Bupe A. Siame scite author profile

Manipulation of plant natural product biosynthesis through genetic engineering is an attractive but technically challenging goal. Here, we demonstrate that different secondary metabolites can be produced in cultured maize cells by ectopic expression of the appropriate regulatory genes. Cell lines engineered to express the maize transcriptional activators C1 and R accumulate two cyanidin derivatives, which are similar to the predominant anthocyanin found in differentiated plant tissues. In contrast, cell lines that express P accumulate various 3-deoxy flavonoids. Unexpectedly, P-expressing cells in culture also accumulate phenylpropanoids and green fluorescent compounds that are targeted to different subcellular compartments. Two endogenous biosynthetic genes (c2 and a1, encoding chalcone synthase and flavanone/dihydroflavonol reductase, respectively) are independently activated by ectopic expression of either P or C1/R, and there is a dose-response relationship between the transcript level of P and the degree to which c2 or a1 is expressed. Our results support a simple model showing how the gene encoding P may act as a quantitative trait locus controlling insecticidal C-glycosyl flavone level in maize silks, and they suggest how p1 might confer a selective advantage against insect predation in maize.

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Edwardsiella tarda – Virulence mechanisms of an emerging gastroenteritis pathogen

Leung

Siame

Tenkink

et al. 2012

Microbes and Infection

196

137

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Isolation of strigol, a germination stimulant for Striga asiatica, from host plants

Siame¹,

Weerasuriya²,

Wood³

et al. 1993

J. Agric. Food Chem.

198

129

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Edwardsiella piscicida: A versatile emerging pathogen of fish

et al. 2019

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Edwardsiella piscicida is an Enterobacteriaceae that is abundant in water and causes food and waterborne infections in fish, animals, and humans. The bacterium causes Edwardsiellosis in farmed fish and can lead to severe economic losses in aquaculture worldwide. E. piscicida is an intracellular pathogen that can also cause systemic infection. Type III and type VI secretion systems are the bacterium's most lethal weapons against host defenses. It also possesses multiantibiotic resistant genes and is selected and enriched in the environment due to the overuse of antibiotics. Therefore, the bacterium has great potential to contribute to the evolution of the resistome. All these properties have made this bacterium a perfect model to study bacteria virulence mechanisms and the spread of antimicrobial genes in the environment. We summarize recent advance in E. piscicida biology and provide insights into future research in virulence mechanisms, vaccine development and novel therapeutics.

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Engineering Secondary Metabolism in Maize Cells by Ectopic Expression of Transcription Factors

et al. 1998

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Bupe A. Siame

Engineering Secondary Metabolism in Maize Cells by Ectopic Expression of Transcription Factors

Edwardsiella tarda – Virulence mechanisms of an emerging gastroenteritis pathogen

Isolation of strigol, a germination stimulant for Striga asiatica, from host plants

Edwardsiella piscicida: A versatile emerging pathogen of fish

Engineering Secondary Metabolism in Maize Cells by Ectopic Expression of Transcription Factors

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