机译:来自内参真菌Shiraia sp的5-alk(Zh)ylresorcinol合酶的鉴定和异源重建。 SLF14.
Department of Biological Engineering Utah State University Logan UT 84322-4105 USA;
Department of Biological Engineering Utah State University Logan UT 84322-4105 USA;
Department of Biological Engineering Utah State University Logan UT 84322-4105 USA;
Department of Biological Engineering Utah State University Logan UT 84322-4105 USA;
Department of Biological Engineering Utah State University Logan UT 84322-4105 USA;
Department of Biological Engineering Utah State University Logan UT 84322-4105 USA;
Key Laboratory of Protection and Utilization of Subtropic Plant Resources of Jiangxi Province College of Life Science Jiangxi Normal University Jiangxi 330022 P. R. China;
TCM and Ethnomedicine Innovation &
Development Laboratory School of Pharmacy Hunan University of Chinese Medicine Hunan 410208 P. R. China;
Department of Biological Engineering Utah State University Logan UT 84322-4105 USA;
Shiraia sp. Slf14; type III polyketide synthase; alk(en)ylresorcinols; substrate flexibility; precursor-directed biosynthesis;
机译:来自内参真菌Shiraia sp的5-alk(Zh)ylresorcinol合酶的鉴定和异源重建。 SLF14.
机译:一种新型内生石杉碱甲产生真菌 Shiraia i> sp。 Slf14,从虎尾草 i>中分离出来。
机译:通过钙/钙调平素信号转导,增强内生真菌SHIRAIA SP SLF14中的细胞醌的生产
机译:抗微生物材料源于内生真菌镰刀菌SP。 eucommia ulmoides.
机译:转录体果糖分析作为唯一碳源增强内核真菌Shiraia Sp的产量产生。 SLF14.
机译:一种新型内生成的Huperzine A-生产真菌,Shiraia sp。 SLF14,与Huperzia Serrata分离