# | Document title | Authors | Year | Source | Cited by |
1 | Cloning and characterization of AKR4C14, a rice aldo-keto reductase, from Thai Jasmine rice | Narawongsanont R., Kabinpong S., Auiyawong B., Tantitadapitak C. | 2012 | Protein Journal 31(1),pp. 35-42 | 33 |
2 | Structure-function study of AKR4C14, an aldo-keto reductase from Thai jasmine rice (Oryza sativa L. ssp. indica cv. KDML105) | Songsiriritthigul C., Songsiriritthigul C., Narawongsanont R., Tantitadapitak C., Guan H.H., Chen C.J. | 2020 | Acta Crystallographica Section D: Structural Biology 76,pp. 472-483 | 3 |
3 | Characterization of Two Novel Aldo-Keto Reductases from Arabidopsis: Expression Patterns, Broad Substrate Specificity, and an Open Active-Site Structure Suggest a Role in Toxicant Metabolism Following Stress | Simpson P.J., Tantitadapitak C., Reed A.M., Mather O.C., Bunce C.M., White S.A., Ride J.P. | 2009 | Journal of Molecular Biology 392(2),pp. 465-480 | 99 |
4 | Characterization of AKR4C15, a Novel Member of Aldo–Keto Reductase, in Comparison with Other Rice AKR(s) | Auiyawong B., Narawongsanont R., Tantitadapitak C. | 2017 | Protein Journal 36(4),pp. 257-269 | 4 |
5 | Low temperature and water dehydration increase the levels of asiaticoside and madecassoside in Centella asiatica (L.) Urban | Plengmuankhae W., Tantitadapitak C. | 2015 | South African Journal of Botany 97,pp. 196-203 | 11 |