分子化学生物学専攻 :



准教授 菅野(塩月)明
キャンパス 片平 キャンパス
所属研究室 植物分子育種
連絡先 022-217-5725
E-mail kanno@ige.tohoku.ac.jp
ホームページ http://www.ige.tohoku.ac.jp/prg/kanno/index.html
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平成4年4月 日本学術振興会特別研究員(PD)
平成5年2月 東北大学遺伝生態研究センター教務職員
平成5年6月 東北大学遺伝生態研究センター助手
平成9年8月〜平成11年7月 日本学術振興会海外特別研究員(派遣先:ドイツ国マックスプランク植物育種研究所)
平成11年2月 東北大学遺伝生態研究センター助教授
平成13年4月 東北大学大学院生命科学研究科助教授
平成19年4月 東北大学大学院生命科学研究科准教授
  1. Abdelrahman et al. (2020). Comparative metabolome andtranscriptome analyses of susceptible Asparagus officinalis andresistant wild A. kiusianus revealed insights into stem blight diseaseresistance. Plant and Cell Physiology 61:1464-1476.
  2. Sangin et al. (2020) Isolation of an AGAMOUS homolog fromZamia muricata. Songklanakarin Journal of Science and Technology 42:365-370.
  3. Mitoma et al. (2019) Molecular mechanism underlyingpseudopeloria in Habenaria radiata (Orchidaceae). The Plant Journal99:439-451.
  4. Miura et al. (2019) Expression and functional analyses of fiveB-class genes in grape hyacinth (Muscari armeniacum). The HorticultureJournal 88:284-292.
  5. Mitoma et al. (2018) A new DNA marker for sex identificationin purple asparagus. Euphytica 214:154.
  6. Mitoma and Kanno (2018) The greenish flower phenotype ofHabenaria radiata (Orchidaceae) is caused by a mutation in theSEPALLATA-like MADS-box gene HrSEP-1. Frontiers in Plant Science 9:831.
  7. Takeuchi et al. (2018). Features in stem blight resistanceconfirmed in interspecific hybrids of Asparagus officinalis L. andAsparagus kiusianus Makino. The Horticulture Journal 87:200-205.
  8. Harkess et al. (2017) The asparagus genome sheds light on theorigin and evolution of a young Y chromosome. Nature Communications 8:1279.
  9. Kanno et al. (2017) A method for sex identification inasparagus using DNA from seeds. Euphytica 213:223.
  10. Abdelrahman et al. (2017) Comparativede novo transcriptomeprofiles in Asparagus officinalis and A. kiusianus during the earlystage of Phomopsis asparagi infection. Scientific Reports 7:2608.
  11. Murase et al. (2017) A MYB transcription factor gene involvedin sex determination in Asparagus officinalis. Genes to Cells 22:115-123.
  12. Komai et al. (2016) Precocious in-vitro flowering ofperennial asparagus (Asparagus officinalis L.) regenerants with achemical inducer. American Journal of Plant Sciences 7:1834-1845.
  13. Otani et al. (2016) Suppression of B function stronglysupports the modified ABCE model in Tricyrtis sp. (Liliaceae).Scientific Reports 6:24549.
  14. Kubota and Kanno (2015) Analysis of the floral MADS-box genesfrom monocotyledonous Trilliaceae species indicates the involvement ofSEPALLATA3-like genes in sepal-petal differentiation. Plant Science241:266-276
  15. Sharifi et al. (2015) Double flower formation in Tricyrtismacranthopsis is related to low expression of AGAMOUS ortholog gene.Scientia Horticulturae 193:337-345.
  16. Mizunoe et al. (2015) Morphological variation andAGAMOUS-like gene expression in double flowers of Cyclamen persicumMill. The Horticulture Journal 84:140-147.
  17. Hoshino et al. (2014) Characterization of CYCLOIDEA-likegenes in controlling floral zygomorphy in the monocotyledonAlstroemeria. Scientia Horticulturae 169:6-13.
  18. Kanno et al. (2014) Conversion of a male-specific RAPD markerinto an STS marker in Asparagus officinalis L. Euphytica 197:39-46.

日本育種学会、日本園芸学会、日本植物生理学会、日本植物学会、 国際園芸学会