Methyl Jasmonate Primed Defense Responses Against Penicillium expansum in Sweet Cherry Fruit

Plant Molecular Biology Reporter - The effect of methyl jasmonate (MeJA) treatment on controlling blue mold decay caused by Penicillium expansum in sweet cherry fruit and the possible mechanisms...     

Daytime Solar Heating Controls Downy Mildew Peronospora belbahrii in Sweet Basil

The biotrophic oomycete Peronospora belbahrii causes a devastating downy mildew disease in sweet basil. Due to the lack of resistant cultivars current control measures rely heavily on fungicides. However, resistance to fungicides and strict regulation on their deployment greatly restrict their use. Here we report on a ‘green’ method to control this disease. Growth chamber studies showed that P. belbahrii could hardly withstand exposure to high temperatures; exposure of spores, infected leaves, or infected plants to 35-45°C for 6-9 hours suppressed its survival. Therefore, daytime solar heating was employed in the field to control the downy mildew disease it causes in basil. Covering growth houses of sweet basil already infected with downy mildew with transparent infra-red-impermeable, transparent polyethylene sheets raised the daily maximal temperature during sunny hours by 11-22°C reaching 40-58°C (greenhouse effect). Such coverage, applied for a few hours during 1-3 consecutive days, had a detrimental effect on the survival of P. belbahrii: killing the pathogen and/or suppressing disease progress while enhancing growth of the host basil plants.     

植物花色素苷生物合成的转录调控

转录调节是植物花色素苷生物合成途径中调节其结构基因表达的重要环节之一。近十多年来,通过调节转录因子的表达激活或抑制有效地调控植物中花色素苷的合成成了众多植物学家研究的重点。现简要介绍了花色素苷的合成运输过程与液泡的沉积扣押、转录因子与调控及转录调节在遗传改良中的应用等方面的研究进展。     

Cholesterol Inhibition of Pentacyclic Triterpenoid Biosynthesis in Tetrahymena pyriformis*†

SYNOPSIS. Tetrahymena pyriformis synthesizes tetrahymanol and “diplopterol” from acetate, mevalonate or squalene. The formation of these pentacyclic triterpenoid alcohols is inhibited by the addition of cholesterol to the culture fluid of the ciliates. Cholesterol also inhibits the biosynthesis of squalene from acetate or mevalonic acid. The synthesis of other terpene derivatives from acetate and mevalonate continues in the presence of cholesterol, thus suggesting that a major block occurs after “isoprene” formation and before squalene formation. Further, inhibition of squalene conversion to the pentacyclic alcohols by cholesterol has been established.     

Yield,Composition and Antioxidant Capacity of the Essential Oil of Sweet Basil and Holy Basil as Influenced by Distillation Methods

The profile and bioactivity of essential oil (EO) depends on genetic, environmental, and other factors. We hypothesized that the basil EO may be influenced by the distillation methods. Hence, a study was conducted to evaluate the effect of steam distillation (SD) and hydrodistillation (HD) extraction method on the yield, composition, and bioactivity of EO of sweet basil (Ocimum basilicum) and holy basil (Ocimum tenuiflorum). In both basil species, the EO yield (content) was significantly higher from SD than from HD. There were significant differences in the compounds’ concentrations of EO obtained from SD and HD as well, however, the same compounds were identified in the EO from HD and SD. In the EO of O. basilicum, the concentration of 74% of the identified compounds were higher in SD than HD, whereas in the EO of O. tenuiflorum, the concentration of 84% of identified compounds were higher in SD than in HD. However, the concentrations of two of the major compounds of O. basilicum EO (estragole and methyl cinnamate) and a major compound of O. tenuiflorum EO (methyl eugenol) were significantly higher in HD than in SD. The type of distillation did not affect the antioxidant capacity of basil EO within the species. This study demonstrated that the type of distillation may significantly affect oil yield and composition but not the antioxidant capacity of the EO from sweet and holy basil.     

Regulation of Floral Terpenoid Emission and Biosynthesis in Sweet Basil (<Emphasis Type="Italic">Ocimum basilicum</Emphasis>)

Past studies have focused on the composition of essential oil of Ocimum basilicum leaves, but data on composition and regulation of its aerial emissions, especially floral volatile emissions, are scarce. We studied the chemical profile, within-flower spatial distribution (sepals, petals, pistils with stamina, and pedicels), diurnal emission kinetics and effects of exogenous methyl jasmonate (MeJA) application on the emission of floral volatiles by dynamic headspace collection, and identification using gas chromatography-mass spectrometry (GC–MS) and proton-transfer reaction mass spectrometry. We observed more abundant floral emissions from flowers compared with leaves. Sepals were the main emitters of floral volatiles among the flower parts studied. The emissions of lipoxygenase compounds and monoterpenoids, but not sesquiterpene emissions, displayed a diurnal variation driven by light. Response to exogenous MeJA treatment of flowers consisted of a rapid stress response and a longer-term acclimation response. The initial response was associated with enhanced emissions of fatty acid derivatives, monoterpenoids, and sesquiterpenoids without variation of the composition of individual compounds. The longer-term response was associated with enhanced monoterpenoid and sesquiterpenoid emissions with profound changes in the emission spectrum. According to correlated patterns of terpenoid emission changes upon stress, highlighted by a hierarchical cluster analysis, candidate terpenoid synthases responsible for observed diversity and complexity of released terpenoid blends were postulated. We conclude that flower volatile emissions differ quantitatively and qualitatively from leaf emissions, and overall contribute importantly to O. basilicum flavor, especially under stress conditions.     

Biosynthesis of GA73 Methyl Ester in Lygodium Ferns

Biosynthesis of GA73 methyl ester (GA73-Me), the principal antheridiogen in Lygodium ferns, was investigated. From the methanol extract of prothallia of Lygodium circinnatum, GA25, GA73, GA73-Me, GA88-Me, and a few unknown GA73 derivatives were detected by GC-MS. Because the presence of GA25 suggests that GA24, a direct precursor of GA25, could also be present in L. circinnatum prothallia, we used feeding experiments to investigate the possibility that GA24 is a precursor of GA73-Me. In L. circinnatum prothallia, [2H2]GA24 was converted into [2H2]GA73-Me and a trace amount of [2H2]GA9-Me, whereas [2H3]GA9 was converted into [2H3]GA9-Me and [2H3]monohydroxy-GA9-Me. Because GA73-Me, GA9-Me, and their monohydroxy derivatives had been identified by GC-MS from the culture medium of L. circinnatum prothallia, our results suggest that GA73-Me is biosynthesized from GA24 via GA73, and that neither GA9 nor GA9-Me is a precursor of GA73-Me. Though the possibility had been suggested that GA73-Me is biosynthesized from 9,15-cyclo-GA9 (GA103), [2H2]GA103 was not converted into [2H2]GA73-Me.     

Ethephon- and Jasmonate-Elicited Pathogenesis-Related Ribonucleases in Cultured Ginseng Cells

Cultured ginseng cells (Panax ginseng C.A. Mey strain R-1) produce two proteins exhibiting RNase activity (Pg1 and Pg2), which, on the basis of their amino acid sequences, have been earlier referred to intracellular pathogenesis-related proteins. An immunoenzyme technique for estimation of these proteins was developed. A close correlation was found between the content of these proteins and the RNase activity of the cultured cells. Ethephon and jasmonic acid activated the RNase activity, ethephon being more efficient. Salicylic acid did not activate Pg1 and Pg2; high concentrations of salicylic acid suppressed the RNase activity of the culture. The protein kinase inhibitor, H-7, reduced the content and activity of RNases both in the presence and absence of ethephon. The results obtained permit a suggestion that ethylene and jasmonic acid signaling pathways, which include protein phosphorylation, are involved in the induction of PR-10 proteins.     

植物次生细胞壁生物合成的转录调控网络

植物次生细胞壁包含纤维素、半纤维素和木质素, 赋予细胞壁机械强度及疏水性, 这种特性对植物直立生长、水分和营养物质运输以及抵御生物和非生物胁迫十分重要。该文总结了调控次生细胞壁生物合成的转录因子及其调控机制, 包括NAC转录因子调控次生壁合成的一级开关作用, AtMYB46/AtMYB83及其下游调控因子的二级开关作用, 以及其它转录因子对次生壁生物合成的调控作用, 并对未来研究内容和方法进行了展望, 以期为深入系统理解次生细胞壁生物合成的转录调控网络提供参考。     

Early Responses in Methyl Jasmonate-Preconditioned Cells toward Pathogen-Derived Elicitors

Early, signal transduction-related responses in cultured tobacco cells due to methyl jasmonate (MeJa), a cell-wall-derived elicitor from Phytophthora nicotianae and chitosan, were investigated. MeJa was an effective inducer of lipid peroxidation and lipoxygenase (LOX) activity with maximum levels reached within 2 h and 4–8 h, respectively. Chitosan and the elicitor induced a transient increase (1–4 h) in lipid peroxidation. Conditioning with MeJA, followed by secondary elicitation, led to a significant increase in malondialdehyde concentration after 1 h. Chitosan and the elicitor induced transient activation of LOX with maximal values between 8 and 12 h, with preconditioning resulting in a rapid increase in LOX activity at 4 h post elicitation. MeJA did not effect phosphoprotein accumulation but conditioning led to the potentiation and differential induction of phosphoproteins due to chitosan and elicitor. The results indicate that cells are sensitized by the exposure to MeJa to respond more intensely and rapidly toward secondary elicitation by fungal pathogen derived elicitors.     

The Roles of a Flavone-6-Hydroxylase and 7-O-Demethylation in the Flavone Biosynthetic Network of Sweet Basil

Lipophilic flavonoids found in the Lamiaceae exhibit unusual 6- and 8-hydroxylations whose enzymatic basis is unknown. We show that crude protein extracts from peltate trichomes of sweet basil (Ocimum basilicum L.) cultivars readily hydroxylate position 6 of 7-O-methylated apigenin but not apigenin itself. The responsible protein was identified as a P450 monooxygenase from the CYP82 family, a family not previously reported to be involved in flavonoid metabolism. This enzyme prefers flavones but also accepts flavanones in vitro and requires a 5-hydroxyl in addition to a 7-methoxyl residue on the substrate. A peppermint (Mentha × piperita L.) homolog displayed identical substrate requirements, suggesting that early 7-O-methylation of flavones might be common in the Lamiaceae. This hypothesis is further substantiated by the pioneering discovery of 2-oxoglutarate-dependent flavone demethylase activity in basil, which explains the accumulation of 7-O-demethylated flavone nevadensin.     

First Report of Peronospora belbahrii on Sweet Basil in Baja California Sur,México

In Baja California Sur, Mexico, a foliar disease occurred on sweet basil which seriously affected its quality and yield. The most common symptoms were yellowing and necrosis on leaves, caused by a downy mycelium growth on the lower leaf surface. Symptomatic leaves from two sampling sites were collected for morphological studies and molecular analysis of pathogen DNA. Based on morphological characteristics (sporangiophore size of 240–530 × 7–11 μm, branches of 5–8 order and a sporangia size of 27–31 × 21–25 μm) and molecular analysis (the GenBank blast of the PCR assays showed unique rDNA sequence data with 99% similarity to P. belbahrii), the pathogen was identified as Peronospora belbahrii, the causal agent of basil downy mildew. This is the first report of P. belbahrii affecting sweet basil in Mexico.