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RISS 인기검색어
- 검색키워드
- 저자 : Kutchan Toni M. (검색결과 2 건)
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Biosynthesis of Veratrum californicum specialty chemicals in Camelina sativa seed
Megan M. Augustin,Ashutosh K. Shukla,Courtney M. Starks,Mark O’Neil‑Johnson,Linna Han,Cynthia K. Holland,Toni M. Kutchan 한국식물생명공학회 2017 Plant biotechnology reports Vol.11 No.1
Economically feasible systems for heterologous production of complex secondary metabolites originating from difficult to cultivate species are in demand since Escherichia coli and Saccharomyces cerevisiae are not always suitable for expression of plant and animal genes. An emerging oilseed crop, Camelina sativa, has recently been engineered to produce novel oil profiles, jet fuel precursors, and small molecules of industrial interest. To establish C. sativa as a system for the production of medicinally relevant compounds, we introduced four genes from Veratrum californicum involved in steroid alkaloid biosynthesis. Together, these four genes produce verazine, the hypothesized precursor to cyclopamine, a medicinally relevant steroid alkaloid whose analogs are currently being tested for cancer therapy in clinical trials. The future supply of this potential cancer treatment is uncertain as V. californicum is slow-growing and not amendable to cultivation. Moreover, the complex stereochemistry of cyclopamine results in low-yield syntheses. Herein, we successfully engineered C. sativa to synthesize verazine, as well as other V. californicum secondary metabolites, in seed. In addition, we have clarified the stereochemistry of verazine and related V. californicum metabolites.
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Evaluation of reference genes for qRT-PCR studies in the colchicine producing Gloriosa superba L.
Johnson Nekha,Rodriguez Diaz Diana,Ganapathy Sivakumar,Bass John S.,Kutchan Toni M.,Khan Abdul L.,Flavier Albert B. 한국식물생명공학회 2023 Plant biotechnology reports Vol.17 No.4
The flame lily, Gloriosa superba L., is one of the two primary sources of the anti-inflammatory drug, colchicine. Previous studies have shown that a higher level of colchicine production occurs in the rhizomes than in leaves and roots. Earlier precursor feeding and transcriptome analysis of G. superba have provided a putative pathway and candidate genes involved in colchicine biosynthesis. Comparative analysis of expression levels of candidate pathway genes in different tissues of G. superba using quantitative real-time reverse transcription-polymerase chain reaction (qRT-PCR) can reveal highly expressed genes in the rhizome compared to other tissues which could suggest roles of the gene products in colchicine biosynthesis. Normalization is an important step in effectively analyzing differential gene expression by qRT-PCR with broader applications. The current study selected candidate reference genes from the transcriptome datasets and analyzed them to determine the most stable genes for normalization of colchicine biosynthesis-related genes. Using RefFinder, one stable reference gene, UBC22, was selected to normalize gene expression levels of candidate methyltransferase (MT) genes in the leaves, roots, and rhizomes of G. superba. With UBC22 as reference gene, the methyltransferases, GsOMT1, GsOMT3, and GsOMT4 showed significantly higher expression levels in the rhizome of G. superba, while MT31794 was more highly expressed in the roots. In conclusion, the current results showed a viable reference gene expression analysis system that could help elucidate colchicine biosynthesis and its exploitation for increased production of the drug in G. superba.
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