Luis M. Peña‐Rodríguez scite author profile

SummaryGenes for triterpene biosynthetic pathways exist as metabolic gene clusters in oat and Arabidopsis thaliana plants. We characterized the presence of an analogous gene cluster in the model legume Lotus japonicus.In the genomic regions flanking the oxidosqualene cyclase AMY2 gene, genes for two different classes of cytochrome P450 and a gene predicted to encode a reductase were identified. Functional characterization of the cluster genes was pursued by heterologous expression in Nicotiana benthamiana. The gene expression pattern was studied under different developmental and environmental conditions. The physiological role of the gene cluster in nodulation and plant development was studied in knockdown experiments.A novel triterpene structure, dihydrolupeol, was produced by AMY2. A new plant cytochrome P450, CYP71D353, which catalyses the formation of 20-hydroxybetulinic acid in a sequential three-step oxidation of 20-hydroxylupeol was characterized. The genes within the cluster are highly co-expressed during root and nodule development, in hormone-treated plants and under various environmental stresses. A transcriptional gene silencing mechanism that appears to be involved in the regulation of the cluster genes was also revealed.A tightly co-regulated cluster of functionally related genes is involved in legume triterpene biosynthesis, with a possible role in plant development.

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ChemInform Abstract: Plant Natural Products with Leishmanicidal Activity

Chan-Bacab¹,

Peña‐Rodríguez²

2002

ChemInform

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Role of lupeol synthase in Lotus japonicus nodule formation

et al. 2010

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Summary• Triterpenes are plant secondary metabolites, derived from the cyclization of 2,3-oxidosqualene by oxidosqualene cyclases (OSCs). Here, we investigated the role of lupeol synthase, encoded by OSC3, and its product, lupeol, in developing roots and nodules of the model legume Lotus japonicus.• The expression patterns of OSC3 in different developmental stages of uninfected roots and in roots infected with Mesorhizobium loti were determined. The tissue specificity of OSC3 expression was analysed by in situ hybridization. Functional analysis, in which transgenic L. japonicus roots silenced for OSC3 were generated, was performed. The absence of lupeol in the silenced plant lines was determined by GC-MS.• The expression of ENOD40, a marker gene for nodule primordia initiation, was increased significantly in the OSC3-silenced plant lines, suggesting that lupeol influences nodule formation. Silenced plants also showed a more rapid nodulation phenotype, consistent with this. Exogenous application of lupeol to M. loti-infected wild-type plants provided further evidence for a negative regulatory effect of lupeol on the expression of ENOD40.• The synthesis of lupeol in L. japonicus roots and nodules can be solely attributed to OSC3. Taken together, our data suggest a role for lupeol biosynthesis in nodule formation through the regulation of ENOD40 gene expression.

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Toxins from Weed Pathogens, I. Phytotoxins from a Bipolaris Pathogen of Johnson Grass

Peña‐Rodríguez¹,

Armingeon²,

Chilton³

1988

J. Nat. Prod.

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Twostrongly phytotoxic metabolites, prehelminthosporol [1] and dihydroprehelminthosporol [4}, have been isolated from culture filtrates of a Bipolaris species pathogenic to Johnson grass. Prehelminthosporol [1] occurs naturally as a mixture of epimers.The isomers have been separated as the corresponding acetyl derivatives, and the stereochemistry at the hemiacetal carbon has been determined by nOe experiments. Four other structurally related sesquiterpenes, helminthosporal acid [6], helminthosporol [8], helminthosporic acid [91, and isosativenediol [101, were also isolated but showed no significant activity.

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Bioactive Isocoumarins and Related Metabolites from Conifer Endophytes

Ja¹,

Buthelezi²,

R³

et al. 1995

J. Nat. Prod.

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Metabolites Produced by Alternaria brassicae, the Black Spot Pathogen of Canola. Part 1, The Phytotoxic Components

Ayer¹,

Peña‐Rodríguez²

1987

J. Nat. Prod.

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Untitled

2001

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Antiprotozoal activity of Betulinic acid derivatives

et al. 2010

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