1 ts show that silver birch (79% UFP removal), yew (71%), and elder (70.5%) have very high capabilities

2         Two LPS-mimetic molecules-taxol from yew bark and lipoteichoic acid (LTA) from gram-positive

3 ntial display-cloning approach, using Taxus (yew) cells induced for Taxol production, yielded a famil

4 jor taxoid metabolite isolated from Japanese yew heart wood.

5                                              Yew is famous as the source of the anti-cancer diterpeno

6 ation of taxadiene synthase from the Pacific yew, lactaldehyde dehydrogenase from E. coli was identif

7 more than one biosynthetic route to Taxol in yew species.

8 ed step of Taxol biosynthesis in the Pacific yew (Taxus brevifolia) is the cyclization of the linear

9 lly purified taxadiene synthase from Pacific yew (Taxus brevifolia) stems to examine the possibility

10 ted from poly(A)+ RNA extracted from Pacific yew (Taxus brevifolia) stems.

11  complex diterpene obtained from the Pacific yew, Taxus brevifolia, is arguably the most important ne

12 is an anticancer therapeutic produced by the yew tree.

13 t isolated from the Taxus brevifolia Pacific yew tree.

14 the brand name Taxol), which is derived from yew trees (Taxus species)(3).

15                                              Yew trees (Taxus) hyperbranch from long-lived buds that

16 ght on why endophytic fungi that live inside Yew trees also make the same drug.

17                                              Yew trees are famous for production of the anti-cancer d

18 olated and purified from the bark of Pacific yew trees.

19 itable as it required the destruction of the yew trees.