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W2895867645 endingPage "254" @default.
W2895867645 startingPage "243" @default.
W2895867645 abstract "Phenolic acids are important secondary metabolites produced in the Chinese medicinal plant Salvia miltiorrhiza, but little is known about the transcription factors involved in the regulation of tanshinone and phenolic acid biosynthesis. Here, a novel AP2/ERF transcription factor SmERF115 was isolated and functionally characterized. SmERF115 was most responsive to methyl jasmonate (MeJA) treatment and was localized in the nucleus. The phenolic acid production was increased in SmERF115-overexpressing hairy roots, but with a decrease in tanshinone content. In contrast, silencing of SmERF115 reduced the phenolic acid level, but increased tanshinone content. The expression of the key biosynthetic gene SmRAS1 was up-regulated in SmERF115 overexpression lines but was down-regulated in SmERF115-RNAi lines. Yeast one-hybrid (Y1H) assay and EMSA showed that SmERF115 directly binds to the promoter of SmRAS1, while dual-luciferase assays showed that SmERF115 could activate expression of SmRAS1 in vivo. Furthermore, global transcriptomic analysis by RNA sequencing revealed that expression of other genes such as PAL3, 4CL5, TAT3, and RAS4 was also increased in the overexpression line, implying that they were potentially involved in the SmERF115-mediated pathway. Our data show that SmERF115 is a positive regulator of phenolic acid biosynthesis, and may be a potential target for further metabolic engineering of phenolic acid biosynthesis in S. miltiorrhiza." @default.
W2895867645 created "2018-10-26" @default.
W2895867645 creator A5000970532 @default.
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W2895867645 date "2018-10-09" @default.
W2895867645 modified "2023-10-14" @default.
W2895867645 title "The biosynthesis of phenolic acids is positively regulated by the JA-responsive transcription factor ERF115 in<i>Salvia miltiorrhiza</i>" @default.
W2895867645 cites W1500728388 @default.
W2895867645 cites W1571265670 @default.
W2895867645 cites W1830882552 @default.
W2895867645 cites W1965895539 @default.
W2895867645 cites W1966024455 @default.
W2895867645 cites W1970091253 @default.
W2895867645 cites W1972260885 @default.
W2895867645 cites W1973146663 @default.
W2895867645 cites W1974506932 @default.
W2895867645 cites W1975492718 @default.
W2895867645 cites W1982160027 @default.
W2895867645 cites W1986164743 @default.
W2895867645 cites W1992362149 @default.
W2895867645 cites W1994766005 @default.
W2895867645 cites W2005349276 @default.
W2895867645 cites W2007050304 @default.
W2895867645 cites W2011396367 @default.
W2895867645 cites W2015543339 @default.
W2895867645 cites W2016075126 @default.
W2895867645 cites W2019727923 @default.
W2895867645 cites W2020893112 @default.
W2895867645 cites W2029248286 @default.
W2895867645 cites W2038835788 @default.
W2895867645 cites W2045115500 @default.
W2895867645 cites W2046095481 @default.
W2895867645 cites W2050000402 @default.
W2895867645 cites W2051228575 @default.
W2895867645 cites W2065676779 @default.
W2895867645 cites W2066300413 @default.
W2895867645 cites W2070539328 @default.
W2895867645 cites W2071759565 @default.
W2895867645 cites W2074600046 @default.
W2895867645 cites W2083686012 @default.
W2895867645 cites W2088101238 @default.
W2895867645 cites W2093067391 @default.
W2895867645 cites W2093966833 @default.
W2895867645 cites W2103017472 @default.
W2895867645 cites W2108527506 @default.
W2895867645 cites W2114688688 @default.
W2895867645 cites W2118895854 @default.
W2895867645 cites W2126144698 @default.
W2895867645 cites W2126386163 @default.
W2895867645 cites W2126753921 @default.
W2895867645 cites W2128909276 @default.
W2895867645 cites W2136466466 @default.
W2895867645 cites W2137244077 @default.
W2895867645 cites W2142615365 @default.
W2895867645 cites W2142793279 @default.
W2895867645 cites W2155421142 @default.
W2895867645 cites W2167405909 @default.
W2895867645 cites W2237501542 @default.
W2895867645 cites W2237696151 @default.
W2895867645 cites W2266236934 @default.
W2895867645 cites W2267159055 @default.
W2895867645 cites W2270311301 @default.
W2895867645 cites W2287908532 @default.
W2895867645 cites W2306632572 @default.
W2895867645 cites W2310808048 @default.
W2895867645 cites W2324121921 @default.
W2895867645 cites W2439835079 @default.
W2895867645 cites W2465901535 @default.
W2895867645 cites W2511139999 @default.
W2895867645 cites W2547000352 @default.
W2895867645 cites W2614235426 @default.
W2895867645 cites W2750820040 @default.
W2895867645 cites W2888976447 @default.
W2895867645 cites W2950260110 @default.
W2895867645 cites W4294216483 @default.
W2895867645 doi "https://doi.org/10.1093/jxb/ery349" @default.
W2895867645 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/30299490" @default.
W2895867645 hasPublicationYear "2018" @default.
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