Your search keyword '"Jackson, Alana"' showing total 2 results

1. Combining metabolomics and transcriptomics to characterize tanshinone biosynthesis in Salvia miltiorrhiza.

Author

Wei Gao, Hai-Xi Sun, Hongbin Xiao, Guanghong Cui, Hillwig, Matthew L., Jackson, Alana, Xiao Wang, Ye Shen, Nan Zhao, Liangxiao Zhang, Xiu-Jie Wang, Peters, Reuben J., and Luqi Huang

Subjects

METABOLOMICS, BIOSYNTHESIS, SALVIA, GENE expression in plants, HERBAL medicine, IMMUNE response

Abstract

Background Plant natural products have been co-opted for millennia by humans for various uses such as flavor, fragrances, and medicines. These compounds often are only produced in relatively low amounts and are difficult to chemically synthesize, limiting access. While elucidation of the underlying biosynthetic processes might help alleviate these issues (e.g., via metabolic engineering), investigation of this is hindered by the low levels of relevant gene expression and expansion of the corresponding enzymatic gene families. However, the often-inducible nature of such metabolic processes enables selection of those genes whose expression pattern indicates a role in production of the targeted natural product. Results Here, we combine metabolomics and transcriptomics to investigate the inducible biosynthesis of the bioactive diterpenoid tanshinones from the Chinese medicinal herb, Salvia miltiorrhiza (Danshen). Untargeted metabolomics investigation of elicited hairy root cultures indicated that tanshinone production was a dominant component of the metabolic response, increasing at later time points. A transcriptomic approach was applied to not only define a comprehensive transcriptome (comprised of 20,972 non-redundant genes), but also its response to induction, revealing 6,358 genes that exhibited differential expression, with significant enrichment for up-regulation of genes involved in stress, stimulus and immune response processes. Consistent with our metabolomics analysis, there appears to be a slower but more sustained increased in transcript levels of known genes from diterpenoid and, more specifically, tanshinone biosynthesis. Among the co-regulated genes were 70 transcription factors and 8 cytochromes P450, providing targets for future investigation. Conclusions Our results indicate a biphasic response of Danshen terpenoid metabolism to elicitation, with early induction of sesqui- and tri- terpenoid biosynthesis, followed by later and more sustained production of the diterpenoid tanshinones. Our data provides a firm foundation for further elucidation of tanshinone and other inducible natural product metabolism in Danshen. [ABSTRACT FROM AUTHOR]

Published

2014

2. Biosynthesis of Lycosantalonol, a cis-Prenyl Derived Diterpenoid.

Author

Jiachen Zi, Yuki Matsuba, Young J. Hong, Jackson, Alana J., Tantillo, Dean J., Pichersky, Eran, and Peters, Reuben J.

Subjects

*DITERPENES synthesis, *PYROPHOSPHATES, *TERPENES, *BIOSYNTHESIS, *RING formation (Chemistry), *ANIONS

Abstract

Terpenoid natural products are generally derived from isoprenyl diphosphate precursors with trans double-bond configuration, and no diterpenoid derived from the cisoid precursor (Z,Z,Z)-nerylneryl diphosphate (1) has yet been identified. Here further investigation of a terpenoid biosynthetic gene cluster from tomato is reported, which resulted in identification of a biosynthetic pathway from 1, in a pathway featuring a number of interesting transformations. Compound 1 is first cyclized to a tricyclene core ring structure analogous to that found in α-santalene, with the resulting diterpene termed here lycosantalene (2). Quantum chemical calculations indicate a role for the diphosphate anion coproduct in this cyclization reaction. Subsequently, the internal cis double bond of the neryl side chain in 2 is then further transformed to an α-hydroxy ketone moiety via an epoxide intermediate (3). Oxygen labeling studies indicate 3 undergoes oxidative conversion to lycosantalonol (4). Thus, in addition to elucidating the cisoid origins of 4, this work has further provided mechanistic insight into the interesting transformations required for its production. [ABSTRACT FROM AUTHOR]

Published

2014