Activation of the oxidative burst by yeast elicitor in Catharanthus roseus cells occurs independently of the activation of genes involved in alkaloid biosynthesis

Pauw, Bea; Duijn, Bert van; Kijne, Jan W.; Memelink, Johan

doi:10.1007/s11103-005-1968-x

Cited by 35 publications

(8 citation statements)

References 46 publications

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“…For example, oxadecanoid compounds like jasmonic acid (or methyljasmonic acid derivatives) produced during wounding are potent inducers of a variety of alkaloids (Baldwin et al, 1994;Zhang et al, 1997;Pauli and Kutchan, 1998;Huang and Kutchan, 2000). Similarly, fungal extracts are known to induce both regulatory and biosynthetic genes involved in terpenoid indole alkaloid (TIA) biosynthesis in Catharanthus roseus (Menke et al, 1999;van der Fits et al, 2000;Pauw et al, 2004b). The general inducibility of alkaloid biosynthesis indicates there must be signal transduction cascades and specific regulators of alkaloid biosynthetic genes.…”

mentioning

confidence: 99%

The A and B Loci in Tobacco Regulate a Network of Stress Response Genes, Few of which are Associated with Nicotine Biosynthesis

Kidd

Melillo

et al. 2006

Plant Mol Biol

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Nicotine biosynthesis in Nicotiana tabacum is under genetic control by the A and B loci. Plants containing semi-dominant mutations at both the A and B loci (i.e. aabb genotype) have lower nicotine levels, reduced nicotine biosynthetic enzyme activities, and reduced mRNA levels of the corresponding biosynthetic genes. The A and B loci therefore appear to be coordinate regulators of several nicotine biosynthetic genes and define a group of co-regulated genes called the A-B regulon. To investigate the composition of genes in the A-B regulon, a fluorescent differential display (FDD) screen was used to randomly sample the transcriptomes of wild type and mutant aabb roots. This resulted in the isolation of 64 FDD clones, representing 49 unique genes or gene families. Four genes associated with nicotine biosynthesis were identified, whereas most of the other FDD clones were homologous with an assortment of stress response genes. Thirty-three genes or gene families showed reproducible aabb genotype effects, representing seven distinct mRNA expression patterns in response media treatments that increase the mRNA levels of known alkaloid biosynthetic genes. Thus, the A and B loci regulate the mRNA levels of some target genes differently than others. Eleven genes or gene families showed only treatment-specific effects, representing four mRNA accumulation patterns. These results indicate the A-B regulon is complex network of differentially expressed stress response genes, only a small subset of which are involved in nicotine biosynthesis.

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mentioning

confidence: 99%

The A and B Loci in Tobacco Regulate a Network of Stress Response Genes, Few of which are Associated with Nicotine Biosynthesis

Kidd

Melillo

et al. 2006

Plant Mol Biol

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“…In connection with our results, experiments on defense reactions in some species indicate that production of ROS is not an essential requirement for the induction of phytoalexin synthesis. For example, elicited carrot protoplasts that were able to accumulate 4-hydroxybenzoic acid failed to produce any detectable amount of H 2 O 2 (Bach et al, 1993), even in C. roseus cultures, activation of oxidative burst by YE occurred independently of the activation of genes involved in alkaloid biosynthesis (Pauw et al, 2004).…”

Section: Discussionmentioning

confidence: 99%

Some common signal transduction events are not necessary for the elicitor-induced accumulation of silymarin in cell cultures of Silybum marianum

Sánchez-Sampedro

Fernández‐Tárrago

Corchete

2008

Journal of Plant Physiology

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“…Different protein kinases may be activated upstream and downstream of jasmonate biosynthesis (Menke et al 1999). Calcium ions influx is identified as a prerequisite for fungal elicitor-induced oxidative stress, jasmonate biosynthesis, and indole alkaloid production (Zhao et al 2001b;Pauw et al 2004;Lee-Parsons and Erturk 2005). Even though H 2 O 2 was shown to stimulate biosynthesis of secondary metabolites, it is still a question whether H 2 O 2 is a signaling compound for indole alkaloid biosynthesis (Zhao et al 2001b;Pauw et al 2004).…”

Section: Signal Transduction To Indole Alkaloid Biosynthesismentioning

confidence: 99%

“…Calcium ions influx is identified as a prerequisite for fungal elicitor-induced oxidative stress, jasmonate biosynthesis, and indole alkaloid production (Zhao et al 2001b;Pauw et al 2004;Lee-Parsons and Erturk 2005). Even though H 2 O 2 was shown to stimulate biosynthesis of secondary metabolites, it is still a question whether H 2 O 2 is a signaling compound for indole alkaloid biosynthesis (Zhao et al 2001b;Pauw et al 2004). In addition, nitric oxide burst was also observed in elicitor-induced C. roseus cell cultures and mediates catharanthine production (Xu et al 2005).…”

Section: Signal Transduction To Indole Alkaloid Biosynthesismentioning

confidence: 99%

“…Almost all responses to elicitation and physiological conditions inducing indole alkaloid biosynthesis may be mediated by the jasmonate pathway. Cytosolic Ca 2+ spiking is required for fungal elicitor-induced jasmonate biosynthesis (Menke et al 1999;Pauw et al 2004). Auxin suppression of STR and TDC expression and indole alkaloid production is also due to suppression of endogenous jasmonate biosynthesis.…”

Section: Signal Transduction To Indole Alkaloid Biosynthesismentioning

confidence: 99%

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Manipulating indole alkaloid production by Catharanthus roseus cell cultures in bioreactors: from biochemical processing to metabolic engineering

2007

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Catharanthus roseus plants produce many pharmaceutically important indole alkaloids, of which the bisindole alkaloids vinblastine and vincristine are antineoplastic medicines and the monoindole alkaloids ajmalicine and serpentine are antihypertension drugs. C. roseus cell cultures have been studied for producing these medicines or precursors catharanthine and vindoline for almost four decades but so far without a commercially successful process due to biological and technological limitations. The research thus focused on the one hand on engineering the bioreactor process on the other engineering the cell factory itself. This review mainly summarizes the progress made on biochemical engineering aspects of C. roseus cell cultures in bioreactors in the past decades and metabolic engineering of indole alkaloid production in recent years. The paper also attempts to highlight new strategies and technologies to improve alkaloid production and bioreactor performance. Perspectives of metabolic engineering to create new cell lines for large-scale production of indole alkaloids in bioreactors and effective combination of these up-and downstream processing are presented.

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Activation of the oxidative burst by yeast elicitor in Catharanthus roseus cells occurs independently of the activation of genes involved in alkaloid biosynthesis

Cited by 35 publications

References 46 publications

The A and B Loci in Tobacco Regulate a Network of Stress Response Genes, Few of which are Associated with Nicotine Biosynthesis

The A and B Loci in Tobacco Regulate a Network of Stress Response Genes, Few of which are Associated with Nicotine Biosynthesis

Some common signal transduction events are not necessary for the elicitor-induced accumulation of silymarin in cell cultures of Silybum marianum

Manipulating indole alkaloid production by Catharanthus roseus cell cultures in bioreactors: from biochemical processing to metabolic engineering

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