and Okuno,T.

6. J. Gen. Plant Pathol., 71, 90-94. [Abstract]

7. インパチエンスネクロティックスポットウイルス (INSV)によるリンドウえそ斑紋病(新称)．

8. 猫塚修一，浜田博之，勝部和則．

9. 日本植物病理学会報，71, 183-184. [Abstract]

10. A new Tobamovirus-resistance Gene, Hk, in Capsicum annuum.

11. Sawada,H., Takeuchi,S., Matsumoto,K., Hamada,H., Kiba,A., Matsumoto,M., Watanabe,Y., Suzuki,K. and Hikichi,Y.

12. J. Japan. Soc. Hort. Sci., 74, 289-294.

13. Discrimination between tobamoviruses and their Pathotypes for L gene-mediated Resistance in Green Pepper (Capsicum annuum L.) by Reverse Transcription-Polymerase Chain Reaction.

14. Takeuchi,S., Hamada,H., Toyoda,K., Suzuki,K., Kiba,A., Hikichi,Y. and Okuno,T.

15. J. Gen. Plant Pathol., 71, 60-67. [Abstract]

16. 低温耐性を示すグルタチオンS-トランスフェラーゼ遺伝子導入イネ（Sub29-17系統）の模擬的環境利用による安全性評価試験.

17. 長谷川義孝，竹澤利和，神崎洋之，小林括平，寺内良平，山村三郎，日向康吉．

18. 育種学研究, ７, 147-154.

2004

1. Transgenic Rice Expressing Wasabi Defensin Gene Exhibit its Enhanced Resistance to Blast Fungus (Magnaporthe grisea).

2. Kanzaki,T., Nirasawa,S., Saitoh,H., Ito,M., Nishihara,M., Yamamura,S., Suzuki,K., Terauchi,R. and Nakamura,I.

3. In：Kawasaki,S.(ed.) Rice Blast : Interaction with Rice and Control "Proceeding of the 3rd International Rice Blast Conference" 179-184.

4. The avirulence domain of cauliflower mosaic virus transactivator/viroplasmin is a determinant of viral virulence in susceptible hosts.

5. Kobayashi, K. and Hohn T.

6. Mol. Plant-Microbe Interact., 17, 475-483. [link to Pubmed]

7. Scanning force microscopic studies of Escherichia coli ribosomes on solid substrate surface.

8. Matsuura, T., Kobayashi, K., Tanaka, H., Matsumoto, T. and Kawai, T.

9. Jap. J. Appl. Physics, 43, 4599-4601.

10. Epidemiological Aspects of the Japanese Tobamovirus Strain, Pepper Mild Mottle Virus (PMMoV) Infecting the L2 resistance Genotype of Green Pepper (Capsicum annuum L.).

11. Toyoda,K., Hikichi,Y., Takeuchi,S., Kuroda,T., Okumura,A., Nasu,Y., Okuno,T. and Suzuki,K.

12. Scientific Reports of the Faculty of Agriculture, Okayama University, 93, 19-27.

13. Efficient Inactivation of Pepper Mild Mottle Virus (PMMoV) in Harvested Seeds of Green Pepper (Capsicum annuum L.) Assessed by a Reverse Transcription and Polymerase Chain Reaction (RT-PCR)-based Amplification.

14. Toyoda,K., Hikichi,Y., Takeuchi,S., Okumura,A., Nasu,Y., Okuno,T. and Suzuki,K.

15. Scientific Reports of the Faculty of Agriculture, Okayama University, 93, 29-32.

2003

1. Dissection of cauliflower mosaic virus trans- activator/viroplasmin reveals distinct essential functions in basic virus replication.

2. Kobayashi, K. and Hohn T.

3. J. Virol., 77, 8577-8583. [link to Pubmed]

4. ソラマメウィルトウイルス2の22-kDa外皮タンパク質に対するモノクローナル抗体の作成とその性状．

5. 黒田智久，鈴木一実．

6. 日本植物病理学会報．69, 403-406. [Abstract]

7. Screening and Field Trials of Virus Resistant Sources in Capsicum spp.

8. Suzuki,K., Kuroda,T., Miura,Y. and Murai,J.

9. Plant Disease, 87, 779-783. [Abstract]

2002

1. Multiplex Reverse Transcription Polemerase Chain Reaction for Simultaneous Detection of Viruses in Gentian.

2. Kuroda,T., Urushibara,S., Takeda,I., Nakatani,F. and Suzuki,K.

3. J. Gen. Plant Pathol., 68, 169-172. [Abstract]

2001

1. Production of Antimicrobial Defensin in Nicotiana benthamiana with a Potato Virus X Vector.

2. Saitoh,H., Kiba,A., Nishihara,M., Yamamura,S., Suzuki,K. and Terauchi,R.

3. Mol. Plant-Microbe Interact., 14, 111-115. [link to Pubmed]

2000

1. Nucleotide Sequence and Synthesis of Infectious RNA from Cloned cDNA of Broad Bean Wilt Virus 2 RNA 2.

2. Kuroda,T., Okumura,A., Takeda,I., Miura,Y. and Suzuki,K.

3. Arch. Virol., 145, 787-793. [link to Pubmed]

1999

1. The Behavior of Lux-marked Ralstonia solanacearum in Grafted Tomato Cultivars Resistant or Susceptible to Bacterial Wilt.

2. Hikichi,Y., Nakazawa-Nasu,Y., Kitanosono,S., Suzuki,K. and Okuno,T.

3. Ann. Phytopathol. Soc. Jpn., 65, 597-603. [Abstract]

4. トマト黄化えそウイルス(TSWV)によるトルコギキョウ(Eustoma grandiflorum (Raf.) Shinn.)黄化えそ病．

5. 黒田智久，勝部和則，鈴木一実．

6. 日本植物病理学会報．65, 490-493. [Abstract]

7. Detection of Tomato Spotted Wilt Virus (TSWV) Using the Reverse Transcription Polymerase Chain Reaction (RT-PCR).

8. Kuroda, T., Takeda, I. and Suzuki, K.

9. Ann. Rept. Plant Prot. North Japan. (in Japanese)

10. A New Method for the Selection of Tomato Plants Resistant to Bacterial Wilt Using Bioluminescence from lux-marked Ralstonia solanacearum.

11. Nakazawa-Nasu,Y., Kitanosono,S., Suzuki,K., Hikichi,Y. and Okuno,T.

12. Ann. Phytopathol. Soc. Jpn., 65, 470-474. [Abstract]

13. Detection of Ralstonia solanacearum Using Tissue Printing Immunoassay.

14. Nakazawa-Nasu,Y., Kitanosono,S., Hasegawa,H., Okunoya,K., Yaegaki,F., Suzuki,K., Hikichi,Y. and Okuno,T.

15. Ann. Phytopathol. Soc. Jpn., 65, 549-552. [Abstract]

16. Behavior of Bioluminescent Transconjugants of Xanthomonas oryzae pv. oryzae in Compatible and Incompatible Rice Leaves.

17. Tsuge,S., Ikawa,Y., Hikichi,Y., Nakazawa-Nasu,Y., Suzuki,K., Kubo,Y. and Horino,O.

18. Ann. Phytopathol. Soc. Jpn., 65, 93-99. [Abstract]