OBJECTIVECharacters of stem epidermis, leaf epidermis and stoma could be used as important microcosmic morphological characteristic when inheritance trend is studied in Ephedra breeding and identification.

METHODThe stomatic density, stoma major axis and mimor axis, stomatic morphylogy, characters of leaf and stem epidermis of 6 Ephedra plants' stems were examined by SEM.

RESULTThe stomatic density and characteristic of leaf epidermis and stem epidermis in six Ephedra species was differenc, there were no obvious morphological differences in stoma shape and size. The guard cells were covered with heavy cuticle and sunken stomata, which were the typical characteristics of xerophytes. The stomas of leaf lower epidermis were oblong or hexagon, but the stomas of steam epidermis were narrowed-oblong or dumbbell-shape, they all belonged to anomalous type.

CONCLUSIONThe stoma type and characters of Ephedra plants is stable and conservative, there was no obvious morphological differences in stoma shape and size between species, so it is difficult to distinguish different species by the variance of stomas, but that can be applyed to distinguish Ephedra from others at plant taxonomy.

Ephedra ; classification ; ultrastructure ; Microscopy, Electron, Scanning ; Plant Epidermis ; ultrastructure ; Plant Leaves ; ultrastructure ; Plant Stems ; ultrastructure ; Plant Stomata ; ultrastructure ; Plants, Medicinal ; ultrastructure ; Species Specificity

OBJECTIVETo accumulate taxonomic data of the leaf epidermal features of the medicinal species of Euonymus.

METHODTwenty-nine materials of 21 taxa (including 16 species, 4 varieties and 1 form) representing 5 sections of Euonymus are examined by using both of light microscopy and scanning electron microscopy.

RESULTThe form of epidermal cells in Euonymus is usually polygonal or irregular. The stomata were anomocytic in all the species examined except E. maackii and E. bungeanus var. semipersistens. Stomatal types of all species studied may be anomocytic, anisocytic, cycolocytic or the transitional types among them.

CONCLUSIONThe results show that some characteristics (including cuticular membrane, shape of guard cells, inner margin of outer stomatal rim, outer stomatal rim and stomata type) of the leaf epidermis can provide some anatomical evidence for the classification. The characteristics of leaf epidermis support following treatments: E. acanthocarpus var. longipes, E. acanthocarpus var. scandens and E. acanthocarpus var. sutchuanensis should be merged into E. acanthocarpus; E. bungeanus var. semipersistens should be merged into E. maackii; E. hamiltonianus f. lanceifolius should be merged into E. hamiltonianus.

China ; Euonymus ; chemistry ; classification ; Microscopy ; Microscopy, Electron, Scanning ; Plant Epidermis ; chemistry ; classification ; Plant Leaves ; chemistry ; classification ; Plant Stomata ; chemistry ; classification ; Plants, Medicinal ; chemistry ; classification

Based on the research of plant taxonomy and botanical investigation, microscopic characteristics of the root, stem, leaf transverse section and powder of Atropa belladonna were studied for identification of the herb. The research detailed and made clear to the description identification and microscopic characteristics of officinal parts of the herbs. The work provided reference for the identification of A. belladonna herbs and pieces of work in the future, as well as a theoretical basis for the further research, development, medicinal use and the upgrading of quality standards.
Atropa belladonna ; anatomy & histology ; cytology ; Microscopy ; methods ; Plant Epidermis ; anatomy & histology ; cytology ; Plant Leaves ; anatomy & histology ; cytology ; Plant Roots ; anatomy & histology ; cytology ; Plant Stems ; anatomy & histology ; cytology ; Plant Stomata ; anatomy & histology ; cytology ; Plants, Medicinal ; anatomy & histology ; cytology

OBJECTIVETo clarify the origin and provide pharmacognostical evidences for the leaves of 5 species in Chloranthus.

METHODHistological observation and microscopic identification through different slice-making techniques were applied to the research.

RESULTThere were subtle differences between the histological characteristics. In microscopical identification, the different structures of vascular bundles in veins were observed, appendages and non-glandular hairs were distinct.

CONCLUSIONThe method can be used to distinguish the features of 5 species in Chloranthus. This article offers information for the further research and exploitation of Chloranthus.

Magnoliopsida ; anatomy & histology ; Pharmacognosy ; Plant Epidermis ; anatomy & histology ; Plant Leaves ; anatomy & histology ; Plant Vascular Bundle ; anatomy & histology ; Plants, Medicinal ; Species Specificity

OBJECTIVETo provide some new evidences for the classification and identification of medicinal materials of Curcuma.

METHODThe optical microscope and electronic microsccopic scaning were used to characterize the leaves of Curcuma.

RESULT AND CONCLUSIONThere were no obvious histological and morphological differences among the leaves of Curcuma. But the differences in the hair distribution, stoma density and size , shape and size of epidermic cells could be considered to be the main features for the microscopic identification of leaves of Curcuma.

China ; Curcuma ; classification ; ultrastructure ; Microscopy, Electron, Scanning ; Pharmacognosy ; Plant Epidermis ; cytology ; ultrastructure ; Plant Leaves ; cytology ; ultrastructure ; Plants, Medicinal ; classification ; ultrastructure ; Species Specificity

Male ; Humans ; Plant Bark ; Skin

This study was performed to determine the ability of eliminating sodium nitrite and blocking nitrosamine synthesis by anthocyanin from the skin of Alpinia galanga. purified by macroporous resin. The test was conducted under the condition of the simulated human gastric juice (pH 3.0, 37 degrees C) with VitC as positive control. The results showed that the max capability of eliminating sodium nitrite was 87.14%, which is 1.6 times sronger than that of VitC, and the max capability of blocking nitrosamine synthesis was 97.82%, which is 8 times sronger than that of VitC.
Alpinia ; chemistry ; Anthocyanins ; isolation & purification ; pharmacology ; Antioxidants ; pharmacology ; Ascorbic Acid ; pharmacology ; Gastric Juice ; chemistry ; Humans ; Hydrogen-Ion Concentration ; Hydrolysis ; drug effects ; Nitrosamines ; antagonists & inhibitors ; metabolism ; Plant Epidermis ; chemistry ; Sodium Nitrite ; metabolism

OBJECTIVES: This study was conducted to determine the depositional characteristics of several tree barks, including Ginkgo (Ginkgo biloba), Pine (Pinus densiflora), Platanus (Platanus), and Metasequoia (Metasequoia glyptostroboides). These were used as passive air sampler (PAS) of atmospheric polybrominated diphenyl ethers (PBDEs). METHODS: Tree barks were sampled from the same site. PBDEs were analyzed by highresolution gas chromatography/high-resolution mass spectrometer, and the lipid content was measured using the gravimetric method by n-hexane extraction. RESULTS: Gingko contained the highest lipid content (7.82 mg/g dry), whereas pine (4.85 mg/g dry), Platanus (3.61 mg/g dry), and Metasequoia (0.97 mg/g dry) had relatively lower content. The highest total PBDEs concentration was observed in Metasequoia (83,159.0 pg/g dry), followed by Ginkgo (53,538.4 pg/g dry), Pine (20,266.4 pg/g dry), and Platanus (12,572.0 pg/g dry). There were poor correlations between lipid content and total PBDE concentrations in tree barks (R2=0.1011, p =0.682). Among the PBDE congeners, BDE 206, 207 and 209 were highly brominated PBDEs that are sorbed to particulates in ambient air, which accounted for 90.5% (84.3-95.6%) of the concentration and were therefore identified as the main PBDE congener. The concentrations of particulate PBDEs deposited on tree barks were dependent on morphological characteristics such as surface area or roughness of barks. CONCLUSIONS: Therefore, when using the tree barks as the PAS of the atmospheric PBDEs, samples belonging to same tree species should be collected to reduce errors and to obtain reliable data.
Ginkgo biloba ; Halogenated Diphenyl Ethers* ; Plant Bark* ; Trees

To reveals the effects of tree species on polysaccharides content of epiphytic Dendrobium officinale. The polysaccharides content of D. officinale attached to living tress in wild or stumps in bionic-facility was determined by phenol-sulfuric acid method. There were extremely significant differences of polysaccharides content of D. officinale attached to different tree species, but the differences had no relationship with the form and nutrition of barks. The polysaccharides content of D. officinale mainly affected by the light intensity of environment, so reasonable illumination favored the accumulation of polysaccharides. Various polysaccharides content of D. officinal from different attached trees is due to the difference of light regulation, but not the form and nutrition of barks.
Dendrobium ; chemistry ; Light ; Plant Bark ; physiology ; Polysaccharides ; analysis ; Trees

Lycii Cortex, the dry root bark of Lycium barbarum(Solanaceae), is rich in chemical compositions with unique structures, such as organic acids, lipids, alkaloids, cyclopeptides and other components, and plays an important role in traditional Chinese medicine. It has the effect of cooling blood and removing steam, clearing lung and reducing fire. It is mainly used in the treatment of hot flashes due to Yin deficiency, hectic fever with night sweat, cough, hemoptysis and internal heat and diabetes. Modern pharmacological studies have shown that the crude extract or monomer of Lycii Cortex has a variety of pharmacological activities, such as hypoglycemic, hypotensive, hypolipidemic, antibacterial, and antiviral effects. In this paper, the chemical constituents and pharmacological effects of Cortex Lycii were reviewed in order to further clarify its effective substances, promote the development of medical undertakings, and ensure the "Healthy China" plan.
China ; Hypoglycemic Agents ; Lycium ; Medicine, Chinese Traditional ; Plant Bark