Your search keyword '"Lauraceae metabolism"' showing total 30 results

1. Oil and mucilage idioblasts co-occur in the vegetative organs of Ocotea pulchella (Lauraceae): comparative development, ultrastructure and secretions.

Author

de Deus Bento KB, Canaveze Y, and Machado SR

Subjects

Plant Mucilage metabolism, Plant Oils metabolism, Plant Leaves ultrastructure, Plant Leaves metabolism, Lauraceae metabolism

Abstract

This study compares oil and mucilage idioblasts occurring together in the vegetative organs of Ocotea pulchella, a Lauraceae species. Our focus is specifically on the ontogeny and developmental cytology of these secretory cells. Both types of idioblasts originate from solitary cells located in the fundamental meristem, underlying the protodermis. The growth of both types of idioblasts is asynchronous, with the oil idioblasts developing first, but their initiation is restricted to the early stages of organ development. Mucilaginous idioblasts occur exclusively in the palisade parenchyma, while oil idioblasts are scattered throughout the mesophyll, midrib, and petiole of the leaves. The lamellar secretion of mucilage idioblasts is mostly made up of polysaccharides, while the secretion of oil idioblasts is made up of terpenes and lipids. Cupule occurred only in the oil idioblasts, while suberized layers occurred in both types of cells. We found that immature oil idioblasts that are close to each other fuse; mature mucilage idioblasts have labyrinthine walls arranged in a reticulate pattern; the cells close to the oil idioblasts have a pectin protective layer; and the oil idioblasts have a sheath of phenolic cells. In contrast to previous reports, the two types of secretory idioblasts were recognized during the early stages of their development. The results emphasize the importance of combining optical and electron microscopy methods to observe the ontogenetic, histochemical and ultrastructural changes that occur during the development of the secretory idioblasts. This can help us understand how secreting cells store their secretions and how their walls become specialized., (© 2024. The Author(s), under exclusive licence to Springer-Verlag GmbH Austria, part of Springer Nature.)

Published

2024

2. The chromosome-scale genome of Phoebe bournei reveals contrasting fates of terpene synthase (TPS)-a and TPS-b subfamilies.

Author

Han X, Zhang J, Han S, Chong SL, Meng G, Song M, Wang Y, Zhou S, Liu C, Lou L, Lou X, Cheng L, Lin E, Huang H, Yang Q, and Tong Z

Subjects

Terpenes metabolism, Monoterpenes metabolism, Chromosomes metabolism, Lauraceae metabolism, Sesquiterpenes metabolism

Abstract

Terpenoids, including aromatic volatile monoterpenoids and sesquiterpenoids, function in defense against pathogens and herbivores. Phoebe trees are remarkable for their scented wood and decay resistance. Unlike other Lauraceae species investigated to date, Phoebe species predominantly accumulate sesquiterpenoids instead of monoterpenoids. Limited genomic data restrict the elucidation of terpenoid variation and functions. Here, we present a chromosome-scale genome assembly of a Lauraceae tree, Phoebe bournei, and identify 72 full-length terpene synthase (TPS) genes. Genome-level comparison shows pervasive lineage-specific duplication and contraction of TPS subfamilies, which have contributed to the extreme terpenoid variation within Lauraceae species. Although the TPS-a and TPS-b subfamilies were both expanded via tandem duplication in P. bournei, more TPS-a copies were retained and constitutively expressed, whereas more TPS-b copies were lost. The TPS-a genes on chromosome 8 functionally diverged to synthesize eight highly accumulated sesquiterpenes in P. bournei. The essential oil of P. bournei and its main component, β-caryophyllene, exhibited antifungal activities against the three most widespread canker pathogens of trees. The TPS-a and TPS-b subfamilies have experienced contrasting fates over the evolution of P. bournei. The abundant sesquiterpenoids produced by TPS-a proteins contribute to the excellent pathogen resistance of P. bournei trees. Overall, this study sheds light on the evolution and adaptation of terpenoids in Lauraceae and provides valuable resources for boosting plant immunity against pathogens in various trees and crops., (Copyright © 2022 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2022

3. Kaempferol-3-O-α-(3,4-di-E-p-coumaroyl)-rhamnopyranoside from Nectandra oppositifolia releases Ca 2+ from intracellular pools of Trypanosoma cruzi affecting the bioenergetics system.

Author

Conserva GA, Costa-Silva TA, Quirós-Guerrero LM, Marcourt L, Wolfender JL, Queiroz EF, Tempone AG, and Lago JHG

Subjects

Adenosine Triphosphate metabolism, Animals, Cell Membrane Permeability drug effects, Cell Survival drug effects, Female, Flavonoids isolation & purification, Flavonoids pharmacology, Ions chemistry, Lauraceae metabolism, Membrane Potential, Mitochondrial drug effects, Mice, Mice, Inbred BALB C, Mitochondria drug effects, Mitochondria metabolism, Plant Extracts chemistry, Plant Leaves chemistry, Plant Leaves metabolism, Reactive Oxygen Species metabolism, Trypanosoma cruzi drug effects, Calcium metabolism, Flavonoids chemistry, Kaempferols chemistry, Lauraceae chemistry, Trypanosoma cruzi metabolism

Abstract

Phytochemical analysis of EtOH extract from leaves of Nectandra oppositifolia afforded three flavonoids: kaempferol (1), kaempferol-3-O-α-rhamnopyranoside (2) and kaempferol-3-O-α-(3,4-di-E-p-coumaroyl)-rhamnopyranoside (3), which were characterized by NMR and ESI-HRMS. When tested against the protozoan parasite Trypanosoma cruzi, the etiologic agent of Chagas disease, flavonoids 1 and 3 were effective to kill the trypomastigotes with IC 50 values of 32.0 and 6.7 μM, respectively, while flavonoid 2 was inactive. Isolated flavonoids 1-3 were also tested in mammalian fibroblasts and showed CC 50 values of 24.8, 48.7 and 153.1 μM, respectively. Chemically, these results suggested that the free aglycone plays an important role in the bioactivity while the presence of p-coumaroyl unities linked in the rhamnoside unity is important to enhance the antitrypanosomal activity and reduce the mammalian cytotoxicity. The mechanism of cellular death was investigated for the most potent flavonoid 3 in the trypomastigotes using fluorescent and luminescent-based assays. It indicated that this compound induced neither permeabilization of the plasma membrane nor depolarization of the membrane electric potential. However, early time incubation (20 min) with flavonoid 3 resulted in a constant elevation of the Ca 2+ levels inside the parasite. This effect was followed by a mitochondrial imbalance, leading to a hyperpolarization and depolarization of the mitochondrial membrane potential, with reduction of the ATP levels. During this time, the levels of reactive oxygen species levels (ROS) were unaltered. The leakage of Ca 2+ from the intracellular pools can affect the bioenergetics system of T. cruzi, leading to the parasite death. Therefore, flavonoid 3 can be a useful tool for future studies against T. cruzi parasites., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published

2021

4. Interaction of isolinderanolide E obtained from Nectandra oppositifolia with biomembrane models.

Author

Rosa ME, Alves Conserva GA, Lago JHG, and Caseli L

Subjects

Microscopy methods, Phenyl Ethers metabolism, Rheology, Spectrum Analysis methods, Thermodynamics, Anti-Infective Agents metabolism, Lactones metabolism, Lauraceae metabolism, Membranes, Artificial, Models, Chemical

Abstract

A long-tail lactone, named isolinderanolide E, was obtained from Nectandra oppositifolia and incorporated in Langmuir monolayers of dipalmitoyl-phosphoethanolamine (DPPE) as a model of microbial membranes. The compound was dissolved in chloroform and mixed with DPPE to provide mixed solutions spread on the air-water interface. After solvent evaporation, mixed monolayers were formed, and surface pressure-area isotherms, dilatational rheology, Brewster angle microscopy (BAM), and infrared spectroscopy were employed to characterize the prodrug-membrane interactions. Isolinderanolide E expanded DPPE monolayers, denoting repulsive interactions. At 30 mN/m, the monolayer presented higher viscoelastic and in-plane elasticity parameters and an increased ratio of all-trans/gauche conformers of the alkyl chains, confirming molecular order. Morphology of the monolayer was analyzed by BAM, which revealed a more homogeneous distribution of Isolinderanolide E along the DPPE monolayer than the prodrug directly spread at the interface, which tends to aggregate. A molecular model proposing the molecular orientation of the amphiphilic drug is presented and explained by the distortion of the alkyl chains as well as by viscoelastic changes. In conclusion, the prodrug changes the thermodynamic, rheological, morphological, and structural properties of the DPPE monolayer, which may be essential to understand, at the molecular level, the action of bioactives in selected membrane models., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published

2021

5. Biosynthetic investigation of γ-lactones in Sextonia rubra wood using in situ TOF-SIMS MS/MS imaging to localize and characterize biosynthetic intermediates.

Author

Fu T, Houël E, Amusant N, Touboul D, Genta-Jouve G, Della-Negra S, Fisher GL, Brunelle A, and Duplais C

Subjects

Acetals metabolism, Alkenes metabolism, Alkynes metabolism, Lauraceae metabolism, Tandem Mass Spectrometry, Wood metabolism

Abstract

Molecular analysis by parallel tandem mass spectrometry (MS/MS) imaging contributes to the in situ characterization of biosynthetic intermediates which is crucial for deciphering the metabolic pathways in living organisms. We report the first use of TOF-SIMS MS/MS imaging for the cellular localization and characterization of biosynthetic intermediates of bioactive γ-lactones rubrynolide and rubrenolide in the Amazonian tree Sextonia rubra (Lauraceae). Five γ-lactones, including previously reported rubrynolide and rubrenolide, were isolated using a conventional approach and their structural characterization and localization at a lateral resolution of ~400 nm was later achieved using TOF-SIMS MS/MS imaging analysis. 2D/3D MS imaging at subcellular level reveals that putative biosynthetic γ-lactones intermediates are localized in the same cell types (ray parenchyma cells and oil cells) as rubrynolide and rubrenolide. Consequently, a revised metabolic pathway of rubrynolide was proposed, which involves the reaction between 2-hydroxysuccinic acid and 3-oxotetradecanoic acid, contrary to previous studies suggesting a single polyketide precursor. Our results provide insights into plant metabolite production in wood tissues and, overall, demonstrate that combining high spatial resolution TOF-SIMS imaging and MS/MS structural characterization offers new opportunities for studying molecular and cellular biochemistry in plants.

Published

2019

6. Alkaloids of the Lauraceae.

Author

Silva Teles MMR, Vieira Pinheiro AA, Da Silva Dias C, Fechine Tavares J, Barbosa Filho JM, and Leitão Da Cunha EV

Subjects

Alkaloids biosynthesis, Lauraceae metabolism, Molecular Structure, Alkaloids chemistry, Lauraceae chemistry

Abstract

This chapter presents an overview of the chemistry and pharmacology of the alkaloids found in species of the Lauraceae family. The occurrence of alkaloids from Lauraceae species as well as their chemical structures is summarized in informative and easy-to-understand tables. Within the Lauraceae family, the genera Ocotea (195), Litsea (180), Cryptocarya (133), and Neolitsea (110) have led to the greater number of publications regarding alkaloids content. Valuable and comprehensive information about the structure of these alkaloids is provided. The alkaloids of the aporphine type, found in 22 of the 23 genera, represent the predominant group in this family. Many of the isolated alkaloids exhibit unique structures. From plants of this family, 22 different types of skeletons have been isolated, among them only the purine alkaloids are classified as pseudoalkaloids, and the types phenethylamines, phenethylcinnamides, and phthalidoisoquinoline are classified as protoalkaloids. The chapter is presented as a contribution for the scientific community, mainly to enable the search for alkaloids in species belonging to the Lauraceae family., (© 2019 Elsevier Inc. All rights reserved.)

Published

2019

7. The floral transcriptome of Machilus yunnanensis, a tree in the magnoliid family Lauraceae.

Author

Song Y, Gan Y, Liu L, and Corlett RT

Subjects

Flowers growth & development, Flowers metabolism, Lauraceae growth & development, Lauraceae metabolism, Plant Growth Regulators genetics, Plant Growth Regulators metabolism, Signal Transduction, Flowers genetics, Gene Expression Regulation, Plant, Gene Regulatory Networks, Lauraceae genetics, Transcriptome

Abstract

Machilus yunnanensis Lecomte is an important Chinese timber species in the family Lauraceae, subclass Magnoliidae. To understand the genetic and molecular basis of flowering in M. yunnanensis, we applied RNA-seq for transcriptome analysis of young and mature flowers and compared these with the transcriptome of leaves. From approximately 26 Gb Illumina clean reads, we obtained a total of 85 823 high-quality transcripts using Trinity software. Comparisons of gene expression in young and mature flowers showed that 37 877 genes were differentially expressed. Among those genes, 121 and 111 genes are implicated in the flowering network and in plant hormone signaling transduction, respectively. Moreover, 141 homologs of these genes displayed similar expression patterns during flower development in M. yunnanensis and Arabidopsis thaliana. Using cluster analysis, we further compared the gene expression profiles in the different pathways that control flowering and phytohormone signaling, and found similar gene expression patterns in the temperature, gibberellin, brassinosteroid, and auxin mediated flowering pathways. Our study provides a clear gene network for flowering and related plant hormone regulating crosstalk in M. yunnanensis and shows that the temporal regulatory programs in the development of flower organs of Machilus are similar to those in the very different flowers of Arabidopsis., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

8. Transcriptome analysis reveals a composite molecular map linked to unique seed oil profile of Neocinnamomum caudatum (Nees) Merr.

Author

Gan Y, Song Y, Chen Y, Liu H, Yang D, Xu Q, and Zheng Z

Subjects

Fatty Acids biosynthesis, Gene Expression Profiling, Genes, Plant, Lauraceae metabolism, Seeds genetics, Seeds growth & development, Triglycerides biosynthesis, Lauraceae genetics, Plant Oils metabolism

Abstract

Background: Neocinnamomum caudatum (Nees) Merr., a biodiesel tree species in the subtropical areas of South China, India and Burma, is distinctive from other species in Lauraceae family and its seed oil is rich in linoleic acid (18:2) and stearic acid (18:0). However, there is little genetic information about this species so far. In this study, a transcriptomic analysis on developing seeds of N. caudatum was conducted in an attempt to discern the molecular mechanisms involving the control of the fatty acid (FA) and triacylglycerol (TAG) biosynthesis., Results: Transcriptome analysis revealed 239,703 unigenes with an average length of 436 bp and 137 putative biomarkers that are related to FA formation and TAG biosynthesis. The expression patterns of genes encoding β-ketoacyl-acyl carrier protein synthase I (KASI), β- ketoacyl-acyl carrier protein synthase II (KASII), stearoyl-ACP desaturase (SAD), fatty acid desaturase 2 (FAD2), fatty acid desaturase 8 (FAD8) and acyl-ACP thioesterase A/B (FATA/B) were further validated by qRT-PCR. These genes displayed a very similar expression pattern in two distinct assays. Moreover, sequence analysis of different FATBs from diverse plant species revealed that NcFATB is structurally different from its counterpart in other species in producing medium-chain saturated FAs. Concertedly, heterologous expression of NcFATB in E. coli BL21 (DE3) strain showed that this corresponding expressed protein, NcFATB, prefers long-chain saturated fatty acyl-ACP over medium-chain fatty acyl-ACP as substrate., Conclusions: Transcriptome analysis of developing N. caudatum seeds revealed a composite molecular map linked to the FA formation and oil biosynthesis in this biodiesel tree species. The substrate preference of NcFATB for long-chain saturated FAs is likely to contribute to its unique seed oil profile rich in stearic acid. Our findings demonstrate that in the tree species of Lauraceae family, the FATB enzymes producing long-chain FAs are structurally distinct from those producing medium-chain FAs, thereby suggesting that the FATB genes may serve as a biomarker for the classification of tree species of Lauraceae family.

Published

2018

9. Gelsemium poisoning mediated by the non-toxic plant Cassytha filiformis parasitizing Gelsemium elegans.

Author

Cheung WL, Law CY, Lee HCH, Tang CO, Lam YH, Ng SW, Chan SS, Chow TC, Pang KS, and Mak TWL

Subjects

Adult, Alkaloids metabolism, Chromatography, High Pressure Liquid, Gelsemium metabolism, Gelsemium parasitology, Humans, Lauraceae metabolism, Middle Aged, Tandem Mass Spectrometry, Young Adult, Alkaloids chemistry, Alkaloids poisoning, Gelsemium chemistry, Gelsemium poisoning, Lauraceae poisoning

Abstract

Introduction: Gelsemium poisoning is caused by consumption of the deadly Gelsemium species such as Gelsemium elegans, leading to significant gastrointestinal, neurological and cardio-respiratory toxicities. In 2011 (Cluster 1) and 2012 (Cluster 2), the authors encountered two clusters of gelsemium poisoning after consumption of the non-toxic parasitic plant Cassytha filiformis. The current study aims to examine the mechanism of gelsemium poisoning mediated by a benign parasitic plant., Methods: Qualitative analysis of toxic gelsemium alkaloids using liquid chromatography-tandem mass spectrometry (LC-MS/MS) was performed on the herbal and urine samples from both clusters to confirm exposure. Morphological examination, qualitative analysis of aporphine alkaloids using liquid chromatography-ion trap-time of flight mass spectrometry (LC-IT-TOF/MS) and Sanger sequencing were performed on the plant sample from Cluster 2 to confirm its identity. A field study was conducted in local countryside and C. filiformis was collected for histological, LC-MS/MS and LC-IT-TOF/MS analyses to study its interaction with G. elegans., Results: Gelsemium alkaloids that are not naturally present in C. filiformis were detected in the patients' herbal and urine samples. Misidentification and contamination with G. elegans during the preparation process were excluded by morphological examination of the plant sample from Cluster 2. Its identity as C. filiformis was verified with LC-IT-TOF/MS and molecular analyses. Histological, LC-MS/MS and LC-IT-TOF/MS analyses of C. filiformis collected during the field study confirmed that its haustoria penetrated the vascular bundles of G. elegans and absorbed its gelsemium toxins., Conclusions: The non-toxic plant C. filiformis absorbed toxic gelsemium alkaloids from its host, G. elegans, and led to gelsemium poisoning in our patients. Our study provides new insights into the toxicology of such plants. Benign parasitic plants may lead to potentially life-threatening poisoning if it parasitizes toxic hosts and absorbs their phytotoxins. The public awareness of risks associated with the use of these medicinal parasitic plants should be raised., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

10. In depth investigation of the metabolism of Nectandra megapotamica chemotypes.

Author

Farias KS, Delatte T, Arruda RDCO, Alves FM, Silva DB, Beekwilder J, and Carollo CA

Subjects

Chromatography, Liquid, Gas Chromatography-Mass Spectrometry, Histocytochemistry, Monocyclic Sesquiterpenes, Oils, Volatile chemistry, Oils, Volatile metabolism, Phytochemicals chemistry, Phytochemicals metabolism, Plant Leaves chemistry, Plant Leaves metabolism, Sesquiterpenes chemistry, Sesquiterpenes metabolism, Lauraceae chemistry, Lauraceae metabolism, Metabolome, Metabolomics methods

Abstract

Plants produce a wide range of secondary metabolites. Within a single species, chemotypes can be distinguished by the differences in the composition of the secondary metabolites. Herein, we evaluated Nectandra megapotamica (Spreng.) chemotypes and the balance of different classes of metabolites to verify how significant differences in plant metabolism are regarding chemotypes. We collected N. megapotamica leaves from eight adult plants in two Brazilian states. The essential oils and ethanol/water extracts were analyzed by GC-MS and LC-DAD-MS, respectively. Histochemical tests were performed, as well as chemical analyses of leaves from adaxial and abaxial foliar surfaces of N. megapotamica, and the stereochemistry of α-bisabolol was determined. Two different chemotypes, based on volatile compounds, were identified, distinguished by the presence of isospathulenol, α-bisabolol, β-bisabolene, and (E)-nerolidol for chemotype A, and bicyclogermacrene and elemicin for chemotype B. A stereochemical analysis of chemotype A extract revealed (+)-α-bisabolol enantiomer. Histochemical tests of chemotypes showed similar results and suggested the presence of essential oil in idioblasts stained with the dye NADI. The analyses of chemotype A leaves by GC-MS revealed similar compositions for abaxial and adaxial surfaces, such pattern was also observed for chemotype B. Medium and high polarity metabolites showed high chemical similarities between the chemotypes, highlighting the presence of proanthocyanidins and glycosylated flavonoids (O- and C-glycosides). Thus, N. megapotamica produced distinct volatile chemotypes with highly conserved medium to high polarity compounds. Such results suggest that phenolic derivatives have a basal physiological function, while genetic or environmental differences lead to differentiation in volatile profiles of N. megapotamica., Competing Interests: The authors have declared that no competing interests exist.

Published

2018

11. Tandem Mass Spectrometry Imaging and in Situ Characterization of Bioactive Wood Metabolites in Amazonian Tree Species Sextonia rubra.

Author

Fu T, Touboul D, Della-Negra S, Houël E, Amusant N, Duplais C, Fisher GL, and Brunelle A

Subjects

Acetals metabolism, Alkenes metabolism, Alkynes metabolism, Biological Products metabolism, Chromatography, Liquid, Lauraceae metabolism, Molecular Structure, Surface Properties, Tandem Mass Spectrometry, Trees metabolism, Wood metabolism, Acetals analysis, Alkenes analysis, Alkynes analysis, Biological Products analysis, Lauraceae chemistry, Trees chemistry, Wood chemistry

Abstract

Driven by a necessity for confident molecular identification at high spatial resolution, a new time-of-flight secondary ion mass spectrometry (TOF-SIMS) tandem mass spectrometry (tandem MS) imaging instrument has been recently developed. In this paper, the superior MS/MS spectrometry and imaging capability of this new tool is shown for natural product study. For the first time, via in situ analysis of the bioactive metabolites rubrynolide and rubrenolide in Amazonian tree species Sextonia rubra (Lauraceae), we were able both to analyze and to image by tandem MS the molecular products of natural biosynthesis. Despite the low abundance of the metabolites in the wood sample(s), efficient MS/MS analysis of these γ-lactone compounds was achieved, providing high confidence in the identification and localization. In addition, tandem MS imaging minimized the mass interferences and revealed specific localization of these metabolites primarily in the ray parenchyma cells but also in certain oil cells and, further, revealed the presence of previously unidentified γ-lactone, paving the way for future studies in biosynthesis.

Published

2018

12. Antinociceptive activity of Riparin II from Aniba riparia: Further elucidation of the possible mechanisms.

Author

Rodrigues de Carvalho AM, Vasconcelos LF, Moura Rocha NF, Vasconcelos Rios ER, Dias ML, Maria de França Fonteles M, Gaspar DM, Barbosa Filho JM, Chavez Gutierrez SJ, and Florenço de Sousa FC

Subjects

Acid Sensing Ion Channels metabolism, Alanine Transaminase blood, Analgesics therapeutic use, Animals, Aspartate Aminotransferases blood, Behavior, Animal drug effects, Benzamides therapeutic use, Body Weight drug effects, Bradykinin metabolism, Creatinine blood, Cyclic AMP-Dependent Protein Kinases metabolism, Disease Models, Animal, Lauraceae metabolism, Male, Mice, Pain chemically induced, Pain drug therapy, Pain pathology, Pain prevention & control, Protein Kinase C metabolism, TRPM Cation Channels metabolism, Tyramine pharmacology, Tyramine therapeutic use, Urea blood, Analgesics pharmacology, Benzamides pharmacology, Lauraceae chemistry, Tyramine analogs & derivatives

Abstract

Riparin II (RipII) has an anti-inflammatory activity potentially due its ability to decrease TNF-α and IL-1β production and its histamine antagonism. The objective of this study was to evaluate the role of RipII in the pain process and the possible antinociceptive mechanisms involved, using classic models of nociception. Male Swiss mice were used in the assays. Determinate the acute toxicity according to the OECD 425 test guideline. The models used were the acetic acid-, formalin-, hot plate and glutamate-induced nociception. For evaluation of antinociceptive effect, the involvement of TRPV1, TRPA1, TRPM8, ASICS, Bradykinin, PKC and PKA were performed using the paw licking using agonists. The acute toxicity study did not detect any clinical signs or changes in behavior or mortality. RipII, administered orally (25 and 50 mg/kg) caused a reduction of nociception induced by acetic acid, formalin (on the second phase) and glutamate. In the investigation of antinociceptive mechanism, we used capsaicin (2.2 μg/paw), cinnamaldehyde (10 nmol/paw), menthol (1.2 μmol/paw), ASICS (2% acetic acid, pH 1.98) and bradykinin (10 μg/paw). The results showed that TRPV1, TRPA1, TRPM8, ASICS and bradykinin play a role in the antinociceptive effect of RipII. The results also showed that PKA is involved too. These data demonstrate that RipII has a low or not toxicity and produced an important antinociceptive effect through mechanisms that probably involve an interaction, at least in part, TRPV1, TRPA1, TRPM8, ASICS, bradykinin and PKA participate in the RipII's antinociceptive effect., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

13. Photodamage attenuating potential of Nectandra hihua against UVB-induced oxidative stress in L929 fibroblasts.

Author

Oliveira MM, Daré RG, Barizão ÉO, Visentainer JV, Romagnolo MB, Nakamura CV, and Truiti MDCT

Subjects

Antioxidants chemistry, Antioxidants isolation & purification, Antioxidants pharmacology, Cell Line, Cell Survival drug effects, Cell Survival radiation effects, Fibroblasts cytology, Fibroblasts metabolism, Fibroblasts radiation effects, Flavonoids chemistry, Flavonoids isolation & purification, Flavonoids pharmacology, Humans, Lauraceae metabolism, Lipid Peroxidation drug effects, Oxidative Stress drug effects, Phenols chemistry, Phenols isolation & purification, Phenols pharmacology, Plant Extracts chemistry, Plant Leaves chemistry, Plant Leaves metabolism, Reactive Oxygen Species chemistry, Reactive Oxygen Species metabolism, Lauraceae chemistry, Oxidative Stress radiation effects, Ultraviolet Rays

Abstract

The total phenolic content (TP) and antioxidant activity of the ethanolic extract and fractions that were obtained from the leaves of Nectandra hihua were assessed using different methods. The ethanolic extract (EE) and ethyl acetate fraction (EAF) had the best antioxidant capacity, which was comparable to butylated hydroxytoluene and quercetin (ABTS + 2.55 ± 0.06, 3.54 ± 0.03 mmol TE/g; DPPH IC 50 10.27 ± 0.05, 9.88 ± 0.02 μg/mL; FRAP 2.17 ± 0.08, 2.38 ± 0.04 mmol TE/g; ORAC 5.16 ± 0.08, 5.35 ± 0.07 mmol TE/g; TP 568.05 ± 18.15, 397.20 ± 17.88 mg GAE/g, respectively). The cytoprotective effect, reactive oxygen species (ROS) and lipid peroxidation inhibitions on L929 fibroblasts irradiated with UVB (600 mJ/cm 2 ) in pre- and post-treatments with EE and EAF were determined. These plant materials demonstrated high ROS scavenging activity and lipid peroxidation inhibition on L929 fibroblasts in both treatments, especially with pre-treatment (EE 38.47 ± 1.95% and EAF 40.20 ± 4.5% inhibition of ROS production, and EE 39.03 ± 3.33% and EAF 41.67 ± 7.6% of lipid peroxidation inhibition), indicating the best cytoprotection with pre-treatment (13.52 ± 1.66% and 13.34 ± 2.61% increases in cell viability). The antioxidant flavonoids quercitrin, avicularin, juglalin, afzelin and astragalin were isolated from EAF. The results obtained indicate that EE and EAF present photodamage attenuating potential against UVB-induced oxidative stress and can be useful as a starting point for developing dermatological products to prevent oxidative skin damage., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

14. Effects of elevated O 3 on physiological and biochemical responses in three kinds of trees native to subtropical forest in China during non-growing period.

Author

Yu H, Cao J, Chen Z, and Shang H

Subjects

Ascorbic Acid metabolism, China, Chlorophyll metabolism, Forests, Lauraceae drug effects, Malondialdehyde metabolism, Photosynthesis physiology, Plants drug effects, Seasons, Superoxide Dismutase metabolism, Taxus drug effects, Trees metabolism, Tropical Climate, Lauraceae metabolism, Ozone adverse effects, Photosynthesis drug effects, Plant Leaves drug effects, Taxus metabolism

Abstract

Numerous studies have documented the negative effects of ozone (O 3 ) on tree species in growing season, however, little is done in non-growing season. Three evergreen tree species, Phoebe bournei (Hemsl.) Yang (P. bournei), Machilus pauhoi Kanehira (M. pauhoi) and Taxus chinensis (Pilger) Rehd (T. chinensis), were exposed to non-filtered air, 100 nmol mol -1 O 3 air (E1) and 150 nmol mol -1 O 3 air (E2) in open-top chambers in subtropical China. In the entire period of experiment, O 3 fumigation decreased net photosynthesis rate (Pn) through stomatal limitation during the transition period from growing to non-growing season (TGN), and through non-stomatal limitation during the period of non-growing season (NGS) in all species tested. Meanwhile, O 3 fumigation reduced and delayed the resilience of Pn in all species tested during the transition period from non-growing to growing season (TNG). O 3 fumigation significantly decreased chlorophyll contents during NGS, whereas no obvious injury symptoms were observed till the end of experiment. O 3 fumigation induced increases in levels of malondialdehyde, superoxide dismutase, total phenolics and reduced ascorbic acid, and changes in four plant endogenous hormones as well in all species tested during NGS. During NGS, E1 and E2 reduced Pn by an average of 80.11% in P. bournei, 94.56% in M. pauhoi and 12.57% in T. chinensis, indicating that the O 3 sensitivity was in an order of M. pauhoi > P. bournei > T. chinensis. Overall, O 3 fumigation inhibited carbon fixation in all species tested during NGS. Furthermore, O 3 -induced physiological activities also consumed the dry matter. All these suggested that elevated O 3 , which is likely to come true during NGS in the future, will adversely affect the accumulation of dry matter and the resilience of Pn during TNG in evergreen tree species, and further inhibit their growth and development in the upcoming growing season., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2018

15. The Fungus Raffaelea lauricola Modifies Behavior of Its Symbiont and Vector, the Redbay Ambrosia Beetle (Xyleborus Glabratus), by Altering Host Plant Volatile Production.

Author

Martini X, Hughes MA, Killiny N, George J, Lapointe SL, Smith JA, and Stelinski LL

Subjects

Animals, Behavior, Animal drug effects, Coleoptera drug effects, Gas Chromatography-Mass Spectrometry, Lauraceae metabolism, Lauraceae microbiology, Plant Leaves chemistry, Plant Leaves metabolism, Plant Leaves microbiology, Symbiosis, Volatile Organic Compounds analysis, Volatile Organic Compounds metabolism, Volatile Organic Compounds pharmacology, Ascomycota physiology, Coleoptera physiology, Lauraceae chemistry

Abstract

The redbay ambrosia beetle Xyleborus glabratus is the vector of the symbiotic fungus, Raffaelea lauricola that causes laurel wilt, a highly lethal disease to members of the Lauraceae family. Pioneer X. glabratus beetles infect live trees with R. lauricola, and only when tree health starts declining more X. glabratus are attracted to the infected tree. Until now this sequence of events was not well understood. In this study, we investigated the temporal patterns of host volatiles and phytohormone production and vector attraction in relation to laurel wilt symptomology. Following inoculations with R. lauricola, volatile collections and behavioral tests were performed at different time points. Three days after infection (DAI), we found significant repellency of X. glabratus by leaf odors of infected swamp bay Persea palustris as compared with controls. However, at 10 and 20 DAI, X. glabratus were more attracted to leaf odors from infected than non-infected host plants. GC-MS analysis revealed an increase in methyl salicylate (MeSA) 3 DAI, whereas an increase of sesquiterpenes and leaf aldehydes was observed 10 and 20 DAI in leaf volatiles. MeSA was the only behaviorally active repellent of X. glabratus in laboratory bioassays. In contrast, X. glabratus did not prefer infected wood over healthy wood, and there was no associated significant difference in their volatile profiles. Analyses of phytohormone profiles revealed an initial increase in the amount of salicylic acid (SA) in leaf tissues following fungal infection, suggesting that the SA pathway was activated by R. lauricola infection, and this activation caused increased release of MeSA. Overall, our findings provide a better understanding of X. glabratus ecology and underline chemical interactions with its symbiotic fungus. Our work also demonstrates how the laurel wilt pathosystem alters host defenses to impact vector behavior and suggests manipulation of host odor by the fungus that attract more vectors.

Published

2017

16. The Genus Neolitsea of Lauraceae: A Phytochemical and Biological Progress.

Author

Cao Y, Gao XL, Su GZ, Yu XL, Tu PF, and Chai XY

Subjects

Anti-Infective Agents chemistry, Anti-Infective Agents metabolism, Anti-Infective Agents pharmacology, Anti-Inflammatory Agents chemistry, Anti-Inflammatory Agents metabolism, Anti-Inflammatory Agents pharmacology, Antineoplastic Agents, Phytogenic chemistry, Antineoplastic Agents, Phytogenic metabolism, Antineoplastic Agents, Phytogenic pharmacology, Antioxidants chemistry, Antioxidants metabolism, Antioxidants pharmacology, Endotoxemia drug therapy, Humans, Lauraceae chemistry, Lauraceae metabolism, Organic Chemicals chemistry, Organic Chemicals metabolism, Phytochemicals chemistry, Phytochemicals metabolism, Platelet Aggregation Inhibitors chemistry, Platelet Aggregation Inhibitors metabolism, Platelet Aggregation Inhibitors pharmacology, Vasoconstriction drug effects, Lauraceae genetics, Phytochemicals pharmacology

Abstract

As one of the biggest genera in Lauraceae, Neolitsea owns a great application potential in industrial and traditional medical fields. Modern phytochemical and biological investigations revealed its structural diversity and diverse activities. This review summarizes the most recent progress on this regards, hopefully to provide a reference for full use and development of the Neolitsea resource., (Copyright © 2015 Verlag Helvetica Chimica Acta AG, Zürich.)

Published

2015

17. Biological evaluation of secondary metabolites from the root of Machilus obovatifolia.

Author

Lin SY, Ko HH, Lee SJ, Chang HS, Lin CH, and Chen IS

Subjects

Cell Line, Tumor, Cell Survival drug effects, Dose-Response Relationship, Drug, Hep G2 Cells, Humans, Lauraceae metabolism, Lignans chemistry, Lignans isolation & purification, MCF-7 Cells, Molecular Conformation, Plant Roots metabolism, Structure-Activity Relationship, Lauraceae chemistry, Lignans metabolism, Plant Roots chemistry

Abstract

Bioassay-guided fractionation of the root of Machilus obovatifolia led to the isolation of four new lignans, epihenricine B (1), threo-(7'R,8'R) and threo-(7'S,8'S)-methylmachilusol D (2 and 3), and isofragransol A (4), along with 23 known compounds. The compounds were obtained as isomeric mixtures (i.e., 2/3 and 4/20, resp.). The structures were elucidated by spectral analyses. Among the isolates, 1, licarin A (12), guaiacin (14), (±)-syringaresinol (21), and (-)-epicatechin (23) showed ABTS (=2,2'-azinobis(3-ethylbenzothiazoline-6-sulfonic acid) cation radical-scavenging activity, with SC50 values of 11.7±0.5, 12.3±1.1, 11.0±0.1, 10.6±0.3, and 9.5±0.2 μM in 20 min, respectively. In addition, kachirachirol B (17) showed cytotoxicity against the NCI-H460 cell line with an IC50 value of 3.1 μg/ml., (Copyright © 2015 Verlag Helvetica Chimica Acta AG, Zürich.)

Published

2015

18. Responses of the photosynthetic apparatus to winter conditions in broadleaved evergreen trees growing in warm temperate regions of Japan.

Author

Tanaka C, Nakano T, Yamazaki JY, and Maruta E

Subjects

Algorithms, Carbon Dioxide metabolism, Chlorophyll metabolism, Chlorophyll A, Japan, Lauraceae metabolism, Lipid Peroxidation radiation effects, Photochemical Processes radiation effects, Photosynthesis radiation effects, Photosystem II Protein Complex metabolism, Plant Leaves metabolism, Plant Leaves physiology, Quercus metabolism, Ribulose-Bisphosphate Carboxylase metabolism, Sunlight, Temperature, Thermodynamics, Time Factors, Lauraceae physiology, Photosynthesis physiology, Quercus physiology, Seasons

Abstract

Photosynthetic characteristics of two broadleaved evergreen trees, Quercus myrsinaefolia and Machilus thunbergii, were compared in autumn and winter. The irradiance was similar in both seasons, but the air temperature was lower in winter. Under the winter conditions, net photosynthesis under natural sunlight (Anet) in both species dropped to 4 μmol CO2 m(-2) s(-1), and the quantum yield of photosystem II (PSII) photochemistry in dark-adapted leaves (Fv/Fm) also dropped to 0.60. In both species the maximum carboxylation rates of Rubisco (V(cmax)) decreased, and the amount of Rubisco increased in winter. A decline in chlorophyll (Chl) concentration and an increase in the Chl a/b ratio in winter resulted in a reduction in the size of the light-harvesting antennae. From measurements of Chl a fluorescence parameters, both the relative fraction and the energy flux rates of thermal dissipation through other non-photochemical processes were markedly elevated in winter. The results indicate that the photosynthetic apparatus in broadleaved evergreen species in warm temperate regions responds to winter through regulatory mechanisms involving the downregulation of light-harvesting and photosynthesis coupled with increased photoprotective thermal energy dissipation to minimize photodamage in winter. These mechanisms aid a quick restart of photosynthesis without the development of new leaves in the following spring., (Copyright © 2014 Elsevier Masson SAS. All rights reserved.)

Published

2015

19. Leaf-derived cecidomyiid galls are sinks in Machilus thunbergii (Lauraceae) leaves.

Author

Huang MY, Huang WD, Chou HM, Lin KH, Chen CC, Chen PJ, Chang YT, and Yang CM

Subjects

Animals, Biological Transport, Chloroplasts metabolism, Chloroplasts ultrastructure, Host-Parasite Interactions, Lauraceae parasitology, Lauraceae ultrastructure, Microscopy, Electron, Scanning, Microscopy, Electron, Transmission, Photosynthesis, Plant Leaves metabolism, Plant Leaves parasitology, Plant Leaves ultrastructure, Plant Transpiration, Carbon metabolism, Diptera physiology, Lauraceae metabolism, Nitrogen metabolism, Plant Tumors parasitology

Abstract

Three relevant hypotheses - nutrition, environment and the enemies hypothesis - often invoked to explore source and sink relationships between galls and their host plants are still under dispute. In this research, chlorophyll fluorescence, gas exchange capacity, stomatal conductance, total carbon and nitrogen, total soluble sugars and starches, and scanning and transmission electron microscopy of two types of galls were used to investigate source-sink relationships. Compared with host leaves, these galls demonstrated slightly lower chlorophyll fluorescence; however, gas exchange capacity and stomatal conductance were not detected at all. Scanning electron micrographs demonstrated that the abaxial epidermis of host leaves contain normal amounts of stomata, whereas no stomata were observed on the exterior and interior surfaces of both types of galls. In addition, gall inner surfaces were covered with many kinds of fungal hyphae. Gall total carbon (C) and nitrogen (N) levels were lower but the C/N ratio was higher in galls than host leaves. Both types of galls accumulated higher total soluble sugars and starches than host leaves. Transmission electron micrographs also revealed that both types of galls contain plastoglobuli and giant starch granules during gall development. Results strongly indicate that leaf-derived cecidomyiid galls are sinks in Machilus thunbergii leaves. However, it is perplexing how larvae cycle and balance CO(2) and O(2) in gall growth chambers without stomata., (© 2014 Scandinavian Plant Physiology Society.)

Published

2014

20. Flavonoids from Machilus japonica stems and their inhibitory effects on LDL oxidation.

Author

Joo SJ, Park HJ, Park JH, Cho JG, Kang JH, Jeong TS, Kang HC, Lee DY, Kim HS, Byun SY, and Baek NI

Subjects

Antioxidants isolation & purification, Flavonoids isolation & purification, Lauraceae metabolism, Lipoproteins, LDL metabolism, Plant Stems chemistry, Plant Stems metabolism, Antioxidants chemistry, Flavonoids chemistry, Lauraceae chemistry, Lipoproteins, LDL antagonists & inhibitors

Abstract

Stems of Machilus japonica were extracted with 80% aqueous methanol (MeOH) and the concentrated extract was successively extracted with ethyl acetate (EtOAc), normal butanol (n-BuOH), and water. Six flavonoids were isolated from the EtOAc fraction: (+)-taxifolin, afzelin, (-)-epicatechin, 5,3'-di-O-methyl-(-)-epicatechin, 5,7,3'-tri-O-methyl-(-)-epicatechin, and 5,7-di-O-methyl-3',4'-methylenedioxyflavan-3-ol. The chemical structures were identified using spectroscopic data including NMR, mass spectrometry and infrared spectroscopy. This is the first report of isolation of these six compounds from M. japonica. The compounds were evaluated for their diphenyl picryl hydrazinyl scavenging activity and inhibitory effects on low-density lipoprotein oxidation. Compounds 1 and 3-6 exhibited DPPH antioxidant activity equivalent with that of ascorbic acid, with half maximal inhibitory concentration (IC50) values of 0.16, 0.21, 0.17, 0.15 and 0.07 mM, respectively. The activity of compound 1 was similar to the positive control butylated hydroxytoluene, which had an IC50 value of 1.9 µM, while compounds 3 and 5 showed little activity. Compounds 1, 3, and 5 exhibited LDL antioxidant activity with IC50 values of 2.8, 7.1, and 4.6 µM, respectively.

Published

2014

21. Eucalyptol is an attractant of the Redbay ambrosia beetle, Xyleborus glabratus.

Author

Kuhns EH, Martini X, Tribuiani Y, Coy M, Gibbard C, Peña J, Hulcr J, and Stelinski LL

Subjects

Animals, Eucalyptol, Feeding Behavior, Florida, Gas Chromatography-Mass Spectrometry, Introduced Species, Lauraceae metabolism, Odorants analysis, Solid Phase Microextraction, Species Specificity, Chemotaxis, Cyclohexanols metabolism, Monoterpenes metabolism, Oils, Volatile metabolism, Pheromones metabolism, Weevils physiology

Abstract

The redbay ambrosia beetle, Xyleborus glabratus, is an invasive wood-boring beetle that has become established in the southeastern United States. The beetle transmits the causal pathogen of lethal laurel wilt to susceptible host trees, which include redbay, an important forest community species, and avocado, a valuable food crop. By examining odors of redbay wood, we developed an artificial lure that captured X. glabratus in redbay forests. Eucalyptol was a critical component of the blend for beetle attraction, and eucalyptol alone in large quantities attracted X. glabratus. Furthermore, eucalyptol stimulated boring by X. glabratus into paper arenas. The results suggest that eucalyptol contributes to host selection behavior of X. glabratus and may be useful for management of this pathogen vector.

Published

2014

22. Transcriptomic analysis of flower development in wintersweet (Chimonanthus praecox).

Author

Liu D, Sui S, Ma J, Li Z, Guo Y, Luo D, Yang J, and Li M

Subjects

Ethylenes metabolism, Ethylenes pharmacology, Expressed Sequence Tags, Flowers growth & development, Flowers metabolism, Gene Expression Regulation, Developmental, Gene Library, Lauraceae growth & development, Lauraceae metabolism, Microsatellite Repeats, Molecular Sequence Annotation, Plant Growth Regulators metabolism, Plant Growth Regulators pharmacology, Salicylic Acid metabolism, Salicylic Acid pharmacology, Sequence Analysis, RNA, Signal Transduction, Terpenes metabolism, Flowers genetics, Gene Expression Regulation, Plant, Genes, Plant, Lauraceae genetics, Transcriptome

Abstract

Wintersweet (Chimonanthus praecox) is familiar as a garden plant and woody ornamental flower. On account of its unique flowering time and strong fragrance, it has a high ornamental and economic value. Despite a long history of human cultivation, our understanding of wintersweet genetics and molecular biology remains scant, reflecting a lack of basic genomic and transcriptomic data. In this study, we assembled three cDNA libraries, from three successive stages in flower development, designated as the flower bud with displayed petal, open flower and senescing flower stages. Using the Illumina RNA-Seq method, we obtained 21,412,928, 26,950,404, 24,912,954 qualified Illumina reads, respectively, for the three successive stages. The pooled reads from all three libraries were then assembled into 106,995 transcripts, 51,793 of which were annotated in the NCBI non-redundant protein database. Of these annotated sequences, 32,649 and 21,893 transcripts were assigned to gene ontology categories and clusters of orthologous groups, respectively. We could map 15,587 transcripts onto 312 pathways using the Kyoto Encyclopedia of Genes and Genomes pathway database. Based on these transcriptomic data, we obtained a large number of candidate genes that were differentially expressed at the open flower and senescing flower stages. An analysis of differentially expressed genes involved in plant hormone signal transduction pathways indicated that although flower opening and senescence may be independent of the ethylene signaling pathway in wintersweet, salicylic acid may be involved in the regulation of flower senescence. We also succeeded in isolating key genes of floral scent biosynthesis and proposed a biosynthetic pathway for monoterpenes and sesquiterpenes in wintersweet flowers, based on the annotated sequences. This comprehensive transcriptomic analysis presents fundamental information on the genes and pathways which are involved in flower development in wintersweet. And our data provided a useful database for further research of wintersweet and other Calycanthaceae family plants.

Published

2014

23. Secondary metabolites from the roots of Beilschmiedia tsangii and their anti-inflammatory activities.

Author

Huang YT, Chang HS, Wang GJ, Lin CH, and Chen IS

Subjects

Anti-Inflammatory Agents metabolism, Anti-Inflammatory Agents pharmacology, Carboxylic Acids chemistry, Carboxylic Acids isolation & purification, Carboxylic Acids pharmacology, Inhibitory Concentration 50, Lauraceae metabolism, Lignans chemistry, Lignans isolation & purification, Lignans pharmacology, Nitric Oxide Synthase Type II antagonists & inhibitors, Plant Roots metabolism, Sesquiterpenes chemistry, Sesquiterpenes isolation & purification, Sesquiterpenes pharmacology, Anti-Inflammatory Agents isolation & purification, Lauraceae chemistry, Plant Roots chemistry

Abstract

Four new endiandric acid analogues, tsangibeilin C (1), tsangibeilin D (2), tricyclotsangibeilin (3) and endiandric acid M (4), one new lignan, beilschminol B (5) and two new sesquiterpenes, (+)-5-hydroxybarbatenal (6) and (4R,5R)-4,5-dihydroxycaryophyll-8(13)-ene (7), together with four known compounds (8-11), were isolated from the roots of Beilschmiedia tsangii (Lauraceae). The structures of 1-7 were determined by spectroscopic techniques. Among the isolates, endiandric acid M (4) exhibited moderate iNOS inhibitory activity, with an IC(50) value of 31.70 μM.

Published

2012

24. Do quantitative vessel and pit characters account for ion-mediated changes in the hydraulic conductance of angiosperm xylem?

Author

Jansen S, Gortan E, Lens F, Lo Gullo MA, Salleo S, Scholz A, Stein A, Trifilò P, and Nardini A

Subjects

Biological Transport, Ions metabolism, Lauraceae anatomy & histology, Lauraceae drug effects, Lauraceae metabolism, Magnoliopsida anatomy & histology, Magnoliopsida drug effects, Pectins metabolism, Potassium Chloride pharmacology, Xylem anatomy & histology, Xylem drug effects, Magnoliopsida metabolism, Water metabolism, Xylem metabolism

Abstract

• The hydraulic conductance of angiosperm xylem has been suggested to vary with changes in sap solute concentrations because of intervessel pit properties. • The magnitude of the 'ionic effect' was linked with vessel and pit dimensions in 20 angiosperm species covering 13 families including six Lauraceae species. • A positive correlation was found between ionic effect and vessel grouping parameters, especially the portion of vessel walls in contact with neighbouring vessels. Species with intervessel contact fraction (F(C)) values < 0.1 showed an ionic effect between 2% and 17%, while species with F(C) values > 0.1 exhibited a response between 10% and 32%. The ionic effect increased linearly with the mean fraction of the total vessel wall area occupied by intervessel pits as well as with the intervessel contact length. However, no significant correlation occurred between the ionic effect and total intervessel pit membrane area per vessel, vessel diameter, vessel length, vessel wall area, and intervessel pit membrane thickness. • Quantitative vessel and pit characters are suggested to contribute to interspecific variation of the ionic effect, whereas chemical properties of intervessel pit membranes are likely to play an additional role., (© The Authors (2010). Journal compilation © New Phytologist Trust (2010).)

Published

2011

25. Dynamics of violaxanthin and lutein epoxide xanthophyll cycles in Lauraceae tree species under field conditions.

Author

Esteban R, Jiménez ET, Jiménez MS, Morales D, Hormaetxe K, Becerril JM, and García-Plazaola JI

Subjects

Ecosystem, Lauraceae radiation effects, Light, Pigments, Biological, Trees radiation effects, Lauraceae metabolism, Lutein metabolism, Trees metabolism, Xanthophylls metabolism

Abstract

Two xanthophyll cycles have been described in higher plants: the violaxanthin xanthophyll (V or VAZ) cycle, which is present in all species, and the taxonomically restricted lutein epoxide xanthophyll (Lx) cycle, which involves the light-induced de-epoxidation of Lx to lutein (L) and its epoxidation back to Lx in low light. Laboratory experiments indicate that the first reaction occurs quickly, but the second reaction is much slower. We investigated the Lx cycle under field conditions in several tree species of the Lauraceae family to determine its relationship with the ubiquitous V cycle. The field study was conducted in two natural laurel forests: one in the Canary Islands, where Laurus azorica (Seub.) Franco, Ocotea foetens (Aiton.) Benth, Apollonias barbujana (Cav.) Bornm. and Persea indica (L.) Spreng were studied; and one in the Basque Atlantic coast where Laurus nobilis L. was studied. The results were complemented by a taxonomic study. The presence of Lx was widespread among Lauraceae species, but its concentration varied even among closely related species. The V pool size correlated positively with growth irradiance, whereas the relationship between Lx pool size and growth irradiance varied with species. A functional Lx cycle was confirmed under field conditions only in O. foetens and L. nobilis. Furthermore, in O. foetens, a correlation between Lx de-epoxidation and photoinhibition suggested a protective role for this cycle. We conclude that, unlike the V cycle, which is normally correlated with irradiance, the operation and light dependence of the Lx cycle is species-dependent.

Published

2007

26. Effects of acidic solutions on element dynamics in the monsoon evergreen broad-leaved forest at Dinghushan, China. Part 2: dynamics of Fe, Cu, Mn and Al.

Author

Liu J, Zhou G, and Zhang D

Subjects

Aluminum analysis, Aluminum metabolism, China, Copper analysis, Copper metabolism, Hydrogen-Ion Concentration, Iron analysis, Iron metabolism, Lauraceae drug effects, Lauraceae metabolism, Manganese analysis, Manganese metabolism, Metals metabolism, Myrtaceae drug effects, Myrtaceae metabolism, Solutions, Theaceae drug effects, Theaceae metabolism, Trees metabolism, Acid Rain toxicity, Metals analysis, Soil, Trees drug effects

Abstract

Background: Soil metal dynamics are affected by acid deposition. Little knowledge is available about the process in the lateritic soils under the monsoon forest in south China., Methods: Samplings of Acmera acuminatissima, Cryptocarya concinna and Schima superba were grown from October, 2000 to July, 2002 in pots with a natural acid lateritic forest soil from Dinghushan. Pots were watered weekly with an acid solution (pH 3.05, 3.52, 4.00 or 4.40) or with tap water. Fe, Mn, Cu and Al were measured in soils, leachates and sapling leaves., Results: Soil extractable Fe and leachate Al and Mn concentrations increased with a decreasing treatment pH. Soil reactive Al exhibited the opposite trend and decreased over time. The Ca/Al and Mg/ (Al+Mn) ratios did not decrease in the leaves of Schima superba, but decreased with a decreasing treatment pH for Cryptocaria concinna. Both ratios only decreased in the pH 3.05 treatment for Acmena, Conclusions: Cu will not be toxic for plants since soil extractable Cu was not high and Fe will not be toxic either given that its root uptake was inhibited by Mn. Acid rains will lead to increased Mn and Al mobility in soil. Cryptocaria concinna will be the most sensible species to these changes (nutrient deficiency and direct Mn toxicity), while Schima superba should retain a good growth.

Published

2007

27. Variation in defence strategies in two species of the genus Beilschmiedia under differing soil nutrient and rainfall conditions.

Author

Simon J, Miller RE, and Woodrow IE

Subjects

Acclimatization, Carbon metabolism, Lauraceae anatomy & histology, Lauraceae metabolism, Nitrogen metabolism, Plant Leaves anatomy & histology, Plant Leaves chemistry, Plant Leaves metabolism, Species Specificity, Lauraceae physiology, Rain, Soil

Abstract

The relationships between various leaf functional traits that are important in plant growth (e.g., specific leaf area) have been investigated in recent studies; however, research in this context on plants that are highly protected by chemical defences, particularly resource-demanding nitrogen-based defence, is lacking. We collected leaves from cyanogenic (N-defended) Beilschmiedia collina B. Hyland and acyanogenic (C-defended) Beilschmiedia tooram (F. M. Bailey) B. Hyland at high- and low-soil nutrient sites in two consecutive years that varied significantly in rainfall. We then measured the relationships between chemical defence and morphological and functional leaf traits under the different environmental conditions. We found that the two species differed significantly in their resource allocation to defence as well as leaf morphology and function. The N defended species had a higher leaf nitrogen concentration, whereas the C-defended species had higher amounts of C-based chemical defences (i.e., total phenolics and condensed tannins). The C-defended species also tended to have higher force to fracture and increased leaf toughness. In B. collina, cyanogenic glycoside concentration was higher with higher rainfall, but not with higher soil nutrients. Total phenolic concentration was higher at the high soil nutrient site in B. tooram, but lower in B. collina; however, with higher rainfall an increase was found in B. tooram, while phenolics decreased in B. collina. Condensed tannin concentration decreased in both species with rainfall and nutrient availability. We conclude that chemical defence is correlated with leaf functional traits and that variation in environmental resources affects this correlation.

Published

2007

28. Allocation to defense or growth in dipterocarp forest seedlings in Borneo.

Author

Kurokawa H, Kitahashi Y, Koike T, Lai J, and Nakashizuka T

Subjects

Analysis of Variance, Borneo, Ericales metabolism, Lauraceae metabolism, Lignin analysis, Photosynthesis physiology, Plant Leaves chemistry, Species Specificity, Tannins analysis, Ericales growth & development, Lauraceae growth & development, Seedlings growth & development, Trees

Abstract

We quantified the allocation of net production to plant secondary metabolites (especially condensed tannins and lignins) to evaluate the investment into defense mechanisms of three tropical forest canopy species in Borneo vis-à-vis the resource availability hypothesis. In particular, we focused on Borneo ironwood (Eusideroxylon zwageri, Lauraceae), which seemed to employ an extreme defensive strategy. The wood of this species is extremely durable and has a high specific gravity with a very slow growth rate. The allocation to defense by Borneo ironwood was compared to two emergent species of Dipterocarpaceae, the dominant family in this forest community. We conducted shade-house experiments on seedlings under four controlled conditions (two light levels x two nutrient levels) and showed that the growth rate of E. zwageri was much lower than those of the other two species, and it allocated more of its net production to leaves and roots than to stems. The concentrations of condensed tannins and lignins were very high in the leaves and stems of this species, at about 20 and 30%, respectively. In total, E. zwageri allocated a maximum of about 35% of its net production to defensive substances (i.e., condensed tannins + lignins). In contrast, the two dipterocarp species allocated about 20-25% of their net production to defensive substances. The condensed tannins in E. zwageri help to prolong the lifespan of the leaves, and the lignins in the stems enhance the durability of the wood. Thus, although E. zwageri grows very slowly, the allocation to defensive substances seems to be an advantageous strategy for survival under dark conditions.

Published

2004

29. Sensitivity analyses of woody species exposed to air pollution based on ecophysiological measurements.

Author

Wen D, Kuang Y, and Zhou G

Subjects

China, Chlorophyll metabolism, Circadian Rhythm, Ficus metabolism, Fluorescence, Ilex metabolism, Industry, Lauraceae metabolism, Nitrogen metabolism, Photosynthesis, Photosystem II Protein Complex metabolism, Plant Leaves growth & development, Plant Leaves metabolism, Species Specificity, Air Pollutants adverse effects, Chlorophyll analysis, Environmental Monitoring, Ficus growth & development, Ilex growth & development, Lauraceae growth & development

Abstract

Goal, Scope and Background: Air pollution has been of a major problem in the Pearl River Delta of south China, particularly during the last two decades. Emissions of air pollutants from industries have already led to damages in natural communities and environments in a wide range of the Delta area. Leaf parameters such as chlorophyll fluorescence, leaf area (LA), dry weight (DW) and leaf mass per area (LMA) had once been used as specific indexes of environmental stress. This study aims to determine in situ if the daily variation of chlorophyll fluorescence and other ecophysiological parameters in five seedlings of three woody species, Ilex rotunda, Ficus microcarpa and Machilus chinensis, could be used alone or in combination with other measurements for sensitivity indexes to make diagnoses under air pollution stress and, hence, to choose the correct tree species for urban afforestation in the Delta area., Methods: Five seedlings of each species were transplanted in pot containers after their acclimation under shadowing conditions. Chlorophyll fluorescence measurements were made in situ by a portable fluorometer (OS-30, Opti-sciences, U.S.A). Ten random samples of leaves were picked from each species for LA measurements by area-meter (CI-203, CID, Inc., U.S.A). DW was determined after the leaf samples were dried to a constant weight at 65 degrees C. LMA was calculated as the ratio of DW/LA. Leaf N content was analyzed according to the Kjeldhal method, and the extraction of pigments was carried out according Lin et al., Results and Discussion: The daily mean Fv/Fm (Fv is the variable fluorescence and Fm is the maximum fluorescence) analysis showed that Ilex rotunda and Ficus microcarpa were more highly resistant to pollution stress, followed by Machilus chinensis, implying that the efficiency of photosystem II in I. rotunda was less affected by air pollutants than the other two species. Little difference in daily change of Fv/Fm in I. rotunda between the polluted and the clean site was also observed. However, a relatively large variation of Fv/Fm appeared in the other two species, particularly in M. chinensis, suggesting that they were more sensitive to air pollutants than I. rotunda. The mean LA was reduced for all species growing at the polluted site. The mean LMA for all species exceeded the sclerophylly threshold given by Cowling and Campbell and increased for those under pollution stress, which could be explained as one of the acclimation strategies for plants to air pollution stress. Little difference in leaf chlorophyll content was observed in F. microcarpa and M. chinensis, while remarkable differences were found in I. rotunda growing at the polluted and the clean site. Content of leaf carotenoids was largely reduced in I. rotunda growing at the polluted site, but increased in F. microcarpa and M. chinensis, compared with plants growing at the clean site. Plants growing at the clean site had a lower leaf N content than those growing at the polluted site. In addition, species with a higher resistance to pollution stress showed less difference in leaf N content than those sensitive species., Conclusion: Based on Fv/Fm measurements of the three woody species, I. rotunda showed the highest resistance to air pollutants from ceramic industries, followed by F. microcarpa. M. chinensis was the most sensitive species to air pollution, had lowest capacities to cope with the air pollution stress, which was consistent with visual injury symptoms observed in the crown profiles of plants at the polluted site. Fv/Fm, LAM, LA, leaf pigments and N content could be used alone or in combination to diagnose the extent of the physiological injury. The ratio of Fv/Fm, however, was the best and most effective parameter., Recommendation and Outlook: Tree species which have higher air-pollutant resistance, as diagnosed by such ecophysiological parameters, should be considered first and planted widely for urban afforestation or forest regeneration in areas where the forest was seriously degraded or forest health was markedly effected by the same kind of air pollutants.

Published

2004

30. Characterization of the 9-cis-epoxycarotenoid dioxygenase gene family and the regulation of abscisic acid biosynthesis in avocado.

Author

Chernys JT and Zeevaart JA

Subjects

Abscisic Acid metabolism, Amino Acid Sequence, Blotting, Northern, Cloning, Molecular, Dioxygenases, Ethylenes metabolism, Lauraceae metabolism, Molecular Sequence Data, Oxygenases metabolism, Plant Proteins, Reverse Transcriptase Polymerase Chain Reaction, Sequence Alignment, Abscisic Acid biosynthesis, Fruit metabolism, Genes, Plant, Lauraceae genetics, Oxygenases genetics

Abstract

Avocado (Persea americana Mill. cv Lula) is a climacteric fruit that exhibits a rise in ethylene as the fruit ripens. This rise in ethylene is followed by an increase in abscisic acid (ABA), with the highest level occurring just after the peak in ethylene production. ABA is synthesized from the cleavage of carotenoid precursors. The cleavage of carotenoid precursors produces xanthoxin, which can subsequently be converted into ABA via ABA-aldehyde. Indirect evidence indicates that the cleavage reaction, catalyzed by 9-cis-epoxycarotenoid dioxygenase (NCED), is the regulatory step in ABA synthesis. Three genes encoding NCED cleavage-like enzymes were cloned from avocado fruit. Two genes, PaNCED1 and PaNCED3, were strongly induced as the fruit ripened. The other gene, PaNCED2, was constitutively expressed during fruit ripening, as well as in leaves. This gene lacks a predicted chloroplast transit peptide. It is therefore unlikely to be involved in ABA biosynthesis. PaNCED1 was induced by water stress, but expression of PaNCED3 was not detectable in dehydrated leaves. Recombinant PaNCED1 and PaNCED3 were capable of in vitro cleavage of 9-cis-xanthophylls into xanthoxin and C(25)-apocarotenoids, but PaNCED2 was not. Taken together, the results indicate that ABA biosynthesis in avocado is regulated at the level of carotenoid cleavage.

Published

2000