• Title/Summary/Keyword: elicitors

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Changes in the Accumulation of Isoflavonoids in Soybeans by Stress (Stress에 의한 대두의 Isoflavonoid 화합물 축적변화)

  • Kim, Jin Tae;Kim, Jang Eok
    • Current Research on Agriculture and Life Sciences
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    • v.12
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    • pp.9-22
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    • 1994
  • The changes of the time-dependent accumulation of isoflavone aglycones(daidzein, genistein) and their glucosides(daidzin, genistin) by various stress-inducing treatment on cotyledon of soybeans(Dankyungkong and Paldalkong) were investigated. Levels of isoflavone aglycones and their glucosides in soybeans treated with UDP-glucose, $MgSO_4$ and $HgCl_2$ and infected with phytopathogen appeared to be higher than those of treatment with distilled water. When compared with data for control, the levels of isoflavone glucosides in citrate-treated soybeans were increased but those of their aglycones did not appear appreciable differences. In Paldalkong treated with UDP-glucose, $MgSO_4$ and $HgCl_2$ the levels of isoflavone aglycones and their glucosides were higher than in Dankyungkong. In particular, the accumulation of daidzein in Paldalkong was significantly higher than in Dankyungkong. By infection with Botrytis cinerea, the maximum amount of accumulation of daidzein in two cultivar did not to be a large different, but accumulation time appeared more rapidly in Paldalkong than Dankyungkong. The accumulation amount of daidzein and genistein in Dankyungkong treated with elicitors appeared to be similar at initial stage, but the level of daidzein after 48hours appeared to be higher than that of genistein. In Paldalkong, the level of daidzein was higher than that of genistein at all stage. The level of daidzein in soybeans infected with phytopathogen appeared to be higher than that of genestein.

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Cloning of Cytochrome P450 Gene involved in the Pathway of Capsidiol Biosynthesis in Red Pepper Cells (고추세포에서 Capsidiol 생합성을 유도하는 Cytochrome P450 유전자의 탐색)

  • Kwon, Soon-Tae;Kim, Jae-Sung;Jung, Do-Cheul;Jeong, Jeong-Hag;Hwang, Jae-Moon;Oh, Sei-Myoung
    • Journal of Life Science
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    • v.13 no.6
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    • pp.879-888
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    • 2003
  • In order to measure the enzyme activity of 5-epi-aristolochene hydroxylase, one of cytochrome P450 (P450) enzymes in eicitor-treated pepper cell, we used in vivo assay method and demonstrated a dramatic suppression of the activity by P450-inhibitors, ancymidol and ketocornazole. Using RT-PCR method with degenerate primer of the well conserved domains found within most P450-enzymes, and using cDNA library screening method, one distinct cDNA, being designated P450Hy01, was successfully isolated from elicitor-treated pepper cells. P450Hy01 mRNA was all induced in elicitor-treated cells whereas never induced in control cells. Moreover, levels of P450Hy01 expression were highly correlated with the levels of extracellular capsidiol production by different elicitors in cell cultures. P450Hy01 transcript was also induced by several other elicitors such as, cellulase, arachidonic acid, jasmonic acid, yeast extract as well as UV stress. P450Hy01 sequence contained high probability amino acid matches to known Plant P450 genes and ORF with a conserved FxxGxRxCxG heme-binding domain. P450Hy01 cDNA showed 98% of homology in sequence of nucleotide as well as amino acid to 5-epi-aristolochene-1, 3-hydroxylase (5EAl, 3H) which has been isolated in tobacco cells, suggesting that P450Hy01 is prominent candidate gene for P450-enzyme encoding 5EAl, 3H in pepper cell.

Effect of Phytohormones and Chemical Inhibitors on Pathogenesis-related Genes Identified by Differential Hybridization in Rice Suspension Culture Cells

  • Kim, Sang-Gon;Wu, Jing-Ni;Wang, Yiming;White, Ethan E.;Choi, Young-Whan;Kim, Keun-Ki;Choi, In-Soo;Kim, Yong-Cheol;Kim, Sun-Hyung;Kang, Kyu-Young;Kim, Sun-Tae
    • The Plant Pathology Journal
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    • v.26 no.4
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    • pp.386-393
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    • 2010
  • In order to study disease resistance mechanisms in rice against the rice blast fungus Magnaporthe grisea, we screened fungal elicitor-responsive genes from rice suspension-cultured cells treated with fungal elicitors employing differential hybridization (DH). By DH screening, 31 distinct rice clones were isolated and a majority of them were full-length cDNAs encoding pathogenesisrelated (PR) genes. Sixteen of the 31 genes were upregulated at 4, 8, and 12 h following fungal elicitor treatment. To elucidate the effect of signal molecules and biotic elicitors on the regulation of rice defense genes, we further characterized the transcriptional expression patterns of representative isolated PR genes; OsGlu1, OsGlu2, OsTLP, OsRLK, and OsPR-10, following treatment with fungal elicitor, phytohormones, cycloheximide, and inhibitors of protein phosphorylation. Jasmonic acid (JA) induced transcriptional expression of OsGlu1, OsTLP, and OsRLK, but not of OsGlu2 and OsPR-10 at any of the tested time points. Salicylic acid (SA) and abscisic acid weakly induced the expression of OsTLP and OsRLK. SA showed an antagonistic effect with fungal elicitor and JA. Cycloheximide suppressed all these genes upon elicitor treatment, except for OsGlu2. Staurosporine only induced the expression of OsRLK. Application of calyculin A strongly induced OsRLK expression, but suppressed the expression of OsGlu2. Our study yielded a number of PR genes that play a role in defense mechanisms against the rice blast fungus, as well as contribute towards the elucidation of crosstalk between phytohormones and other modifications during defense signaling.

Present Status and Prospects of in vitro Production of Secondary Metabolites from Plant sin China

  • Chen, Xian-Ya;Xu, Zhi-Hong
    • Proceedings of the Botanical Society of Korea Conference
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    • 1995.06a
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    • pp.40-56
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    • 1995
  • During the past two decades, China has seen her great progress in plant biotechnology. Since the Chinese market of herb medicine is huge, while the plant resources are shrinking, particular emphasis has been placed in plant tissue and cell cultures of medicinal plants, this includes fast propagation, protoplast isolation and regeneration, cell suspension cultures and large scale fermentation. To optimize culture conditions for producing secondary compounds in vitro, various media, additives and elicitors have been tested. Successful examples of large scale culture for the secondary metabolite biosynthesis are quite limited : Lithospermum ery throrhizon and Arnebia euchroma for shikonin derivatives, Panax ginseng, P. notoginseng, P. quinquefolium for saponins, and a few other medicinal plants. Recent development of genetic transformation systems of plant cells offered a new approach to in vitro production of secondary compounds. Hairy root induction and cultures, by using Ri-plasmid, have been reported from a number of medicinal plant species, such as Artemisia annua that produces little artemisinin in normal cultured cells, and from Glycyrrhiza uralensis. In the coming five years, Chinese scientists will continue their work on large scale cell cultures of a few of selected plant species, including Taxus spp. and A. annua, for the production of secondary metabolites with medicinal interests, one or two groups of scientists will be engaged in molecular cloning of the key enzymes in plant secondary metabolism.

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Angelica gigas Nakai 뿌리배양에 의한 decursin 유도체 생산 증진을 위한 연구

  • Jo, Ji-Suk;Kim, Myeong-Hwan;Kim, Ji-Yeon;Lee, Gyeong-Seon;Jeon, Su-Hwan;Kim, Ik-Hwan;Kim, Dong-Il
    • 한국생물공학회:학술대회논문집
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    • 2000.11a
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    • pp.155-158
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    • 2000
  • Production of decursinol angelate, a new potential anticancer agent, in Angelica gigas Nakai root culture was increased by treatment of $H_2O_2$, and various polysaccharides such as $CM-\;{\beta}\;-cyclodextrin$, glucan, $CM-\;{\beta}\;-chitin$, yeast extract and pectin. One mmole $H_2O_2$ enhanced the production of decursinol angelate. However, higher concentrations of $H_2O_2$ were founded to be toxic for root growth whereas specific productivity of decursinol angelate was increased at high concentrations of $H_2O_2$. In the case of polysaccharide elicitors, $CM-\;{\beta}\;-chitin$ was the most effective for enhanced production of secondary metabolite in A. gigas Nakai root culture.

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Prostaglandin A2 triggers a strong oxidative burst in Laminaria: a novel defense inducer in brown algae?

  • Zambounis, Antonios;Gaquerel, Emmanuel;Strittmatter, Martina;Salaun, Jean-Pierre;Potin, Philippe;Kupper, Frithjof C.
    • ALGAE
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    • v.27 no.1
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    • pp.21-32
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    • 2012
  • We report an oxidative burst triggered by prostaglandin $A_2(PGA_2)$ in the brown algal kelp Laminaria digitata, constituting the first such discovery in an alga and the second finding of an oxidative burst triggered by a prostaglandin in a living organism. The response is more powerful than the oxidative burst triggered by most other chemical elicitors in Laminaria. Also, it is dose-dependent and cannot be inhibited by diphenylene iodonium, suggesting that another source than NAD(P)H oxidase is operational in the production of reactive oxygen species. Despite the very strong oxidative response, rather few effects at other levels of signal transduction pathways could be identified. $PGA_2$ does not increase lipolysis (free fatty acids) in Laminaria, and only one oxylipin (15-hydroxyeicosatetraenoic acid; 15-HETE) was found to be upregulated in Laminaria. In a subsequent set of experiments in the genome model Ectocarpus siliculosus, none of 5 selected candidate genes, all established participants in various stress responses, showed any significant differences in their expression profiles.

Overexpression of PgSQS1 Increases Ginsenoside Production and Negatively Affects Ginseng Growth Rate in Panax ginseng

  • Shim, Ju-Sun;Lee, Ok-Ran;Kim, Yu-Jin;Lee, Jung-Hye;Kim, Ju-Han;Jung, Dae-Young;In, Jun-Gyo;Lee, Beom-Soo;Yang, Deok-Chun
    • Journal of Ginseng Research
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    • v.34 no.2
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    • pp.98-103
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    • 2010
  • The medicinal plant Panax ginseng (P. ginseng) contains various phytosterols and bioactive triterpene saponins (ginsenosides). Squalene synthase catalyzes the first committed step in ginsenoside biosynthesis. Transgenic plants of P. ginseng were generated by introducing the squalene synthase gene derived from P. ginseng. Adventitious roots of the transgenic ginseng grew best in B5 medium, and 2 g of inoculum secured an optimal growth rate. Two phytohormones, indolebutyric acid and 1-naphtalene acetic acid, increased root growth and decreased ginsenoside production. Treatment with two selected elicitors, chitosan and jasmonic acid, and a precursor of the isoprenoid pathway, mevalonic acid, enhanced ginsenoside production and retarded ginseng growth rate.

Determinants of Plant Growth-promoting Ochrobactrum lupini KUDC1013 Involved in Induction of Systemic Resistance against Pectobacterium carotovorum subsp. carotovorum in Tobacco Leaves

  • Sumayo, Marilyn;Hahm, Mi-Seon;Ghim, Sa-Youl
    • The Plant Pathology Journal
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    • v.29 no.2
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    • pp.174-181
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    • 2013
  • The plant growth-promoting rhizobacterium Ochrobactrum lupini KUDC1013 elicited induced systemic resistance (ISR) in tobacco against soft rot disease caused by Pectobacterium carotovorum subsp. carotovorum. We investigated of its factors involved in ISR elicitation. To characterize the ISR determinants, KUDC1013 cell suspension, heat-treated cells, supernatant from a culture medium, crude bacterial lipopolysaccharide (LPS) and flagella were tested for their ISR activities. Both LPS and flagella from KUDC1013 were effective in ISR elicitation. Crude cell free supernatant elicited ISR and factors with the highest ISR activity were retained in the n-butanol fraction. Analysis of the ISR-active fraction revealed the metabolites, phenylacetic acid (PAA), 1-hexadecene and linoleic acid (LA), as elicitors of ISR. Treatment of tobacco with these compounds significantly decreased the soft rot disease symptoms. This is the first report on the ISR determinants by plant growth-promoting rhizobacteria (PGPR) KUDC1013 and identifying PAA, 1-hexadecene and LA as ISR-related compounds. This study shows that KUDC1013 has a great potential as biological control agent because of its multiple factors involved in induction of systemic resistance against phytopathogens.

Responses of Arabidopsis thaliana to Challenge by Pseudomonas syringae

  • Kim, Min Gab;Kim, Sun Young;Kim, Woe Yeon;Mackey, David;Lee, Sang Yeol
    • Molecules and Cells
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    • v.25 no.3
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    • pp.323-331
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    • 2008
  • Plants are continually exposed to a variety of potentially pathogenic microbes, and the interactions between plants and pathogenic invaders determine the outcome, disease or disease resistance. To defend themselves, plants have developed a sophisticated immune system. Unlike animals, however, they do not have specialized immune cells and, thus all plant cells appear to have the innate ability to recognize pathogens and turn on an appropriate defense response. Using genetic, genomic and biochemical methods, tremendous advances have been made in understanding how plants recognize pathogens and mount effective defenses. The primary immune response is induced by microbe-associated molecular patterns (MAMPs). MAMP receptors recognize the presence of probable pathogens and evoke defense. In the co-evolution of plant-microbe interactions, pathogens gained the ability to make and deliver effector proteins to suppress MAMP-induced defense responses. In response to effector proteins, plants acquired R-proteins to directly or indirectly monitor the presence of effector proteins and activate an effective defense response. In this review we will describe and discuss the plant immune responses induced by two types of elicitors, PAMPs and effector proteins.

Increase of Ginsenosides Production by the Treatment of Chitosan and Jasmonic Acid in the Adventitious Roots of Korean Ginseng (Panax ginseng C.A. Meyer) (Chitosan과 Jasmonic acid 처리에 의한 인삼 부정근의 Ginsenosides의 생산성 증대)

  • 이범수;인준교;송원섭;양덕춘
    • Korean Journal of Plant Resources
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    • v.17 no.1
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    • pp.48-53
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    • 2004
  • In order to investigate the effects of elicitors on the growth and ginsenosides biosynthesis of ginseng adventitious roots, chitosan and jasmonic acid were treated with various concentrations. The growth rate of adventitious roots was increased with the addition of chitosan at higher concentrations (10 mg/L), but the best accumulation of ginsenosides was observed at the lower concentration (5 mg/L). Jasmonic acid was an effective elicitor for ginsenosides biosynthesis in ginseng adventitious roots. The maximum accumulation of ginsenosides was observed at the treatment of 10 uM jasmonic acid. But the jasmonic acid was found to decrease the growth rate of adventitious roots.