Phytochemical alteration and new occurring compounds in hairy root cultures of Mitracarpus hirtus L. induced by phenylurea cytokinin (CPPU)

Hairy root cultures of Mitracarpus hirtus L. were obtained after transforming leaf-disc explants with wild strain Agrobacterium rhizogenes A13. The root cultures of M. hirtus showed high efficiency of shoot formation in both transformed and non-transformed cultures when illuminated with light. However, transformed hairy root proliferation was approximately 3.8–5 times higher than the control in both solidified and liquid plant growth regulator free media. Putatively transformed roots were identified by the presence of the rol gene via PCR. Integration of the rol gene into the plant genome was confirmed via Southern blot analysis after 5 months with no detection in non-transformed roots. In addition, the effect of 2-chloro-4-pyridyl-N-phenylurea (CPPU), a synthetic cytokinin, when applied as an elicitor for hairy root cultures of M. hirtus was investigated. The 24-day-old hairy root cultures of high root proliferation line R107-3, were incubated for 48 h in media supplemented with 0 or 5 mg l^?1 CPPU. The methanolic extracts of root tissues were subsequently analyzed for biochemical constituents using Gas Chromatography Mass Spectrometry (GC-MS). The alteration of plant secondary metabolites produced after CPPU treatment was analyzed. Compared to the control (with quality higher than 80 %), six unique compounds were found, five original compounds absent, 11 with increased, and five with decreased contents. Increased contents of two metabolites, chrysophanol and 2-methoxy-4-vinylphenol, showed pharmaceutical potential. CPPU was also found to elicit the alkaloid compound, Eseroline, 7-bromo-, methylcarbamate (ester), which could not be detected in the non-treated sample. The findings of this study demonstrate the establishment of transgenic hairy root of M. hirtus and the application of CPPU as an elicitor to induce variations in plant secondary metabolite that shows its potential to apply for bio-reactor system.     

Fabrication and characterization of silver nanoparticle and its potential antibacterial activity

In the present research silver nanoparticle was fabricated by chemical reduction of silver salt (Silver nitrate, AgNO₃) solution. Sodium citrate was used as a reducer. The formation of silver nanoparticle was observed visually by color change (greenish yellow). The surface plasmon resonance peak in absorption spectra of silver nanoparticle showed an absorption maximum at 420 nm in UV-VIS spectrometry. The X-ray diffraction pattern showed the presence of sharp reflections at 111, 200, 220, and 311. This would indicate the presence of silver nanoparticle. The scanning electron micrograph revealed that the average size of silver nanoparticle was 21.22 ± 5.17 nm. Silver nanoparticle exhibited better antimicrobial activity against Staphylococcus aureus than the other bacterial pathogens. The correlation coefficient between silver nanoparticles and selected bacterial pathogens revealed that there is a strong negative correlation with Escherichia coli, S. aureus and Klebsiella pneumonia (r = −0.975, −0.993, and −0.998, respectively).     

昂立植物乳杆菌及其抑菌物质的特性研究

该文研究了昂立植物乳杆菌(LP-Onlly)菌体及其代谢产物的抑菌性能,并对其代谢产物中的抑菌物质进行了部分理化特性的考察,发现LP-Onlly菌体对部分肠道有害菌有抑制作用,代谢产物中的抑菌物质对常见的肠道致病菌和食品腐败微生物具有广谱抑菌作用,对嗜酸乳杆菌及双歧杆菌等益生菌无抑制作用.该物质具有热稳定性,但抑菌活性受pH值的影响较大.     

Purification of a lectin from Eugenia uniflora L. seeds and its potential antibacterial activity

Aims: The aim of this work was to analyse the antimicrobial properties of a purified lectin from Eugenia uniflora L. seeds. Methods and Results: The E. uniflora lectin (EuniSL) was isolated from the seed extract and purified by ion‐exchange chromatography in DEAE‐Sephadex with a purification factor of 11·68. The purified lectin showed a single band on denaturing electrophoresis, with a molecular mass of 67 kDa. EuniSL agglutinated rabbit and human erythrocytes with a higher specificity for rabbit erythrocytes. The haemagglutination was not inhibited by the tested carbohydrates but glycoproteins exerted a strong inhibitory action. The lectin proved to be thermo resistant with the highest stability at pH 6·5 and divalent ions did not affect its activity. EuniSL demonstrated a remarkable nonselective antibacterial activity. EuniSL strongly inhibited the growth of Staphylococcus aureus, Pseudomonas aeruginosa and Klebsiella sp. with a minimum inhibitory concentration (MIC) of 1·5 μg ml^?1, and moderately inhibited the growth of Bacillus subtilis, Streptococcus sp. and Escherichia coli with a MIC of 16·5 μg ml^?1. Conclusions: EuniSL was found to be effective against bacteria. Significance and Impact of the Study: The strong antibacterial activity of the studied lectin indicates a high potential for clinical microbiology and therapeutic applications.     

Biosynthesis, characterization and antibacterial activity of silver nanoparticles by aqueous Annona squamosa L. leaf extract at room temperature

Silver nanoparticles (AgNPs) have gained great interest in nanotechnology, biotechnology and medicine. The green synthesis of nanoparticles has received an increasing attention because of it’s maximize efficiency and minimize health and environmental hazards as compared to other conventional chemical synthesis. In this study, we reported biosynthesis of AgNPs by aqueous Annona squamosa L. leaf extract and its characterization by UV-visible spectroscopy (UV–vis), Field emission gun scanning electron microscopy (FEG-SEM), X-ray energy dispersive spectroscopy (EDX), Transmission electron microscopy (TEM), Selected-area electron diffraction (SAED) and Fourier transform infra-red spectroscopy (FTIR). The results indicated that AgNPs formed were spherical in shape with size ranging from 14 to 40 nm with an average diameter 28.47 nm. Furthermore, it was observed that the AgNPs exhibited an antibacterial activity against different Gram positive and Gram negative microorganisms. Our report confirmed that the ALE is a very good eco-friendly and nontoxic bioreductant for the synthesis of AgNPs and opens up further opportunities for fabrication of antibacterial drugs, medical devices and wound dressings.     

Kinetics of micronucleus induction and cytotoxic activity of colchicine in murine erythroblast in vivo.

In previous studies, we inferred some pharmacokinetic and pharmacodynamic parameters of alkylating agents and antimetabolites by comparing their kinetics of micronucleated polychromatic erythrocyte (MN-PCE) induction with the one obtained after the exposure to gamma rays in peripheral blood of mice, assuming that radiation acts immediately because it does not require absorption and distribution in the organism. According to our earlier studies, the kinetics of MN-PCE induction depends mainly on the following: (i) the cytotoxic effects that in turn could affect the duration of cell division; (ii) the pharmacokinetics including the metabolic activation requirement; and (iii) the mechanism of MN induction. The aim of the present study was to analyze the kinetics of MN-PCE induction by an aneuploidogen that induces micronuclei by acting on the achromatic spindle. The kinetics of MN-PCE induction by colchicine, as well as the reduction in the PCE frequency over time was determined in peripheral blood of mice treated with different doses of the aneuploidogen. The genotoxic effect, established as the area beneath the curve (ABC) of MN-PCE versus time-response, indicates an almost directly proportional relationship with respect to dose. Similarly, the relationship between dose and cytotoxic effect determined as the ABC of PCE versus time was inversely proportional, suggesting a relationship between both endpoints and doses administered. However, the number of cells affected by these two phenomena indicates that cytotoxicity is not necessarily caused, or at least not only by genotoxicity. The analysis of the kinetics of MN-PCE induction after the treatment with non-cytotoxic dose of colchicine, indicates that the MN-PCE appear in the blood stream at almost the same time, as occurs after the exposure to gamma rays; in spite of the differences in the cell cycle stage in which they can cause micronucleus (MN). Perhaps the fact that cells are not synchronized does not permit one to observe some difference in the time they appear in the blood. These results suggest that colchicine acts rapidly after exposure. The elimination half-life of colchicine is 17h, suggesting that colchicne is disposable for long time. With high doses of colchicine the pharmacokinetic parameters increases substantially. These data imply that low doses of colchicine are slightly cytotoxic, and that under this circumstances colchicines arrives rapidly to hemopoyetic tissues and acts for several hours.     

Antimicrobial activity of Mitracarpus scaber extract and isolated constituents

The antimicrobial activity of a methanol extract and isolated constituents of Mitracarpus scaber, a species used in folk medicine by West African native people, was evaluated against Staphylococcus aureus and Candida albicans strains. The mitracarpus methanol extract possesses both antibacterial and antimycotic activities (minimum inhibitory concentration-MIC 31.25 and 62.50 microg ml-, respectively). This extract was subsequently fractioned and monitored by bioassays leading to the isolation of seven compounds screened for antibacterial and antimycotic activities. Among these compounds, gallic acid and 3,4,5-trimethoxybenzoic acid inhibited the growth of Staph. aureus (MIC 3.90 and 0.97 microg ml-). 4-Methoxyacetophenone and 3,4,5-trimethoxyacetophenone effectively inhibited C. albicans (MIC 1.95 microg ml-). The other compounds (kaempferol-3-O-rutinoside, rutin and psoralen) which were also isolated showed low antibacterial and antimycotic activities (125-500 microg ml-).     

Chemical and biological characterization of siderophore produced by the marine-derived Aureobasidium pullulans HN6.2 and its antibacterial activity

After analysis using HPLC and electronic ion spray mass spectroscopy, the purified siderophore produced by the marine-derived Aureobasidium pullulans HN6.2 was found to be fusigen. The purified desferric fusigen still had strong inhibition of growth of the pathogenic Vibrio anguillarum while the fusigen chelated by Fe³⁺ lost the ability to inhibit the growth of the pathogenic bacterium. The added iron in the medium repressed expression of the hydroxylase gene encoding ornithine N⁵-oxygenase that catalyzes the N⁵-hydroxylation of ornithine for the first step of siderophore biosynthesis in the yeast cells while expression of the hydroxylase gene in the yeast cells grown in the medium plus ornithine was enhanced.     

Prostaglandin synthesis by rheumatoid synovium and its stimulation by colchicine.

The synthesis of prostaglandins by rheumatoid synovial tissue in organ culture was studied utilizing radioimmunoassay, with antisera to PGB1, PGF1alpha and PGF2alpha. It was established that PGE2 and PGF2alpha were the major prostaglandins formed by analyses of culture media with the two antisera to PGF, before and after alkali treatment. Indomethacin at 5 mug/ml suppressed prostaglandin synthesis, usually to less than 1% of control cultures. Colchicine, 0.1 mug/ml resulted in marked stimulation of prostaglandin synthesis, in some cases over 10 fold. It is suggested, because of the colchicine effect, that the state of the microtubules may regulate the rate of prostaglandin biosynthesis. It is possible that prostaglandin E2 produced by rheumatoid synovia may contribute to the pathogenesis of the inflammatory reaction and lead to destruction of juxta-articular bone in rheumatoid arthritis.     

The significance of colchicine from Colchicum autumnale L. for the induction of polyploidy in nature

Summary No plants with an abnormally high chromosome number were found among 308 plants studied from within old colonies ofColchicum autumnale L.Study conducted in 1951 in partial fulfillment of the requirements for the degree Landbouwkundig Ingenieur (equivalent to Master of Science). Prepared for publication Nov. 1955.     

Optimized in vitro micro-tuber production for colchicine biosynthesis in Gloriosa superba L. and its anti-microbial activity against Candida albicans

Plant Cell, Tissue and Organ Culture (PCTOC) - Gloriosa superba L. tubers are a rich source of commercially important colchicine and due to overexploitation, the species has become vulnerable. In...     

具有抗菌效应的聚羟基脂肪酸酯生物塑料的制备与功能表征

聚羟基脂肪酸酯(Polyhydroxyalkanoates,PHAs)作为一类新型的生物高分子材料,因其多样的材料性质与高度的生物可降解性日益受到关注。使用乳酸链球菌素(Nisin),一种被公认为安全的天然食品防腐剂,制备了具有高效、持久抗菌效应的PHA塑料。首先采用溶剂浇铸的方法将Nisin整合到正3-羟基丁酸-3羟基己酸共聚酯(PHBHHx),一种具备高度生物相容性的PHA中,从而获得了具有抗菌效应的PHBHHx薄膜。激光共聚焦显微镜观察表明Nisin在PHBHHx中呈颗粒状均匀分布。随后以条件致病菌藤黄微球菌Micrococcus luteus为测试菌株,通过琼脂扩散法,测定PHBHHx薄膜抗菌效应对Nisin含量的依赖关系;在液体培养条件下测量PHBHHx薄膜的Nisin释放效果与抗菌效应。结果表明Nisin可从PHBHHx薄膜顺利释放且Nisin的含量高于25μg/g时即表现出显著的抑菌效果且可长时间维持。该研究为工业化生产具有抗菌效应的PHA奠定了重要的技术基础,拓展了PHA在医学和食品领域的应用潜力。     

Analysis of essential oil of Coridothymus capitatus (L.) and its antibacterial and antifungal activity

The water-distilled essential oil the leaves of Coridothymus capitatus were analyzed by GC/MS and also analyzed by direct thermal desorption GC/MS. Comparison was made between two analyses techniques. The essential oil consisted mainly of monoterpenes 98.9%, while oxygenated hydrocarbons were identified as 55.6 % and non-oxygenated hydrocarbons as 43.6%. As major components were found carvacrol (35.6%), p-cymene (21.0%), thymol (18.6%), gamma-terpinene (12.3%), alpha-terpinene (3.2%), beta-myrcene (3.0%) and alpha-thujene (1.3%) by hydrodistillation and by the GC/MS method. The direct thermal desorption GC/MS analysis also showed the same major components, namely carvacrol (51.6%), thymol (21.7%), p-cymene (9.7%) gamma-terpinene (8.2%), alpha-terpinene (1.64%). The essential oil of C. capitatus showed strong activity against S. aureus, P. vulgaris, P. aeruginosa, E. coli, K. pneumonia, B.     

Purification and molecular characterization of antibacterial compounds produced by Lactobacillus murinus strain L1

AIMS: The aim of this work was to purify and characterize antibacterial compounds produced by Lactobacillus murinus strain L1. METHODS AND RESULTS: Antagonistic activity was observed in a deferred agar-spot assay against spoilage and pathogenic bacteria, but not against lactobacilli. The inhibitory activity occurred between pH 3.0 and 5.0, and was heat stable. The active compounds were purified by gel filtration chromatography and two peaks of antibacterial activity were observed using Bacillus cereus ATCC 11778 and Shigella sonnei ATCC 11060 as indicator strains. Two active low molecular weight compounds were responsible for this phenomenon and UV spectroscopy, gas chromatography and mass spectrometry were used to characterize them. One of them is lactic acid, while the other is a mono-substituted aromatic ring apparently constituted by group residues of m/z 192 linked in tandem to phenylalanine. CONCLUSIONS: Lactobacillus murinus produces at least two low molecular weight compounds active against B. cereus and Sh. sonnei. SIGNIFICANCE AND IMPACT OF THE STUDY: This is the first purification of a new broad-spectrum antibacterial compound from Lact. murinus which inhibits various pathogenic and food spoilage bacteria without acting on other lactobacilli. Using it as a biotechnological control agent of bacterial spoilage may be a promising possibility for the food industry.     

Presence of macrotubules and their induction by colchicine in grasshopper spermatids

Ultrastructural studies show that groups of tubular structures of about 45 nm. in diameter appear in the cytoplasm of grasshopper spermatids. These tubules, or macrotubules, appear to have a fuzzy coat or to be twisted, and in some cases their bundles attain a length of 10 um. When grasshoppers were treated with colchicine, spermatid microtubules which composed the manchette are depolymerized and a large number of macrotubules appears. The relationship between these two types of tubules is discussed.     

Synthesis and characterization of BODIPY-labeled colchicine

Two BODIPY-labeled colchicine derivatives were synthesized and shown to bind to tubulin but only partially inhibit tubulin polymerization in the presence of GTP. Cytotoxicity studies were carried out in HeLa, HepG2, Raji and Vero cells. Apoptosis-inducing properties were determined by caspase 3/7 activity and flow cytometry and interactions between the derivatives and tubulin were verified by fluorescence microscopy of living cells.     

Modification of lactoferrin by peroxynitrite reduces its antibacterial activity and changes protein structure

Lactoferrin (LF) is a multifunctional protein that plays important physiological roles as one of the most concentrated proteins in many human and other mammalian fluids and tissues. In particular, LF provides antibacterial properties to human milk, saliva, and tear fluid. LF also protects against stress-induced lipid peroxidation at inflammation sites through its iron-binding ability. Previous studies have shown that LF can be efficiently nitrated via biologically relevant mediators such as peroxynitrite (ONOO⁻), which are also present at high intracellular concentrations during inflammation and nitrosative stress. Here, we examine changes in antibacterial properties and structure of LF following ONOO⁻ treatment. The reaction induces nitration of tyrosine and tryptophan residues, which are commonly used as biomarker molecules for several diseases. Treatment with ONOO⁻ at a 10/1 M ratio of ONOO⁻ to tyrosine inhibited all antibacterial activity exhibited by native LF. Secondary structural changes in LF were assessed using circular dichroism spectroscopy. Nitration products with and without the addition of Fe³⁺ show significant reduction in alpha-helical properties, suggesting partial protein unfolding. Iron-binding capacity of LF was also reduced after treatment with ONOO⁻, suggesting a decreased ability of LF to protect against cellular damage. LC-MS/MS spectrometry was used to identify LF peptide fragments nitrated by ONOO⁻, including tyrosine residue Y92 located in the iron-binding region. These results suggest that posttranslational modification of LF by ONOO⁻ could be an important pathway to exacerbate infection, for example, in inflamed tissues and to reduce the ability of LF to act as an immune responder and decrease oxidative damage.     

肠球菌E4及其抑菌产物特性的研究

目的获得抑制微生物生长的菌株。方法根据形态学和生理生化学特性进行菌种鉴定;采用牛津杯法测定抑菌谱和抑菌物质的理化特性。结果排除了过氧化氢和有机酸的作用,该菌发酵上清液对苏云金杆菌、枯草杆菌、大肠埃希菌、鸡白痢沙门菌等有抑制作用。根据菌株的生理生化特征,该菌株初步定为肠球菌属,定名为E4（Enterococcus sp．）。所产抑菌物质具有较好的热稳定性,在酸性条件下稳定且活性高。结论分离筛选了1株可产抑菌物质的肠球菌,其产生的抑菌物质具有良好的生物化学特性和广谱的抑菌能力。