Issue Date | Title | Author(s) | Relation | scopus | WOS | Fulltext/Archive link |
2019 | A genome-centric approach reveals a novel glycosyltransferase from the GA A07 strain of Bacillus thuringiensis responsible for catalyzing 15-O-Glycosylation of ganoderic acid A | Chang, TS; Wang, TY ; Hsueh, TY; Lee, YW; Wu, JY; Chiang, CM; Chuang, HM; Cai, WX; Wu, YW | International Journal of Molecular Sciences 20(20), 5192 | | | |
2019 | A new triterpenoid glucoside from a novel acidic glycosylation of ganoderic acid A via recombinant glycosyltransferase of Bacillus subtilis | Chang, TS; Chiang, CM; Kao, YH; Wu, JY; Wu, YW; Wang, TY | Molecules 24(19), 3457 | | | |
2023 | Antioxidant and anti-α-glucosidase activities of biotransformable dragon’s blood via predicted data mining approach | Wu, JY; Ding, HY; Wang, TY ; Cai, CZ; Chang, TS | Process Biochemistry 130, 166-173 | | | |
2022 | Application of Biotransformation-Guided Purification in Chinese Medicine: An Example to Produce Butin from Licorice | Wu, JY; Ding, HY; Wang, TY ; Cai, CZ; Chang, TS | Catalysts 12(7), 718 | | | |
2021 | Biotransformation of celastrol to a novel, well-soluble, low-toxic and anti-oxidative celastrol-29-O-β-glucoside by Bacillus glycosyltransferases | Chang, TS; Wang, TY ; Chiang, CM; Lin, YJ; Chen, HL; Wu, YW; Ting, HJ; Wu, JY | Journal of Bioscience and Bioengineering 131(2), 176-182 | | | |
2017 | Biotransformation of Ergostane Triterpenoid Antcin K from Antrodia cinnamomea by Soil-Isolated Psychrobacillus sp. AK 1817 | Chiang, CM; Wang, TY ; Ke, AN; Chang, TS; Wu, JY | Catalysts 7(10), 299 | | | |
2018 | Biotransformation of Ganoderic Acid A to 3-O-Acetyl Ganoderic Acid A by Soil-isolated Streptomyces sp. | Chang, TS; Ko, HH; Wang, TY; Lee, CH; Wu, JY | Fermentation 4(4), 101 | | | |
2021 | Complete Genome Sequence of the Soil-Isolated Psychrobacillus sp. Strain AK 1817, Capable of Biotransforming the Ergostane Triterpenoid Antcin K | Gómez-Luciano, LB; Wu, YW; Chiang, CM; Chang, TS; Wu, JY; Wang, TY | Microbiology Resource Announcements 10(40), e01242-20 | | | |
2022 | Enzymatic Synthesis of Novel and Highly Soluble Puerarin Glucoside by Deinococcus geothermalis Amylosucrase | Ding, HY; Wang, TY ; Wu, JY; Tsai, YL; Chang, TS | Molecules 27(13), 4074 | | | |
2021 | Enzymatic Synthesis of Novel Vitexin Glucosides | Wu, JY; Wang, TY ; Ding, HY; Zhang, YR; Lin, SY; Chang, TS | Molecules 26(20), 6274 | | | |
2024 | Exploring gingerol glucosides with enhanced anti-inflammatory activity through a newly identified α-glucosidase (ArG) from Agrobacterium radiobacter DSM 30147 | Chang, TS; Wu, JY; Ding, HY; Lin, HY; Wang, TY | Journal of Bioscience and Bioengineering 138(3), 218-224 | | | |
2021 | Glycosylation of Ganoderic Acid G by Bacillus Glycosyltransferases | Wu, JY; Ding, HY; Wang, TY ; Zhang, YR; Chang, TS | International Journal of Molecular Sciences 22(18), 9744 | | | |
2016 | Improving 3'-hydroxygenistein production in recombinant Pichia pastoris by a periodic hydrogen peroxide-shocking strategy | Wang, TY; Tsai, YH; Yu, IZ; Chang, TS | Journal of Microbiology and Biotechnology 26(3), 498-502 | | | |
2021 | Improving Aqueous Solubility of Natural Antioxidant Mangiferin through Glycosylation by Maltogenic Amylase from Parageobacillus galactosidasius DSM 18751 | Wu, JY; Ding, HY; Wang, TY ; Tsai, YL; Ting, HJ; Chang, TS | Antioxidants 10(11), 1817 | | | |
2018 | New Triterpenoid from Novel Triterpenoid 15-O-Glycosylation on Ganoderic Acid A by Intestinal Bacteria of Zebrafish | Chang, TS; Chiang, CM; Wang, TY; Lee, CH; Lee, YW; Wu, JY | Molecules 23(9), 2345 | | | |
2023 | Novel Ganoderma triterpenoid saponins from the biotransformation-guided purification of a commercial Ganoderma extract | Ding, HY; Wang, TY ; Wu, JY; Zhang, YR; Chang, TS | Journal of Bioscience and Bioengineering 135(5), 402-410 | | | |
2022 | Novel Glycosylation by Amylosucrase to Produce Glycoside Anomers | Wu, JY; Ding, HY; Luo, SY; Wang, TY ; Tsai, YL; Chang, TS | Biology 11(6), 822 | | | |
2021 | One-Pot Bi-Enzymatic Cascade Synthesis of Novel Ganoderma Triterpenoid Saponins | Chang, TS; Chiang, CM; Wang, TY ; Tsai, YL; Wu, YW; Ting, HJ; Wu, JY | Catalysts 11(5), 580 | | | |
2019 | Potential Industrial Production of a Well-Soluble, Alkaline-Stable, and Anti-Inflammatory Isoflavone Glucoside from 8-Hydroxydaidzein Glucosylated by Recombinant Amylosucrase of Deinococcus geothermalis | Chang, TS; Wang, TY ; Yang, SY; Kao, YH; Wu, JY; Chiang, CM | Molecules 24(12), 2236 | | | |
2021 | Production of New Isoflavone Diglucosides from Glycosylation of 8-Hydroxydaidzein by Deinococcus geothermalis Amylosucrase | Chiang, CM; Wang, TY ; Wu, JY; Zhang, YR; Lin, SY; Chang, TS | Fermentation 7(4), 232 | | | |