| Boosting 11-oxo-β-amyrin and glycyrrhetinic acid synthesis in Saccharomyces cerevisiae via pairing novel oxidation and reduction system from legume plants M Zhu, C Wang, W Sun, A Zhou, Y Wang, G Zhang, X Zhou, Y Huo, C Li Metabolic engineering 45, 43-50, 2018 | 149 | 2018 |
| Establishment of strigolactone-producing bacterium-yeast consortium S Wu, X Ma, A Zhou, A Valenzuela, K Zhou, Y Li Science Advances 7 (38), eabh4048, 2021 | 31 | 2021 |
| Rational design strategies for functional reconstitution of plant cytochrome P450s in microbial systems A Zhou, K Zhou, Y Li Current opinion in plant biology 60, 102005, 2021 | 10 | 2021 |
| Enhanced yeast surface display of β‐glucuronidase using dual anchor motifs for high‐temperature glycyrrhizin hydrolysis X Wang, X Feng, B Lv, A Zhou, Y Hou, C Li AIChE Journal 65 (9), e16629, 2019 | 8 | 2019 |
| Identification of a Prunus MAX1 homolog as a unique strigol synthase S Wu, A Zhou, K Hiugano, A Yoda, X Xie, K Yamane, K Miura, T Nomura, ... New Phytologist 239 (5), 1819-1833, 2023 | 4 | 2023 |
| Identification of a Prunus MAX1 Homolog as a Unique Strigol Synthase from Carlactone Bypassing 5-Deoxystrigol S Wu, A Zhou, K Hiugano, A Yoda, X Xie, K Yamane, K Miura, T Nomura, ... bioRxiv, 2022.10. 24.513630, 2022 | 1 | 2022 |
| Identification of aPrunusMAX1 Homolog as a Unique Strigol Synthase from Carlactone Bypassing 5-Deoxystrigol S Wu, A Zhou, K Hiugano, A Yoda, X Xie, K Yamane, K Miura, T Nomura, ... | | 2022 |
