Publications

this year

2009

  1. High-density integrated linkage map based on SSR markers in soybean.
    Hwang TY, Sayama T, Takahashi M, Takada Y, Nakamoto Y, Funatsuki H, Hisano H, Sasamoto S, Sato S, Tabata S, Kono I, Hoshi M, Hanawa M, Yano C, Xia Z, Harada K, Kitamura K, Ishimoto M. (2009)
    DNA Research 16: 213-25.

  2. Host plant genome overcomes the lack of a bacterial gene for symbiotic nitrogen fixation.
    Hakoyama T, Niimi K, Watanabe H, Tabata R, Matsubara J, Sato S, Nakamura Y, Tabata S, Jichun L, Matsumoto T, Tatsumi K, Nomura M, Tajima S, Ishizaka M, Yano K, Imaizumi-Anraku H, Kawaguchi M, Kouchi H, Suganuma N. (2009)
    Nature 462: 514-7.

  3. Identification of Arabidopsis subtilisin-like serine protease specifically expressed in root stele by gene trapping.
    Kuroha T, Okuda A, Arai M, Komatsu Y, Sato S, Kato T, Tabata S, Satoh S. (2009)
    Physiol Plant. 137: 81-8.

  4. Conservation of Lotus and Arabidopsis basic helixloop-helix proteins reveals new players in root hair development.
    Karas B, Amyot L, Johansen C, Sato S, Tabata S, Kawaguchi M, Szczyglowski K. (2009)
    Plant Physiol. 151: 1175-85.

  5. Development of a Bacterial Cell Enrichment Method and its Application to the Community Analysis in Soybean Stems.
    Ikeda S, Kaneko T, Okubo T, Rallos LE, Eda S, Mitsui H, Sato S, Nakamura Y, Tabata S, Minamisawa K. (2009)
    Microb Ecol. 58: 703-14.

  6. Dissection of symbiosis and organ development by integrated transcriptome analysis of lotus japonicus mutant and wild-type plants.
    Hogslund N, Radutoiu S, Krusell L, Voroshilova V, Hannah MA, Goffard N, Sanchez DH, Lippold F, Ott T, Sato S, Tabata S, Liboriussen P, Lohmann GV, Schauser L, Weiller GF, Udvardi MK, Stougaard J. (2009)
    PLoS One 4: e6556.

  7. CERBERUS, a novel U-box protein containing WD-40 repeats, is required for formation of the infection thread and nodule development in the legume-Rhizobium symbiosis.
    Yano K, Shibata S, Chen WL, Sato S, Kaneko T, Jurkiewicz A, Sandal N, Banba M, Imaizumi-Anraku H, Kojima T, Ohtomo R, Szczyglowski K, Stougaard J, Tabata S, Hayashi M, Kouchi H, Umehara Y. (2009)
    Plant J. 60: 168-80.

  8. Map-based cloning of the gene associated with the soybean maturity locus E3.
    Watanabe S, Hideshima R, Xia Z, Tsubokura Y, Sato S, Nakamoto Y, Yamanaka N, Takahashi R, Ishimoto M, Anai T, Tabata S, Harada K. (2009)
    Genetics 182: 1251-62.

  9. A cytosolic invertase is required for normal growth and cell development in the model legume, Lotus japonicus.
    Welham T, Pike J, Horst I, Flemetakis E, Katinakis P, Kaneko T, Sato S, Tabata S, Perry J, Parniske M, Wang TL. (2009)
    J Exp Bot. 60: 3353-65.

  10. ChlH, the H subunit of the Mg-chelatase, is an anti-sigma factor for SigE in Synechocystis sp. PCC 6803.
    Osanai T, Imashimizu M, Seki A, Sato S, Tabata S, Imamura S, Asayama M, Ikeuchi M, Tanaka K. (2009)
    Proc Natl Acad Sci USA 106: 6860-5.

  11. Too much love, a root regulator associated with the long-distance control of nodulation in Lotus japonicus.
    Magori S, Oka-Kira E, Shibata S, Umehara Y, Kouchi H, Hase Y, Tanaka A, Sato S, Tabata S, Kawaguchi M. (2009)
    Mol Plant Microbe Interact. 22: 259-68.

  12. Apoplastic plant subtilases support arbuscular myco rrhiza development in Lotus japonicus.
    Takeda N, Sato S, Asamizu E, Tabata S, Parniske M. (2009)
    Plant J. 58: 766-77.

  13. The temperature-sensitive brush mutant of the legume Lotus japonicus reveals a link between root development and nodule infection by rhizobia.
    Maekawa-Yoshikawa M, Muller J, Takeda N, Maekawa T, Sato S, Tabata S, Perry J, Wang TL, Groth M, Brachmann A, Parniske M. (2009)
    Plant Physiol. 149: 1785-96.

  14. An analysis of synteny of Arachis with Lotus and Medicago sheds new light on the structure, stability and evolution of legume genomes.
    Bertioli DJ, Moretzsohn MC, Madsen LH, Sandal N, Leal-Bertioli SC, Guimaraes PM, Hougaard BK, Fredslund J, Schauser L, Nielsen AM, Sato S, Tabata S, Cannon SB, Stougaard J. (2009)
    BMC Genomics 10: 45.

  15. Rearrangement of actin cytoskeleton mediates invasion of Lotus japonicus roots by Mesorhizobium loti.
    Yokota K, Fukai E, Madsen LH, Jurkiewicz A, Rueda P, Radutoiu S, Held M, Hossain MS, Szczyglowski K, Morieri G, Oldroyd GE, Downie JA, Nielsen MW, Rusek AM, Sato S, Tabata S, James EK, Oyaizu H, Sandal N, Stougaard J. (2009)
    Plant Cell 21: 267-84.

  16. The proteome of seed development in the model legume Lotus japonicus.
    Dam S, Laursen BS, Ornfelt JH, Jochimsen B, Staerfeldt HH, Friis C, Nielsen K, Goffard N, Besenbacher S, Krusell L, Sato S, Tabata S, Thogersen IB, Enghild JJ, Stougaard J. (2009)
    Plant Physiol. 149: 1325-40.

  17. Nod factor/nitrate-induced CLE genes that drive HAR1-mediated systemic regulation of nodulation.
    Okamoto S, Ohnishi E, Sato S, Takahashi H, Nakazono M, Tabata S, Kawaguchi M. (2009)
    Plant Cell Physiol. 50: 67-77.

  18. The glutathione peroxidase gene family of Lotus japonicus: characterization of genomic clones, expression analyses and immunolocalization in legumes.
    Ramos J, Matamoros MA, Naya L, James EK, Rouhier N, Sato S, Tabata S, Becana M. (2009)
    New Phytol. 181: 103-14.

  19. Genomic comparison of Bradyrhizobium japonicum strains with different symbiotic nitrogen-fixing capabilities and other Bradyrhizobiaceae members.
    Itakura M, Saeki K, Omori H, Yokoyama T, Kaneko T, Tabata S, Ohwada T, Tajima S, Uchiumi T, Honnma K, Fujita K, Iwata H, Saeki Y, Hara Y, Ikeda S, Eda S, Mitsui H, Minamisawa K. (2009)
    ISME J. 3: 326-39