Abstract
Anisodus luridus hairy root cultures were established to test biological effects of acetylsalicylic acid (ASA) and ultraviolet ray-B (UV-B) on gene expression, tropane alkaloid (TA) biosynthesis and efflux. The TAs-pathway gene expression was ASA dosage dependant. The expression of PMT, TRI and CYP80F1 showed no significant difference in hairy root cultures in treatment of 0.01 and 0.1 mM ASA, compared with those without ASA treatment; while 0.01 or 0.1 mM ASA slightly upregulated H6H expression. All the four genes including PMT, TRI, CYP80F1 and H6H had a dramatic increase in 1 mM ASA-treated hairy root cultures compared with control. The expressing levels of all the four genes were much significantly higher in 1 mM ASA-treated hairy root cultures than those in 0.01 and 0.1 mM ASA-treated ones. As expected, hairy root cultures treated with 1 mM ASA had the highest capacity of TAs biosynthesis, in which the content of scopolamine and hyoscyamine reached respectively 57.2 and 14.7 μg g−1 DW. Surprisingly, it was found that 1 mM ASA dramatically induced the efflux of scopolamine. In the liquid medium with 1 mM ASA, the content of scopolamine was 153.4 μg flask−1, about 6.2 folds compared with that of control. At the same time, hyoscyamine was detected at trace levels in liquid medium. In the UV-B stressed hairy root cultures, all the four genes had a very strong increase of gene expression that led to more accumulation of scopolamine and lower accumulation of hyoscyamine. Only trace amounts of hyoscyamine and scopolamine were detected in the liquid medium when hairy root cultures were stressed under UV-B, and this suggested that UV-B did not affect TAs efflux.
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