| 1. |
Sada, A, Stem Cell Lineages of the Interfollicular Epidermis., Gordon Research Conference, Tissue Niches & Resident Stem Cells in Adult Epithelia, 2016.08. |
| 2. |
Sada, A, Defining the stem cell lineages in adult skin epidermis., RIKEN CDB seminar, 2016.06. |
| 3. |
Sada, A, Jacob, F, Leung, E, Wang, S, White, BS, Shalloway, D, Tumbar, T, Defining the stem cell lineages in the mouse inter-follicular epidermis, 第27回CDB Meeting, 2016.11. |
| 4. |
Sada, A, Jacob, F, Leung, E, Wang, S, White, BS, Shalloway, D, Tumbar, T, Defining the stem cell lineages in the mouse inter-follicular epidermis, 第39回日本分子生物学会年会, 2016.11. |
| 5. |
Sada, A, Jacob, F, Leung, E, Wang, S, White, BS, Shalloway, D, Tumbar, T, Defining the stem cell lineages in the mouse inter-follicular epidermis, 日本研究皮膚科学会 第41回年次学術大会・総会, 2016.12. |
| 6. |
細胞分裂頻度の違いに着眼したマウス表皮幹細胞の同定. |
| 7. |
マウス表皮幹細胞を規定する分子マーカーの同定と制御メカニズムの解明. |
| 8. |
マウス表皮幹細胞の同定と制御メカニズムの解明. |
| 9. |
Sada, A, Defining the stem cell lineages in the mouse inter-follicular epidermis, The 15th Stem Cell Research Symposium, 2017.05. |
| 10. |
表皮幹細胞の発生、恒常性維持、老化メカニズムの解明. |
| 11. |
表皮における幹細胞ダイナミクス. |
| 12. |
眼表面上皮における幹細胞ダイナミクス解析. |
| 13. |
皮膚恒常性維持と損傷治癒を担う幹細胞の同定:細胞分裂頻度の違いに着眼して. |
| 14. |
皮膚の再生を担う幹細胞ダイナミクス~発生から老化まで~. |
| 15. |
Changarathil, G, Ramirez, K, Isoda, H, Sada, A, Yanagisawa, H, Wild-type and SAMP8 Mice Show Age-Dependent Changes in Distinct Stem Cell Compartments of the Interfollicular Epidermis, 9th Symposium of Indian Scientists Association In Japan (ISAJ), 2018.12. |
| 16. |
Ghuwalewala, S, Sada, A, Leung, E, Tumbar, T, Slc1a3 is expressed in a subset of the heterogeneous stem cell population within the inter follicular epidermis in mouse and human skin, Gordon Research Conference on Tissue Niches and Resident Stem Cells in Adult Epithelia, 2018.08. |
| 17. |
Oinam, L, Changarathil, G, Tsunezumi, J, Yanagisawa, H, Sada, A, Maintenance of heterogeneous epidermal stem cell populations by the distinct niche, Gordon Research Conference on Tissue Niches and Resident Stem Cells in Adult Epithelia, 2018.08. |
| 18. |
Oinam, L, Changarathil, G, Kawazoe, K, Tateno, H, Sada, A, Yanagisawa, H, Differential surface protein modifications during epidermal stem cell aging, Tsukuba Global Science Week (TGSW) 2018, 2018.09. |
| 19. |
Oinam, L, Sada, A, Changarathil, G, Kawazoe, K, Yanagisawa, H, Tateno, H, Differential surface protein modifications during epidermal stem cell aging, 10th Asian Community of Glycoscience and Glycotechnology Conference, 2018.11. |
| 20. |
Oinam, L, Changarathil, G, Kawazoe, K, Tateno, H, Yanagisawa, H, Sada, A, Differential surface protein modifications during epidermal stem cell aging, 第41回日本分子生物学会年会, 2018.11. |
| 21. |
Oinam, L, Sada, A, Changarathil, G, Kawazoe, K, Yanagisawa, H, Tateno, H, Differential surface protein modifications during epidermal stem cell aging, 9th Symposium of Indian Scientists Association In Japan (ISAJ), 2018.12. |
| 22. |
Sada, A, Defining the stem cell lineages in adult skin epidermis, CDB Symposium 2018, 2018.03. |
| 23. |
表皮の再生と老化を担う幹細胞ダイナミクス. |
| 24. |
Stem cells and glycans. |
| 25. |
Stem cell dynamics in the mouse skin epidermis. |
| 26. |
Changarathil, G, Ramirez, K, Isoda, H, Yanagisawa, H, Sada, A, Wild-type and SAMP8 mice show age-dependent changes in distinct stem cell compartments of the interfollicular epidermis, Gordon Research Conference, Epithelial Differentiation and Keratinization, 2019.07. |
| 27. |
Sada, A, Maintenance of heterogeneous epidermal stem cell populations by the distinct niche, Japan-Singapore International Skin Conference 2019, 2019.04. |
| 28. |
Maintenance of heterogeneous epidermal stem cell populations by the distinct niche. |
| 29. |
Oinam, L, Changarathil, G, Tsunezumi, J, Yanagisawa, H, Sada, A, Maintenance of heterogeneous epidermal stem cell populations by the distinct niche, Gordon Research Conference, Epithelial Differentiation and Keratinization, 2019.07. |
| 30. |
佐田 亜衣子, Elucidating the cellular and molecular regulation of epidermal stem cell dynamics: from homeostasis to aging, KU-KAIST Joint Symposium, 2019.11. |
| 31. |
Oinam, L, Changarathil, G, Kawazoe, K, Tateno, H, Sada, A, Yanagisawa, H, Differential surface protein modifications during epidermal stem cell aging, The 19th International Joint Mini-Symposium on Molecular and Cell Biology, 2019.05. |
| 32. |
Lalhaba Oinam, Gopakumar Changarathil, Yen Xuan Ngo, Hiroaki Tateno, Hiromi Yanagisawa, Aiko Sada, Differential glycosylation patterns during epidermal stem cell aging, Cold Spring Harbor Laboratory Meeting, Stem cell biology, 2019.09. |
| 33. |
Differential glycosylation patterns during epidermal stem cell aging. |
| 34. |
Karina Ramirez, Nguyen Vu Tram Anh, Yoshito Yamashiro, Aiko Sada, Hiromi Yanagisawa, Contribution of PDGFRα-positive cell populations during vascular remodeling, 第3回日本循環器学会基礎研究フォーラム, 2019.09. |
| 35. |
Protein glycosylation changes in epidermal stem cell aging. |
| 36. |
Defining heterogeneous stem cell populations in oral and eye surface epithelia. |
| 37. |
The role of Fibulin-7 in the maintenance of mouse skin epidermal stem cells. |
| 38. |
Skin stem cells shuffle sugars as they age: Glycome profiling reveals dynamic glycan alterations during epidermal stem cell aging. |
| 39. |
Science, Career, and the Future. |
| 40. |
Aiko Sada, Elucidating the cellular and molecular mechanisms of epidermal stem cell aging, ISSCR/JSRM 2021 Tokyo International Symposium, 2021.10. |
| 41. |
Proliferative heterogeneity of epidermal stem cell populations underlying skin regeneration and aging. |
| 42. |
Aiko Sada, Loss of matrix integrity underlies age-dependent impairment of epidermal stem cell heterogeneity, 日本発生生物学会第55回大会, 2022.05. |
| 43. |
Aiko Sada, Elucidating the cellular and molecular mechanisms of skin regeneration and aging, CiRAリトリート2021 ミニシンポジウム, 2022.01. |
