| Seiichi Sakamoto | Last modified date:2024.04.18 |
Associate Professor /
Department of Pharmaceutical Health Care and Sciences /
Department of Pharmaceutical Health Care and Sciences /
Faculty of Pharmaceutical Sciences
Papers
| 1. | Noguchi K., Imahori D., Nishiura R., Nuntawong P., Putalun W., Tanaka H., Morimoto S., Sakamoto S.*, Advanced quality assessment of Sanshishi (Gardenia jasminoides Ellis) and Kampo medicines using a monoclonal antibody against geniposide., Fitoterapia, 174, 105829, 2024.04. |
| 2. | Ochi A.†, Nuntawong P.†, Chaingam J., Ota T., Juengwatanatrakul T., Putalun W., Shoyama Y., Tanaka H., Morimoto S., Sakamoto S., Simultaneous rapid detection of glycyrrhizin and sennoside A in Daiokanzoto samples by lateral flow immunoassay., Phytochemical Analysis, in press, 2024.03. |
| 3. | Ochi A.†, Fujii S.†, Ohta T., Uto T., Nuntawong P., Tanaka H., Morimoto S., Sakamoto S., Highly sensitive indirect competitive enzyme-linked immunosorbent assay based on a monoclonal antibody against saikosaponin b2 for quality control of Kampo medicines containing Bupleuri radix, Journal of Natural Medicines, 78, 1, 160-168, 2024.01. |
| 4. | Noguchi K., Imahori D., Kido Y., Nuntawong P., Tanaka H., Morimoto S., Sakamoto S., Quality assessment method for Chinpi, dried Citrus spp. peel and its derived Kampo medicines using specific monoclonal antibody against hesperidin, Phytochemical Analysis, 34, 6, 652-660, 2023.08. |
| 5. | Juengsanguanpornsuk W., Poopanee N., Krittanai S., Sakamoto S., Tanaka H., Putalun W., Yusakul G., Immunoaffinity separation of miroestrol and deoxymiroestrol from Pueraria candollei var. mirifica (Airy Shaw & Suvat.) Niyomdham using fragment antigen-binding antibody produced via Escherichia coli, Phytochemical Analysis, 34, 6, 632-640, 2023.08. |
| 6. | Yusakul G., Thammakhet-Buranachai C., Poorahong S., Sakamoto S., Makkliang F., An eco-friendly method using deep eutectic solvents immobilized in a microcrystal cellulose-polyvinyl alcohol sponge for parabens analysis in food sample, Microchemical Journal, 191, 108758, 2023.08. |
| 7. | Krittanai S., Choonong R., Butdapheng K., Jabsanthia J., Sakamoto S., Putalun W., Construction of a monoclonal antibody against glabridin (2G4) and development of an enzyme-linked immunosorbent assay, Phytochemical Analysis, 34, 5, 571-579, 2023.07. |
| 8. | Sae-Foo W., Yusakul G., Kitisripanya T., Nuntawong P., Sakamoto S., Putalun W., Comparative stability and analytical performance of anti-miroestrol recombinant antibody in different cassettes, Applied Microbiology and Biotechnology, 107, 9, 2887-2896, 2023.05. |
| 9. | Chuphol N., Nokkaew N., Makkliang F., Sae-Foo W., Phaisan S., Putalun W., Sakamoto S., Yusakul G., Immunochromatographic assay for miroestrol and deoxymiroestrol, its cross-reactivity, and application in Pueraria mirifica (white Kwao Krua) analysis, Phytochemical Analysis, 34, 4, 421-430, 2023.06. |
| 10. | Sakdamas A., Makkliang F., Putalun W., Juengwatanatrakul T., Kanchanapoom T., Sakamoto S., Yusakul G., Analysis of canthin-6-one alkaloids derived from Eurycoma spp. by micellar liquid chromatography and conventional high-performance liquid chromatography: a comparative evaluation, RSC Advances, https://doi.org/10.1039/D2RA07034K, 13, 9, 6317-6326, 2023.02, [URL].  |
| 11. | Sakamoto S., Minami K., Nuntawong P., Yusakul G., Putalun W., Tanaka H., Fujii S., Morimoto S., Bioimprinting as a receptor for detection of kwakhurin, Biomolecules, 12, 8, 1064, 2022.10. |
| 12. | Juengsanguanpornsuk W., Kitisripanya T., Boonsnongcheep P., Yusakul G., Srisongkram T., Sakamoto S., Putalun W., Improvement in the binding specificity of anti-isomiroestrol antibodies by expression as fragments under oxidizing conditions inside the SHuffle T7 E. coli cytoplasm, Bioscience, Biochemistry, and Biotechnology, 86, 10, 1368-1377, 2022.10. |
| 13. | Kongpol K., Sermkaew N., Makkliange F., Khongphan S., Chuaboon L., Sakdamas A., Sakamoto S., Putalun W., Yusakul G., Extraction of curcuminoids and ar-turmerone from turmeric (Curcuma longa L.) using hydrophobic deep eutectic solvents (HDESs) and application as HDES-based microemulsions, Food Chemistry, 396, 133728, 2022.10. |
| 14. | Nuntawong P., Horikawa T., Tanaka H., Morimoto S., Sakamoto S., Activated carbon-based immunochromatographic strip test for the rapid qualitative analysis of swertiamarin and sweroside, Journal of AOAC International, 105, 5, 1460-1467, 2022.09. |
| 15. | Krittanai S., Pichetpongtorn P., Sakamoto S., Putalun W., Monoclonal antibody-based immunoassay for specific quantification of licochalcone A: an active chalcone in licorice, Food and Agricultural Immunology, 33, 1, 220-234, 2022.04. |
| 16. | Ochi A., Yoritate M., Miyamoto T., Usui K., Yusakul G., Putalun W., Tanaka H., Hirai G., Morimoto S., Sakamoto S., Harringtonine ester derivatives with enhanced antiproliferative activities against HL-60 and Hela cells, Journal of Natural Products, 85, 2, 345-351, 2022.05. |
| 17. | Makkliang F., Juengsanguanpornsuk W., Phaisan S., Sakdamas A., Putalun W., Sakamoto S., Yusakul G., Transformation of Pueraria candollei var. mirifica phytoestrogens using immobilized and free β-glucosidase, a technique for enhancing estrogenic activity, RSC Advances, 11, 32067-32076, 2021.11. |
| 18. | Makkliang F., Siriwarin B., Yusakul G., Phaisan S., Sakdamas A., Chuphol N., Putalun W., Sakamoto S., Biocompatible natural deep eutectic solvent-based extraction and cellulolytic enzymes mediated transformation of Pueraria mirifica isoflavones, a sustainable approach for increasing health-bioactive constituents, Bioresources and Bioprocessing , 8, 1, 76, 2021.08. |
| 19. | Sakamoto S., Uchiyama H., Yusakul G., Kyokong N., Pongkitwitoon B., Putalun W., Tanaka H., Morimoto S., Open sandwich fluorescence-linked immunosorbent assay for detection of soy isoflavone glycosides, Food Chemistry, 361, 129829, 2021.11. |
| 20. | Sae-Foo W., Krittanai S., Juengsanguanpornsuk W., Yusakul G., Kitisripanya T., Sakamoto S., Putalun W., Enzyme-linked immunosorbent assay using fragment antigen-binding (Fab) antibody for determination of deoxymiroestrol, a potent phytoestrogen from Pueraria candollei, Food and Agricultural Immunology, 32, 1, 336-348, 2021.07. |
| 21. | Sae-Foo W., Krittanai S., Juengsanguanpornsuk W., Yusakul G., Sakamoto S., Putalun W., Fragment antigen-binding (Fab) antibody-based lateral flow immunoassay for rapid and sensitive detection of potent phytoestrogen, deoxymiroestrol, Journal of Natural Medicines, 75, 4, 1043-1049, 2021.07. |
| 22. | Krittanai S., Buraphaka H., Sakamoto S., Putalun W., Enhancement of nutraceutical property in licorice callus cultures using sample pretreatment strategy, International Journal of Food Science and Technology, 56, 11, 5843-5852, 2021.06. |
| 23. | Phaisan S., Makkliang F., Putalun W., Sakamoto S., Yusakul G., Development of a colorless Centella asiatica extract using a natural deep eutectic solvent (NADES) and microwave-assisted extraction (MAE) optimized by response surface methodology, RSC Advances, 11, 8741-8750, 2021.03. |
| 24. | Sakamoto S.*, Morita Y.*, Yusakul G., Putalun W., Tanaka H., Morimoto S., Molecular cloning and characterization of type III polyketide synthase from Plumbago zeylanica, Journanl of Asian Natural Products Research, 23, 5, 478-490, 2021.05. |
| 25. | Rattanapisit K., Kitisripanya T., Konyanee A., Sae-Foo W., Burapapiruin A., Putalun W., Sakamoto S., Phoolcharoen W., Yusakul G., Plant-made antibody against miroestrol: A new platform for expression of full-length immunoglobulin G against small-molecule targets in immunoassays, Plant Cell Reports, 40, 4, 723-733, 2021.04. |
| 26. | Minami K., Yusakul G., Fujii S., Putalun W., Tanaka H., Sakamoto S., Morimoto S., Rapid magnetic particles-based enzyme immunoassay for the quality control of Glycyrrhiza spp. based on glycyrrhizin content, Fitoterapia, 148, 104794, 2021.01. |
| 27. | Nuntawong P., Ochi A., Chaingam J., Tanaka H., Sakamoto S., Morimoto S., The colloidal gold nanoparticle based-lateral flow immunoassay for fast and simple detection of plant-derived doping agent, higenamine, Drug Testing and Analysis, 13, 4, 762-769, 2021.04. |
| 28. | Juengsanguanpornsuk W., Yusakul G., Kitisripanya T., Krittanaia S., Juengwatanatrakul T., Sakamoto S., Putalun W., Quantification of methylisomiroestrol, a phytoestrogen of Pueraria candollei, by enzyme-linked immunosorbent assay in comparison with a high-performance liquid chromatography, Journal of Pharmaceutical Biomedical Analysis, 192, 113674, 2021.01. |
| 29. | Nuntawong P.*, Horikawa T.*, Ochi A., Wada S., Tsuneura Y., Tanaka H., Sakamoto S., Morimoto S., A monoclonal antibody-based indirect competitive enzyme-linked immunosorbent assay to quantify swertiamarin and its related compounds in Swertia japonica Makino, Phytochemical Analysis, 32, 512-520, 2020.07. |
| 30. | Phaisan S., Yusakul G., Nuntawong P., Sakamoto S., Putalun W., Morimoto S., Tanaka H., Immunochromatographic assay for the detection of kwakhurin and its application for identification of Pueraria candollei Wall. ex Benth. var. mirifica (Airy Shaw & Suvat.) Niyomdham, Phytochemical Analysis, 32, 503-511, 2021.07. |
| 31. | Nuntawong P.*, Lohseethong K.*, Juengwatanatrakul T., Yusakul G., Putalun W., Tanaka H., Sakamoto S., Morimoto S., Competitive immunochromatographic test strips for the rapid semi-quantitative analysis of the biologically active bitter glycoside, amarogentin, Journal of Immunoassay and Immunochemistry, 42, 1, 48-61, 2021.01. |
| 32. | Sakamoto S., Eto R., Nuntawong P., Yusakul G., Juengwatanatrakul T., Putalun W., Fujii S., Tanaka H., Morimoto S., Kwakhurin-magnetic particles conjugates enabled fast enzyme immunoassay for the detection of kwakhurin in Pueraria candollei, Phytochemical Analysis, 31, 6, 930-936, 2020.12. |
| 33. | Nuntawong P., Tanaka H., Sakamoto S., Morimoto S., ELISA for the detection of the prohibited doping agent higenamine in medicinal plants, Planta Medica, 86, 11, 760-766, 2020.11. |
| 34. | Krittanai S., Putalun W., Sakamoto S., Tanaka H., Juengwatanatrakul T., Yusakul G., Expression of actively soluble antigen‑binding fragment (Fab) antibody and GFP fused Fab in the cytoplasm of the engineered Escherichia coli, Molecular Biology Reports, 47, 6, 4519-4529, 2020.04. |
| 35. | Phaisan S., Yusakul G., Nuntawong P., Sakamoto S., Putalun W., Morimoto S., Tanaka H., Honey as a solvent for the green extraction, analysis, and bio-conversion of daidzin from Pueraria candollei var. mirifica root, Pharmacognosy Magazine, 16, 71, 524-530, 2020.04. |
| 36. | Phaisan S., Yusakul G., Sakdamas A., Taluengjit N., Sakamoto S., Putalun W., A green and effective method using oils to remove chlorophyll from Chromolaena odorata (L.) R.M. King & H. Rob, Songklanakarin Journal of Science and Technology, 42, 5, 1084-1090, 2020.04. |
| 37. | Kitisripanya T., Sermpradit W., Sakamoto S., Tanaka H., Putalun W., An estimated quantitative lateral flow immunoassay for determination of artesunate using monoclonal antibody, Biomedical Chromatography, 34, 2, e4718, 2020.02. |
| 38. | Yusakul G., Sakamoto S., Chanpokapaiboon K., Tanaka H., Morimoto S., Preincubation format for a sensitive immunochromatographic assay for monocrotaline, a toxic pyrrolizidine alkaloid, Phytochemical Analysis, 30, 6, 653-660, 2019.12. |
| 39. | Pongkitwitoon B., Boonsnongcheep P., Kitisripanya T., Yusakul G., Sakamoto S., Tanaka H., Morimoto S., Putalun, W., Preparation of a highly specific single chain variable fragment antibody targeting miroestrol and its application in quality control of Pueraria candollei by enzyme-linked immunosorbent assay, Phytochemical Analysis, 30, 6, 600-608, 2019.12. |
| 40. | Yusakul G., Sakamoto S., Tanaka H., Morimoto S., Modification of first constant domain of heavy chain (CH1) enabled effective folding of functional anti-forskolin antigen-binding fragment (Fab) for sensitive quantitative analysis, Biotechnology Progress, 35, 4, e2822, 2019.07. |
| 41. | Chaingam J., Kitisripanya T., Krittanai S., Sakamoto S., Tanaka H., Putalun W., Development of a simple and rapid method for detection of isomiroestrol in Pueraria candollei by an immunochromatographic strip test, Journal of Natural Medicines, 73, 3, 577-583, 2019.09. |
| 42. | Shindo N., Fuchida H., Sato M., Watari K., Shibata T., Kuwata K., Miura C., Okamoto K., Hatsuyama Y., Tokunaga K., Sakamoto S., Morimoto S., Abe Y., Shiroishi M., Caaveiro J.M.M., Ueda T., Tamura T., Matsunaga N., Nakao T., Koyanagi S., Ohdo S., Yamaguchi Y. Hamachi I., Ono M., Ojida A., Selective and reversible modification of kinase cysteines with chlorofluoroacetamides, Nature Chemical Biology, 15, 3, 250-258, 2019.03. |
| 43. | Sakamoto S., Wada S., Morita Y., Yamaguchi T., Tanaka H., Morimoto S., Magnetic particles-based enzyme immunoassay for rapid determination of secoiridoid glycoside, amarogentin, Talanta, 194, 731-736, 2019.03. |
| 44. | Yusakul G.*, Togita R.*, Minami K.*, Chanpokapaiboon K., Juengwatanatrakul T., Putalun W., Tanaka H., Sakamoto S., Morimoto S., An indirect competitive enzyme-linked immunosorbent assay toward standardization of Pueraria candollei based on its unique isoflavonoid, kwakhurin, Fitoterapia, 133, 23-28, 2019.03. |
| 45. | Chanpokapaiboon K., Khoonrit P., Yusakul G., Juengwatanatrakul T., Putalun W., Tanaka H., Sakamoto S., Morimoto S., A recombinant Fab antibody against kwakhurin as a tool for sensitive indirect competitive ELISA, Current Pharmaceutical Biotechnology, 19, 14, 1170-1176, 2018.12. |
| 46. | Yusakul G., Sakamoto S., Tanaka H., Morimoto S., Improvement of heavy and light chain assembly by modification of heavy chain constant region 1 (CH1): Application for construction of anti-paclitaxel fragment antigen-binding (Fab), Journal of Biotechnology, 288, 41-47, 2018.12. |
| 47. | Krittanai S., Kitisripanya T., Udomsin O., Tanaka H., Sakamoto S., Juengwatanatrakul T. Putalun W., Development of a colloidal gold nanoparticle-based immunochromatographic strip for the one-step detection of miroestrol and puerarin, Biomedical Chromatography, 32, 11, e4330, 2018.11. |
| 48. | Sakamoto S., Wada S., Tanaka H., Morimoto S., Sensitive quantitative analysis of the bitter glycoside, amarogentin by specific monoclonal antibody-based indirect competitive enzyme-linked immunosorbent assay, RSC Advances, 8, 31, 17410-17416, 2018.05. |
| 49. | Yusakul G., Kitisripanya T., Juengwatanatrakul T., Sakamoto S., Tanaka H., Putalun W., Enzyme linked immunosorbent assays for total potent estrogenic miroestrol and deoxymiroestrol of Pueraria candollei, a Thai herb for menopause remedy, Journal of Natural Medicines, 72, 3, 641-650, 2018.06. |
| 50. | Pongkitwitoon B.*, Sakamoto S.*, Nagamitsu R., Putalun W., Tanaka H., Morimoto S., A monoclonal antibody-based enzyme-linked immunosorbent assay for determination of homoharringtonine, Planta Medica, 84, 14, 1038-1044, 2018.09. |
| 51. | Sakamoto S., Miyamoto T., Usui K, Tanaka H., Morimoto S., Sodium-periodate mediated harringtonine derivatives and their antiproliferative activity against HL-60 acute leukemia cells, Journal of Natural Products, 81, 1, 34-40, 2018.01. |
| 52. | Yusakul G., Sakamoto S., Nuntawong P., Tanaka H., Morimoto S., Different expression systems resulted in varied binding properties of anti-paclitaxel single chain variable fragment antibody clone 1C2, Journal of Natural Medicines, 72, 1, 310-316, 2018.01. |
| 53. | Yusakul G., Nuntawong P., Sakamoto S., Ratnatilaka Na Bhuket P., Kohno T., Kikkawa N., Rojsitthisak P., Shimizu K., Tanaka H., Morimoto S., Bacterial expressions of single-chain variable fragment (scFv) antibody against ganoderic acid A, a cost-effective approach for its quantitative analysis using the scFv based enzyme-linked immunosorbent assay, Biological and Pharmaceutical Bulletin, 40, 10, 1767-1774, 2017.10. |
| 54. | Paudel M.K., Sakamoto S., Morimoto S., Tanaka H., An overview and comparison of a recombinant antigen-binding fragment and an antigen-binding fragment from a monoclonal antibody against wogonin glucuronide, Journal of Natural Medicines, 71, 4, 703-710, 2017.09. |
| 55. | Kitisripanya T., Inyai C., Komaikul J., Krittanai S., Juengwatanatrakul T., Sakamoto S., Tanaka H., Morimoto S., Putalun W., A lateral flow, colloidal gold-based immunoassay for rapid detection of miroestrol in samples of White Kwao Krua, a phytoestrogen-rich plant, Journal of Natural Medicines, 71, 4, 659-664, 2017.09. |
| 56. | Paudel M.K., Sakamoto S., Shirota O., Morimoto S., Tanaka H., An immunochromatographic assay for rapid detection of salvinorin A, Journal of Immunoassay and Immunochemistry, 38, 4, 438-448, 2017.06. |
| 57. | Paudel M.K., Sakamoto S., Huy L.V., Tanaka H., Miyamoto T., Morimoto S., The effect of varying the peptide linker length in a single chain variable fragment antibody against wogonin glucuronide, Journal of Biotechnology, 251, 47-52, 2017.06. |
| 58. | Sakamoto S., Yusakul G., Tsuneura Y., Putalun W., Usui K., Miyamoto T., Tanaka H., Morimoto S., Sodium periodate-mediated conjugation of harringtonine enabling the production of a highly specific monoclonal antibody, and the development of a sensitive quantitative analysis method, Analyst, 142, 7, 1140-1148, 2017.04. |
| 59. | Sakamoto S., Nagamitsu R., Yusakul G., Miyamoto T., Tanaka H., Morimoto S., Ultrasensitive immunoassay for monocrotaline using monoclonal antibody produced by N, N’-carbonyldiimidazole mediated hapten-carrier protein conjugates, Talanta, 168, 67-72, 2017.05. |
| 60. | Kitisripanya T., Krittanai S., Udomsin O., Juthasit K., Komaikul J., Juengwatanatrakul T., Sakamoto S., Tanaka H., Morimoto S., Putalun W., Development of an enzyme-linked immunosorbent assay for determination of miroestrol using an anti-miroestrol monoclonal antibody, Planta Medica, 83, 10, 855-861, 2017.10. |
| 61. | Sakamoto S., Yusakul G., Nuntawong P., Kitisripanya T., Putalun W., Miyamoto T., Tanaka H., Morimoto S., Development of an indirect competitive immunochromatographic strip test for rapid detection and determination of anticancer drug, harringtonine, Journal of Chromatography B, 1048, 150-154, 2017.03. |
| 62. | Kohno T.*, Hai-Bang T.*, Zhu Q., Amen Y.M., Sakamoto S., Tanaka H., Morimoto S., Shimizu K., Tubulin polymerization stimulating-activity of Ganoderma triterpenoids, Journal of Natural Medicines, 71, 2, 457-462, 2017.01. |
| 63. | Paudel M.K., Sakamoto S., Huy L.V., Tanaka H., Miyamoto T., Akihito T., Morimoto S., Development of an immunoassay using an anti-wogonin glucuronide monoclonal antibody, Journal of Immunoassay and Immunochemistry, 38, 5, 457-470, 2017.10. |
| 64. | Sakamoto S., Kikkawa N., Kohno T., Shimizu K., Tanaka H., Morimoto S., Immunochromatographic strip assay for detection of bioactive Ganoderma triterpenoid, ganoderic acid A in Ganoderma lingzhi, Fitoterapia, 114, 51-55, 2016.10. |
| 65. | Yusakul G., Sakamoto S., Tanaka H., Morimoto S., Efficient expression of single chain variable fragment antibody against paclitaxel using Bombyx mori nucleopolyhedrovirus bacmid DNA system and its characterizations, Journal of Natural Medicines, 70, 3, 592-601, 2016.07. |
| 66. | Yusakul G., Sakamoto S., Pongkitwitoon B., Tanaka H., Morimoto S., Effect of linker length between variable domains of single chain variable fragment antibody against daidzin on its reactivity, Bioscience, Biotechnology, and Biochemistry, 80, 7, 1306-1312, 2016.07. |
| 67. | Sakamoto S.*, Kohno T.*, Shimizu K., Tanaka H., Morimoto S., Detection of ganoderic acid A in Ganoderma lingzhi by an indirect competitive enzyme-linked immunosorbent assay, Planta Medica, 82, 8, 747-751, 2016.05. |
| 68. | Sakamoto S.*, Nagamitsu R.*, Matsuura Y., Tsuneura Y., Kurose H., Tanaka H., Morimoto S., A new approach of indirect enzyme-linked immunosorbent assay for determination of D-glutamic acid through in situ conjugation, Journal of Immunoassay and Immunochemistry, 37, 3, 296-306, 2016.03. |
| 69. | Sakamoto S., Yusakul G., Pongkitwitoon B., Tanaka H., Morimoto S., Colloidal gold-based indirect competitive immunochromatographic assay for rapid detection of bioactive isoflavone glycosides daidzin and genistin in soy products, Food Chemistry, doi.org/10.1016/j.foodchem.2015.08.002, 194, 191-195, 2016.03. |
| 70. | Yusakul G., Sakamoto S., Juengwatanatrakul T., Putalun W., Tanaka H., Morimoto S., Preparation and application of a monoclonal antibody against the isoflavone glycoside daidzin using a Mannich reaction-derived hapten conjugate, Phytochemical Analysis, 27, 1, 81-88, 2016.01. |
| 71. | Sakamoto S., Uto T., Shoyama Y., Effect of glycyrrhetinic acid on lipid raft model at the air/water interface, Biochimica et Biophysica Acta, doi: 10.1016/j.bbamem.2014.11.014, 1848, 2, 434-443, 2015.02. |
Unauthorized reprint of the contents of this database is prohibited.