学会誌等における誌上発表

原著論文

  1. Evaluation of photoreceptor-directed fibroblasts derived from retinitis pigmentosa patients with defects in the EYS gene - a possible cost-effective cellular model for mechanism-oriented drug.  
    Rai D, Iwanami M, Takahashi Y, Komuta Y, Aoi N, Umezawa A, Seko Y. 
    Stem Cell Res Ther, in press
  2. eys+/-; lrp5+/- zebrafish reveals Lrp5 can be the receptor of retinol in the visual cycle.
    Takita S, Seko Y. 
    iScience 23, 101762, 2020
  3. Five major sequence variants and copy number variants in the EYES gene account for one-third of Japanese patients with autosomal recessive and simplex retinitis pigmentosa.
    Iwanami M, Oishi A, Ogino K, Seko Y, Nishida-Shimizu T, Yoshimura N, and Kato S.
    Mol. Vis, 25:766-779,2019
  4. Intra- and interspecies comparison of EYS transcripts highlights its characteristics in the eye.
    Takita S, Miyamoto-Matsui K, Seko Y.
    FASEB J. Aug;33(8):9422-9433,2019
  5. The manner of decay of genetically defective EYS gene transcripts in photoreceptor-directed fibroblasts derived from retinitis pigmentosa patients depends on the type of mutation.
    Seko Y, Iwanami M, Miyamoto-Matsui K, Takita S, Aoi N, Umezawa A, Kato S.
    Stem Cell Res Ther, 25;9(1):279,2018
  6. Variation in the phenotype of photosensitive cells produced from human fibroblast cell lines.
    Ishii T, Yin C, Seko Y, Umezawa A, Kaneda M.
    J Nippon Med Sch,85(2):110-116, 2018
  7. Violet light exposure can be a preventive strategy against myopia progression.
    Torii H, Kurihara T, Seko Y, Negishi K, Ohnuma K, Inaba T, Kawashima M, Jiang X, Kondo S, Miyauchi M, Miwa Y, Katada Y, Mori K, Tsubota K, Goto H, Oda M, Hatori M, Tsubota K.
    EBioMedicine, Feb; 15: 210-219, 2017
  8. In vitro transdifferentiation of human peripheral blood mononuclear cells to photoreceptor-like cells.
    Komuta Y, Ishii T, Kaneda M, Ueda Y, Miyamoto K, Toyoda M, Umezawa A, Seko Y,
    Biology Open, 5: 709-719, 2016
  9. Anteroposterior Patterning of Gene Expression in the Human Infant Sclera: Chondrogenic Potential and Wnt Signaling.
    Seko Y, Azuma N, Yokoi T, Kami D, Ishii R, Nishina S, Toyoda M, Shimokawa H, Umezawa A.
    Cur Eye Res, Jun 23: 1-10, 2016
  10. Derivation of human differential photoreceptor cells from adult human dermal fibroblasts by defined combinations of CRX, RAX, OTX2 and NEUROD.
    Seko Y, Azuma N, Ishii T, Komuta Y, Miyamoto K, Miyagawa Y, Kaneda M, Umezawa A.
    Genes Cells 19: 198-208, 2014
  11. Derivation of human differential photoreceptor-like cells from the iris by defined combinations of CRX, RX and NEUROD.
    Seko Y, Azuma N, Kaneda M, Nakatani K, Miyagawa Y, Noshiro Y, Kurokawa R, Okano H, Umezawa A.
    PLoS ONE 7: e35611. Epub, 2012
  12. Establishment of functioning human corneal endothelial cell line with high growth potential.
    Yokoi T, Seko Y, Yokoi T, Makino H, Hatou S, Yamada M, Kiyono T, Umezawa A, Nishina H, Azuma N.
    PLoS ONE 7: e29677. Epub, 2012

著書

  1. 近視の動物研究.
    世古裕子
    小児の近視 診断と治療(編集:日本近視学会、日本小児眼科学会、日本視能訓練士協会), 
    三輪書店, p239-244, 2019年
  2. サイエンティフィック・クエスチョン 実験近視研究の進歩について教えてください, .
    世古裕子
    眼科診療 クオリファイ28 近視の病態とマネジメント(編集:大野京子), 中山書店, p56-59, 2016年
  3. 線維芽細胞 → 視細胞.
    世古裕子, 梅澤明弘,
    細胞工学 別冊ハンドブック ダイレクトリプログラミング(監修:鈴木淳史), 学研メディカル秀潤社, p78-86, 2015年
  4. 変性近視, 疾患別のロービジョンケア, .
    世古裕子, 西田朋美,
    眼科診療 クオリファイ26 ロービジョンケアの実際(編集:山本修一), 中山書店, p197-204, 2015年
  5. 実験近視.
    世古裕子
    近視-基礎と臨床-, 金原出版, p179-205, 2012年