Kazuo Masuda scite author profile

Summary 3-Hydroxy-3-methylglutaryl-CoA reductase (HMGR) catalyzes the ®rst committed step in the cytosolic isoprenoid biosynthesis pathway in higher plants. To understand the contribution of HMGR to plant development, we isolated T-DNA insertion mutants for HMG1 and HMG2. The hmg1 and hmg2 mutants were both more sensitive than the wild type (WT) to lovastatin, an inhibitor of HMGR. The hmg2 mutant showed no visible phenotype under normal growth conditions. In contrast, the hmg1 mutant exhibited dwar®ng, early senescence, and sterility. Expression of senescence-associated genes 12 (SAG12 ), a marker gene for senescence, was induced in the hmg1 mutant at an earlier stage than in the WT. Levels of trans-cytokinins ± hormones known to inhibit senescence ± were not lower in hmg1. The mutant did not have the typical appearance of brassinosteroid (BR)-de®cient mutants, except for a dwarf phenotype, because of the suppression of cell elongation. The expression of several genes involved in cell elongation was suppressed in hmg1. WT plants treated exogenously with inhibitors of sterol biosynthesis had similar gene expression and sterility characteristics as the hmg1 mutants. Pleiotropic phenotypes were rescued by feeding with squalene, the precursor of sterols and triterpenoids. The sterol levels in hmg1 mutants were lower than in the WT. These ®ndings suggest that HMG1 plays a critical role in triterpene biosynthesis, and that sterols and/or triterpenoids contribute to cell elongation, senescence, and fertility.

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Molecular cloning and functional expression of triterpene synthases from pea (Pisum sativum)

Morita

Shibuya

Kushiro

et al. 2000

European Journal of Biochemistry

133

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Ursane type triterpene is one of the most widespread triterpene aglycones found in plants, together with oleanane type, and these two types often occur together in the same plant. Pisum sativum is known to produce both types of triterpenes. Homology based PCRs with degenerate primers designed from the conserved sequences found in the known b-amyrin synthases have resulted in cloning of two triterpene synthase cDNAs from immature seeds of P. sativum. They show high sequence identities to each other (78%) and also to the known b-amyrin synthases (70±90%). ORFs of the full-length clones named as PSY (2277 bp, codes for 759 amino acids) and PSM (2295 bp, codes for 765 amino acids) were ligated into the yeast expression vector pYES2 under the control of GAL1 promoter. Heterologous expression in yeast revealed PSY to be a P. sativum b-amyrin synthase. Surprisingly, however, PSM turned out to be a novel mixed amyrin synthase producing both a-and b-amyrin. Several minor triterpenes were also identified as the PSM byproducts. The presence of such multifunctional triterpene synthase would account for the co-occurence of ursane and oleanane type triterpenes in plants.

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Mass Spectra of Pentacyclic Triterpenoids.

Shiojima¹,

Arai²,

Masuda³

et al. 1992

Chem. Pharm. Bull.

114

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Anti-carcinogenic Activity of Taraxacum Plant. II.

Takasaki¹,

Konoshima²,

Tokuda³

et al. 1999

Biological & Pharmaceutical Bulletin

103

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Identification of medicinal Dendrobium species by phylogenetic analyses using matK and rbcL sequences

et al. 2010

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Species identification of five Dendrobium plants was conducted using phylogenetic analysis and the validity of the method was verified. Some Dendrobium plants (Orchidaceae) have been used as herbal medicines but the difficulty in identifying their botanical origin by traditional methods prevented their full modern utilization. Based on the emerging field of molecular systematics as a powerful classification tool, a phylogenetic analysis was conducted using sequences of two plastid genes, the maturase-coding gene (matK) and the large subunit of ribulose 1,5-bisphosphate carboxylase-coding gene (rbcL), as DNA barcodes for species identification of Dendrobium plants. We investigated five medicinal Dendrobium species, Dendrobium fimbriatum, D. moniliforme, D. nobile, D. pulchellum, and D. tosaense. The phylogenetic trees constructed from matK data successfully distinguished each species from each other. On the other hand, rbcL, as a single-locus barcode, offered less species discriminating power than matK, possibly due to its being present with little variation. When results using matK sequences of D. officinale that was deposited in the DNA database were combined, D. officinale and D. tosaense showed a close genetic relationship, which brought us closer to resolving the question of their taxonomic identity. Identification of the plant source as well as the uniformity of the chemical components is critical for the quality control of herbal medicines and it is important that the processed materials be validated. The methods presented here could be applied to the analysis of processed Dendrobium plants and be a promising tool for the identification of botanical origins of crude drugs.

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Kazuo Masuda

Loss of function of 3‐hydroxy‐3‐methylglutaryl coenzyme A reductase 1 (HMG1) in Arabidopsis leads to dwarfing, early senescence and male sterility, and reduced sterol levels

Molecular cloning and functional expression of triterpene synthases from pea (Pisum sativum)

Mass Spectra of Pentacyclic Triterpenoids.

Anti-carcinogenic Activity of Taraxacum Plant. II.

Identification of medicinal Dendrobium species by phylogenetic analyses using matK and rbcL sequences

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