研究業績

 

総説

  • [16] 有泉亨,伊藤康博,三浦謙治,江面 浩:ゲノム編集技術のトマトへの応用・Application of genome editing technologies to tomato. アグリバイオ創刊号 2017年1月号
  • [15] Okabe Y & Ariizumi T: Mutant resources and TILLING platforms in tomato research. In: Ezura H, Ariizumi T, Garcia-Mas J, Rose J, ed. Functional Genomics and Biotechnology in Solanaceae and Cucurbitaceae Crops. Springer.
  • [14] Shibata C, Hiwasa-Tanase K, Ariizumi, T & Ezura H: Single nucleotide polymerphism in genes accounting for ethylene biosynthesis and peception in melon varieties and its functional validation. Cucrbitaceae 2014, (Proceedings)
  • [13] Just D, Garcia V, Ferrand C, Bres C, Mauxion JP, Petit J, Jorly J, Assali J, Boumonville, Ferrand C, Baldet P, Lemaire-Chamley M, Mori K, Okabe Y, Ariizumi T, Asamizu E, Ezura H, Rothan C (2013) Micro-Tom mutants for functional analysis of target genes and discovery of new alleles in tomato. Plant Biotechnology, 30, 225-231, 2013 [link]
  • [12] 篠崎良仁・有泉亨 「人工ヌクレアーセを利用したゲノム編集技術・新しい植物育種技術を理解しよう。江面浩・大澤良 著」NBT-new breeding techniques-国際文献社 p17-30, 2013
  • [11] Ariizumi T, Shinozaki Y & Ezura H: Genes that influence yield in tomato.  Breeding Sciences, 63, 3-13, 2013 [link] (On the Cover)
  • [10] Okabe Y, Ariizumi T & Ezura H:  Update of Micro-Tom TILLING platform. Breeding Sciences, 63, 14-20, 2013 [link]
  • [9] Hauverale AL, Ariizumi T & Steber CM: Update on gibberellin signaling: A theme and variations on DELLA repression. Plant Physiology, 160, 83-92, 2012 [link]
  • [8] Ariizumi T, Aoki K & Ezura H: Systematic development of tomato bioresources in Japan.  Interdisciplinary Bio Central, 1, 1-6, 2011 [link]
  • [7] 有泉 亨, 江面 浩:ナショナルバイオリソースプロジェクト・トマト(NBRPトマト)・研究を支えるバイオリソースの整備
    化学と生物 2011年・2月号 (On the Cover)
  • [6] Ariizumi T* & Toriyama K*: Genetic regulation of sporopollenin synthesis and pollen exine development. Annual Review of Plant Biology 62:437-60, 2011, *Corresponding author [link]
  • [5] Finkelstein R*, Reeves W*, Ariizumi T* & Steber CM*: Molecular aspects of seed dormancy. Annual Review of Plant Biology 59, 387–415, 2008, *Corresponding author [link]
  • [4] 有泉 亨, 鳥山欽哉:遺伝子工学的手法を用いた雄性不稔作出技術と一代雑種作出法, Hybrid Seed Production using Genetically Engineered Male Sterile Plants.育種学研究、9, 13-20, 2007 (On the Cover)
  • [3] Ariizumi T & Toriyama K: Pollen exine pattern formation is dependent on three major developmental processes in Arabidopsis thaliana. International Journal of Plant Developmental Biology 1, 106-115, 2007 [link]
  • [2] Ariizumi T, & Steber CM: Ubiquitin becomes ubiquitious in GA signaling. Plant Physiology, Fourth Edition by Lincoln Taiz and Eduardo Zeiger出版: Chaper 20, Gibberellins: Regulators of Plant Height, Essay 20.3 (2006) [link]
  • [1] 有泉 亨, 鳥山欽哉:シロイヌナズナの核遺伝子雄性不稔における研究の現状と応用への展望, Recent studies of the nuclear-encoded male-sterility genes and prospect of its application to plant breeding. 育種学研究、6, 195-203, 2004