两种中药剂型的体外抑菌作用观察

目的比较黄连等20种中药水煎剂与免煎颗粒剂对56株临床分离的金黄色葡萄球菌的体外抑菌效果。方法采用M-H琼脂稀释法检测20种中药水煎剂与免煎颗粒剂对MSSA(甲氧西林敏感金黄色葡萄球菌)、MRSA(耐甲氧西林金黄色葡萄球菌)的体外抑菌作用,测定MIC50(药物抑制50%细菌时的最小浓度)、MIC90(药物抑制90%细菌时的最小浓度),MIC(最小抑菌浓度),并作比较。结果 20种中药的水煎剂和免煎颗粒对56株受试菌显示了不同程度的抑菌作用,以五倍子抑菌效果最好,水煎剂抑菌效果比相应的免煎颗粒好。结论两种中药剂型在抗感染中,均具有临床实际应用价值,而水煎剂抑菌效果稍强于相应的免煎颗粒剂型。     

四种中药对耐药肺炎链球菌的抑菌作用

目的探讨中草药对肺炎链球菌的体外抑菌作用。方法用临床分离细菌为受试菌,采用琼脂稀释法,观察黄连、黄岑、黄柏和连翘等4种中草药水煎剂的最低抑菌浓度。结果4种中草药水煎剂均有不同程度的抑菌作用,其中黄连抑菌效果最好,黄连水煎剂对肺炎链球菌M IC范围达7.8-15.63 g/L,M IC50为8 g/L,M IC90为8 g/L。黄岑、黄柏也有较好的抑菌效果,连翘抑菌效果较弱。结论黄连等中药在体外对肺炎链球菌均有良好抑菌作用。     

桑叶水提浸膏的抑菌作用研究

研究桑叶水提浸膏对五种食品常见污染菌的抑菌作用。通过滤纸片扩散法测定其相对抑菌活性。结果表明,桑叶水提浸膏对金黄色葡萄球菌有较强的抑制作用,对大肠杆菌作用次之,对枯草芽孢杆菌、荧光假单孢杆菌、巨大芽孢杆菌抑菌效果较差。桑叶水提浸膏对金黄色葡萄球菌的最小抑菌浓度是5%,抑菌作用受pH和温度的影响较大,在酸性条件下抑菌效果较好,低于60℃处理样品对抑菌效果影响不大,但高于80℃处理,样品抑菌活性明显降低。     

影响多粘类芽胞杆菌发酵液抑菌活性因素的研究

目的以点青霉菌作为指示菌,研究影响植物内生多粘芽胞杆菌发酵液抑菌活性的部分因素,为鉴定发酵液的抑菌物质提供基础研究。方法通过对多粘类芽胞杆菌发酵液进行不同处理（改变pH、加热、乙醇处理和蛋白酶酶解）,采用牛津杯法观察处理后发酵液对点青霉菌抑菌活性的变化。结果多粘类芽胞杆菌发酵液的抑菌效果在酸性条件下稳定,抑菌效果明显;而在中性和碱性范围内不稳定,抑菌效果不明显;多粘类芽胞杆菌发酵液中的有些抑菌物质具备良好的热稳定性;80％乙醇处理的发酵上清液有抑菌作用;经蛋白酶酶解后发酵液的抑菌活性变化不大。结论多粘类芽胞杆菌产生的乙醇沉淀物具有抑菌作用;发酵液中可能含有类细菌素的抑菌物质。     

紫苏、白苏的抑菌实验

用不同溶剂浸泡或处理紫苏后,进行抑菌实验,结果表明：１０％以上浓度的紫苏水浸液,１２．５％水煎液和乙醇提取液对白色念球菌、新型隐球菌以及红色毛癣菌、石膏样小孢子癣菌、絮状表皮癣菌有较好的抑菌效果。紫苏、皱紫共、白苏对真菌均有抑菌作用,但皱紫苏对绿脓杆菌、白苏对克柔氏念球菌、白色念球菌以及绿脓杆菌效果更为明显。     

两种天然植物提取物的抑菌效果的快速评价与比较

本文研究了绿茶和桑叶提取物在不同浓度时对细菌的抑制作用,采用D值计算法快速评价了它们的抑菌效果。结果表明,绿茶提取物对金黄色葡萄球菌和大肠杆菌的最低抑制浓度分别为0.034%,0.42%;而桑叶提取物分别为0.86%,1.54%。绿茶的抑菌效果更好。     

有柄石韦不同提取物半数抑菌浓度初探

对有柄石韦活性成分的抑菌作用做了初步探讨.以不同有柄石韦提取物作用于临床常见的8种病原菌,测定其半数抑菌浓度（IC50）.结果证明有柄石韦不同粗提物对多种病原菌均有不同程度的抑制作用,其中黄酮类化合物抑菌效果尤为显著.     

20种中药提取物对牙龈卟啉单胞菌抑制作用的体外研究

目的筛选评价20种中药提取物对牙龈卟啉单胞菌抑制作用。方法选择20种有较强抑菌作用及清热解毒作用的中药提取物,采用杯碟法进行体外抑菌试验,比较各中药对牙龈卟啉单胞菌的抑菌环直径和最低抑菌浓度(MIC)。结果水煎剂中黄连、乌梅、五味子、五倍子和黄芩的MIC为0.0488~1.5625mg/mL。油剂中丁香油、香薷油的MIC为0.3906~1.5625mg/mL。结论本实验选择的20种中药提取物中香薷油、黄连、乌梅、五味子、五倍子和黄芩的抑菌敏感度最高。     

大戟内生菌的抑菌活性及其与宿主相关性研究

为了开发利用药用植物的内生菌资源,以大戟和其内生真菌作为材料,以一株乌桕来源的内生菌作为对照,研究自身具有抑菌作用的药用植物的内生菌在抑菌作用上和宿主的相关性.结果表明,大戟内生菌镰刀菌E5有抑制宿主受试病原菌的作用,并在活植物体内表现出对受试病原菌的拮抗作用;其抑菌能力受宿主成分刺激而加强,而宿主成分对受试病原菌无抑制作用,乌桕来源的内生菌链隔孢S12无抑制受试病原菌的作用.内生菌E5需要在氧气充足条件下培养才能产生抑菌作用,抑菌活性最大产生时间和生物量最大值不同时出现.内生菌E5的抑菌能力受到pH、温度、紫外线影响.大戟内生菌E以上特点,体现了其与宿主之间的互惠共生关系.     

3种中药对分枝杆菌抗菌作用的研究

本文介绍野菊花、鱼腥草及鬼针草对强毒人型结核分枝杆菌(H_(37)Rv)、堪萨斯分枝杆菌和胞内分枝杆菌的抗菌作用。结果表明,对H_(37)Rv野菊花水煎剂的最低抑菌浓度为2.5mg/ml,鱼腥草水煎剂为10mg/ml,鬼针草水煎剂未见明显作用;对堪萨斯分枝杆菌野菊花和鱼腥草水煎剂的最低抑菌浓度均为10mg/ml,鬼针草水煎剂为5mg/ml;对胞内分枝杆菌3种中药水煎剂均未显示出抗菌作用。选用有抗菌作用的中药,以超薄切片技术,电镜观察细胞超微结构变化特点。野菊花作用后的H_(37)Rv主要是细胞壁发生改变,     

Leaf cuticular wax amount and crystal morphology regulate post-harvest water loss in mulberry (Morus species)

Mulberry leaves are the sole source of food for silkworms (Bombyx mori), and moisture content of the detached leaves fed to silkworms determines silkworm growth and cocoon yield. Since leaf dehydration in commercial sericulture is a serious problem, development of new methods that minimize post-harvest water loss are greatly needed. In the present study, variability in moisture retention capacity (MRC, measured as leaf relative water content after one to 5 h of air-drying) was examined by screening 290 diverse mulberry accessions and the relationship between MRC and leaf surface (cuticular) wax amount was determined. Leaf MRC varied significantly among accessions, and was found to correlate strongly with leaf wax amount. Scanning electron microscopic analysis indicated that leaves having crystalline surface waxes of increased facet size and density were associated with high MRC accessions. Leaf MRC at 5 h after harvest was not related to other parameters such as specific leaf weight, and stomatal frequency and index. This study suggests that mulberry accessions having elevated leaf surface wax amount and crystal size and density exhibit reduced leaf post-harvest water loss, and could provide the foundation for selective breeding of improved cultivars.     

Effects of dietary mulberry, Korean red ginseng, and banaba on glucose homeostasis in relation to PPAR-alpha, PPAR-gamma, and LPL mRNA expressions

Despite lack of scientific evidences to support its therapeutic efficacy, the use of herbal supplements has significantly increased. The purpose of this study was to evaluate the effects of traditional anti-diabetic herbs on the progress of diabetes in db/db mice, a typical non-insulin-dependent model. Five different experimental diets were as follows: control diet, 0.5% mulberry leaf water extract diet, 0.5% Korean red ginseng diet, 0.5% banaba leaf water extract diet, and 0.5% combination diet (mulberry leaf water extract/Korean red ginseng/banaba leaf water extract, 1:1:1). Blood levels of glucose, insulin, HbA1c, and triglyceride were measured every 2 weeks. At 12 weeks of age, animals were sacrificed, and tissue mRNA levels of PPAR-alpha, PPAR-gamma, and LPL were determined. Results indicated that mulberry leaf water extract, Korean red ginseng, banaba leaf water extract, and the combination of above herbs effectively reduced blood glucose, insulin, TG, and percent HbA1c in study animals (p<0.05). We also observed that the increased expressions of liver PPAR-alpha mRNA and adipose tissue PPAR-gamma mRNA in animals fed diets supplemented with test herbs. The expression of liver LPL mRNA was also increased with experimental diets containing herbs. The efficacy was highest in animals fed the combination diet for all of the markers used. These results suggest that mulberry leaf water extract, Korean red ginseng, banaba leaf water extract, and the combination of these herbs fed at the level of 0.5% of the diet significantly increase insulin sensitivity, and improve hyperglycemia possibly through regulating PPAR-mediated lipid metabolism.     

桑-蚕系统中镉的吸收、累积与迁移

对桑－蚕系统中镉的吸收,累积与迁移行为研究结果表明：（１）桑树对土壤镉污染有一定的耐性,桑树镉累积量和相对累积率与土壤镉浓度的关系可分别用回归方程Ｔａ＝ａ＋ｂｌｏｇ（Ｓｃ）和ｌｏｇ（Ｒａ）＝ａ＋ｂｌｏｇ（Ｓｃ）描述。（２）随着土壤镉浓度的增加,镉在桑树根部的分布率明显增加,地上部分的分布率有所降低,运转到叶片的比率明显降低。（３）蚕体,蚕砂和蚕茧的镉含量,镉累积量,随着桑叶镉含量的增加而增加。     

Allelopathic potential of sweet potato (Ipomoea batatas) germplasm resources of Yunnan Province in southwest China

A laboratory bioassay was conducted to determine the allelopathic potentials of aqueous extracts from either roots or leaves of seventeen sweet potato [Ipomoea batatas L. (Lam)] cultivars (SP0, SP1, SP2, SP3, SP4, SP5, SP6, SP7, SP9, SP10, SP11, SP13, SP14, SP15, SP16, SP18, and SP19). Most inhibitory rates on Lactuca sativa calculated for leaf or root extracts from the seventeen sweet potato cultivars exhibited positive values and significantly increased with increasing concentration. Germination was totally inhibited at a concentration of 0.05 g·mL^?1 for leaf water extracts of SP13, SP15, SP18 and at a concentration of 0.05 g·mL^?1 for both leaf and root water extracts of SP19. Inhibition of root length was clearly greater than inhibition of shoot length for both leaf and root water extracts. Biomass inhibition increased with increasing concentration, but some cultivars showed stimulatory effects at low concentrations, and inhibition was generally more pronounced for root water extracts than for leaf water extracts. Moreover, most synthetical inhibitory rates for both leaf and root water extracts from the seventeen cultivars exhibited positive values and significantly increased with increasing concentration. Comparing the synthetical inhibitory rates for both leaf and root water extracts among the seventeen cultivars, SP19, SP6, SP11, and SP7 had the highest allelopathic inhibition. The inhibitory activity on germination index was the greatest, followed by germination rate, root length, biomass, and shoot length in all bioassays. Inhibition by leaf water extracts was generally greater than inhibition by root water extracts, except in the case of shoot length or biomass. Overall, we conclude that all seventeen sweet potato cultivars have strong inhibitory effects on L. sativa, but that these effects vary with cultivar and plant part, with SP19, SP6, SP11, and SP7 exhibiting the highest rates of allelopathic inhibition.     

Leaf Functional Traits and Stem Wood Characteristics Influencing Biomass Productivity of Mulberry (Morus spp. L) Genotypes Grown in Short-Rotation Coppice System

The present study was undertaken to obtain insights into the productivity determinant traits of mulberry (Morus spp. L.), a potential bioenergy tree crop. Our objectives were to identify leaf functional traits and stem wood characteristics that are correlated to biomass yield of mulberry. Based on the growth performance, six mulberry genotypes from different performance groups including high (Selection1 and Thaibeelad), average (Mysore Local) and poor (Triploid10, Jhoropakari and Selection1635) were selected for the study, along with a reference high-yielding genotype (Victory1). The study was conducted in Southern India for two consecutive years, covering two experimental seasons including exp season I (July 2009 to October 2009) and exp season II (July 2010 to October 2010). Mulberry trees were cultivated in a short-rotation coppice system under well-irrigated optimum farming conditions. Data were collected on biomass yield along with several leaf-level physiobiochemical characteristics and wood quality parameters. Significant genetic variation was recorded amongst the genotypes in most of the studied parameters. Fifteen out of a total of 22 traits, used in computing correlation coefficient matrix, were found to correlate with aboveground biomass yield. Light-saturated rate of photosynthesis, performance index, leaf nitrogen content, minimum leaf water potential and leaf-specific hydraulic conductance showed strong positive correlation with biomass productivity. Wood density, wood cross-sectional area and fibre cell density exhibited tight correlation with woody biomass yield. In conclusion, the identified 15 characteristics could be useful in the selection of suitable mulberry genotypes for higher biomass yield.     

Selective transport of the mulberry leaf urease from the midgut into the larval hemolymph of the silkworm,Bombyx mori

Just before spinning, larvae of the silkworm, Bombyx mori, absorb intact urease of the host plant (mulberry leaf) from the midgut lumen into the hemolymph. In order to investigate whether the transport of the mulberry leaf urease is selective, crude proteins extracted from the mulberry leaves were labeled with biotin and orally administered to the fifth instar larvae. The biotinylated proteins transported into the hemolymph were detected by ligand blotting using streptavidin. When the biotinylated proteins were administered to 5-day-old fifth instar larvae, a strong signal of a biotinylated protein was detected in the hemolymph 2 days after the administration. In contrast, when the biotinylated mulberry leaf proteins were administered to 3-day-old fifth instar larvae, no signal derived from the biotinylated proteins was detected in the hemolymph. The signal weakened when the biotinylated proteins had been immunoprecipitated before administering to the larvae, indicating that the signal came from the mulberry leaf urease. These results show that the transport of the mulberry leaf urease from the midgut into the hemolymph is selective and larval-stage specific. Subsequently, binding assays were carried out to test the binding ability of the mulberry leaf urease to the brush border membrane in the epithelial cells of larval midgut. The urease was not bound to the brush border membrane vesicles (BBMV) from the midgut of 3-day-old fifth instar larvae, while more than 60% of the total amount of incubated urease was bound to the BBMV from the midgut of 6-day-old fifth instar larvae. The urease binding ability of BBMV correlated with the uptake of the mulberry leaf urease. This suggests that a urease binding molecule(s) exists in the BBM of the midgut epithelium, which is involved in the uptake of the mulberry leaf urease. In addition, the uptake of the mulberry leaf urease into the hemolymph was induced by 20-hydroxyecdysone.     

Variations of cuticular wax in mulberry trees and their effects on gas exchange and post-harvest water loss

Though mulberry (Morus alba) tree shows great adaptations to various climate conditions, their leaf water status and photosynthesis are sensitive to climate changes. In the current study, seven widely planted mulberry cultivars in Chongqing, Southwest China, were selected to analyze leaf cuticular wax characteristics, gas exchange index, post-harvest leaf water status and their relationships, aiming to provide new theory in screening high resistant mulberry cultivars. Mulberry trees formed rounded cap-type idioblasts on the adaxial leaf surface. Film-like waxes and granule-type wax crystals covered leaf surfaces, varying in crystal density among cultivars. The stomatal aperture on the abaxial surface of cultivars with high wax amount was smaller than that of cultivars with low wax amount. The amount of total wax was negatively correlated with the net photosynthetic rate (P _N), transpiration rate (E) and stomatal conductance (g _s) and positively correlated with the moisture retention capacity. It suggested that both cuticular wax and stomatal factor might be involved in regulating water loss in mulberry leaves under field conditions. The variability in moisture retention capacity and cuticular wax characteristics might be important in evaluating and screening mulberry cultivars for increasing silk quality and silkworm productivity.     

Biochemical responses to drought stress in mulberry (<Emphasis Type="Italic">Morus alba</Emphasis> L.): evaluation of proline,glycine betaine and abscisic acid accumulation in five cultivars

Five popularly grown mulberry cultivars (K-2, MR-2, TR-10, BC2-59 and S-13) were subjected to drought stress by withholding irrigation, to obtain leaf water potentials (Ψ_w) ranging from −0.75, −1.50 and −2.25 MPa. Accumulation of proline, glycine betaine and abscisic acid (ABA) were quantified in control and water stressed mulberry leaves. The activities of enzymes involved in proline accumulation including glutamate dehydrogenase (EC1.4.1.2-4), pyrroline-5-carboxylate synthetase (EC 1.2.1.41), pyrroline-5-carboxylate reductase (EC1.5.1.2), ornithine transaminase (EC 2.6.1.13) were significantly enhanced in the leaves of all the cultivars with decreasing leaf water potentials, while the activities of proline dehydrogenase (EC 1.5.1.2) were reduced with progressive increase in water stress. Accumulation of proline, glycine betaine and abscisic acid was relatively higher in S-13 and BC2-59 compared to K-2, MR-2 and TR-10 under water deficit conditions. Our results demonstrate that S-13 and BC2-59 have superior osmoprotectant mechanisms under water-limited growth regimes.     

Characterization of a cadmium-zinc complex in lettuce leaves

Vegetable food contributes a higher amount of daily cadmium (Cd) intake in humans than food of animal origin. The bioavailability of plant Cd depends on the content of plant zinc (Zn). The mechanism by which increased plant Zn lowers the intestinal absorption of plant Cd could be mediated by changes in the chemical speciation of Cd or Zn in plant edible tissues, including Zn-induced phytochelatin synthesis. To test this hypothesis we investigated the chemical speciation of Cd and Zn in leaf extracts of lettuce grown under 10 ΜM of Cd accompanied by 0.32 or 31.6 ΜM Zn in nutrient solution. Gel filtration chromatography of the low- or high-Zn leaf extracts yielded a major low molecular weight Cd-Zn complex that eluted at similar elution volume. Compared to low-Zn leaf extracts, high-Zn leaf extracts contained a higher proportion of Zn incorporated into high molecular weight components, and higher content of the amino acids Cys, Glu, Gly, and Asp in the low molecular weight Cd-Zn complex. The peptides isolated by high performance liquid chromatography (HPLC) of the Cd-Zn complex from the low- or high-Zn leaf extracts did not have an amino acid composition identical to phytochelatins. We concluded that

1. Sequestration of Cd or Zn via phytochelatin does not occur in leaves of lettuce containing levels of those metals representatives of Zn-Cd or Cd-only contaminated crops; and
2. Higher Cys, Glu, Gly, and Asp content in high-Zn than low-Zn leaves could lower Cd absorption in animals fed high-Zn crop diets, by enhancing metallothionein synthesis or changing Cd or Zn speciation in the animal gut.

     

Mulberry Leaf Metabolism under High Temperature Stress

Effects of high temperature on the activity of photosynthetic enzymes and leaf proteins were studied in mulberry (Morus alba L. cv. BC2-59). A series of experiments were conducted at regular intervals (120, 240 and 360 min) to characterize changes in activities of ribulose-1,5-bisphosphate carboxylase (RuBPC) and sucrose phosphate synthase (SPS), photosystem 2 (PS 2) activity, chlorophyll (Chl), carotenoid (Car), starch, sucrose (Suc), amino acid, free proline, protein and nucleic acid contents in leaves under high temperature (40 °C) treatments. High temperature markedly reduced the activities of RuBPC and SPS in leaf extracts. Chl content and PS 2 activity in isolated chloroplasts were also affected by high temperature, particularly over 360 min treatment. Increased leaf temperature affected sugar metabolism through reductions in leaf starch content and sucrose-starch balance. While total soluble protein content decreased under heat, total amino acid content increased. Proline accumulation (1.5-fold) was noticed in high temperature-stressed leaves. A reduction in the contents of foliar nitrogen and nucleic acids (DNA and RNA) was also noticed. SDS-PAGE protein profile showed few additional proteins (68 and 85 kDa) in mulberry plants under heat stress compared to control plants. Our results clearly suggest that mulberry plants are very sensitive to high temperature with particular reference to the photosynthetic carbon metabolism.