Taxuyunnanine C (1) and its analogs (2 and 3), the C-14 oxygenated 4(20), 11-taxadienes from callus cultures of Taxus sp., were regio- and stereo-selectively hydroxylated at the 7b position by a fungus, Abisidia coerulea IFO 4011, and it was interesting that the longer the alkyl chain of the acyloxyl group at C-14 became, the higher the yield of 7b-hydroxylated product was. Besides the three 7b-hydroxylated products (5, 9, 17), other nine new products (7, 11, 12, 14, 15, 16, 18, 20 and 21) and six known products (4, 6, 8, 10, 13 and 19) were obtained. Subsequently, the acetylated derivatives (24 and 27) of 7b-and 9a-hydroxylated products of 1 were regio- and stereo-specifically hydroxylated at the 9a position by Ginkgo cells and 7b position by A. coerulea, respectively. Thus, the two specific oxidations have been combined. These bioconversions would provide not only valuable intermediates for the semi-synthesis of paclitaxel or other bioactive taxoids from 1 and its analogs, but also some useful hints for the biosynthetic pathway of taxoid in the natural Taxus plant.