Detection of micronuclei after exposure to mitomycin C, cyclophosphamide and diethylnitrosamine by the in vivo micronucleus test in mouse splenocytes.

A micronucleus detection test using mouse splenocytes has been adapted from a method previously carried out using human lymphocytes. An ex vivo protocol was chosen: male C57B16 mice were treated with various compounds. Splenocytes were then isolated and placed in culture for 48 h and stimulated with concanavalin A and conditioned medium. The cytokinesis-block method reported by Fenech and Morley was used to detect and score micronuclei in the proliferating lymphocytes (3 micrograms/ml of cytochalasin B for 16 h). Three mutagenic clastogens, mitomycin C (MMC), a direct alkylating agent (0.4, 0.8 and 1.6 mg/kg), cyclophosphamide (CP), an indirect alkylating agent (25, 50 and 100 mg/kg) and diethylnitrosamine (DEN), an indirect alkylating agent with labile metabolites (25, 50 and 100 mg/kg), were tested at four sampling times (2, 4, 8 and 15 days). All three compounds were detected from 48 h after treatment. This method was indeed able to detect clastogenic compounds normally detected by the mouse bone marrow micronucleus test (MMC, CP) as well as a compound with labile metabolites which is not usually detected by this test (DEN). Maximum micronucleus induction was observed after 4 days for MMC, 2 days for CP and 15 days for DEN. This method thus appears to offer a potentially useful toxicological test for assessing in vivo clastogenicity.     

Odor reduction rate in the confinement pig building by spraying various additives.

The objective of this on-site experiment was to evaluate and compare the effectiveness of currently utilized various additives, i.e. tap water, salt water, digested manure, microbial additive, soybean oil, artificial spice and essential oil, to reduce odor emissions from the confinement pig building. Odor reduction rates were evaluated with respect to sensual odor (odor concentration index, odor intensity and odor offensiveness) and odorous compounds (ammonia and sulfuric odorous compounds). Of the additives investigated in this study, salt water, artificial spice and essential oil had a positive effect on reducing odor generation. The effectiveness of salt water was only observed on ammonia, showing the reduction rates as a function of time (t=immediately, 1h, 3h, 5h, and 24h after spraying) were 0.1%, 20%, 36%, 11% and 0.2% as compared to initial level before spraying. The odor intensity and offensiveness were lessened by spraying artificial spice and essential oil of which maximum reduction rates ranged from 60% to 80%. Additionally, the essential oil had a significant effect on reducing sulfuric odorous compounds for 24h after spraying, which implicates that it functioned as not only a masking agent but also as an antimicrobial agent.     

Onychomycosis due to Malassezia.

The records of fifty patients presenting Malassezia spp. associated onychomycosis were compiled from two different mycology laboratories from Medellín, Colombia. Malassezia spp. was isolated by culture as the only etiological agent in 32% of the cases and associated to a yeast of the genus Candida in 30% of the cases. In 22% of the cases although Malassezia spp. was observed by direct examination, it was no isolated but others species were obtained. No etiological agent was isolated by culture in 16% of the cases. We found evidence of the Malassezia spp.- Candida relationship in 48% of the cases by either direct examination or by culture isolation. The level of detection of Malassezia spp. by culture isolation was of 62% as compared to the direct examination. Results showed similar patterns of distribution of epidemilogical factors for both entities: onychomycosis by Candida albicans and onychomycosis by Malassezia spp.     

The growth factor inhibitor suramin reduces apoptosis and cell aggregation in protein-free CHO cell batch cultures

We have previously shown that Chinese hamster ovary (CHO) cells capable of growing in medium free of exogenous proteins die by apoptosis during all stages of a batch culture (Zanghi et al., 1999). On the basis of the hypothesis that extracellular death factors might be important in apoptosis under these conditions, we examined the effect of the growth factor inhibitor and antitumor agent suramin on CHO cell growth and apoptosis in serum-free culture. Suramin protected against apoptosis during exponential growth, as indicated by the absence of DNA laddering and an increase in cell viability from roughly 70% to above 95%. Suramin also effectively dispersed cell aggregates so that single-cell suspension culture was possible. However, suramin did not protect against apoptosis during the death phase, in contrast to serum, suggesting that antiapoptotic factors in the serum remain to be discovered. The increased viable cell yield following suramin supplementation resulted in a 40% increase in product yield, based on results with cells expressing recombinant secreted alkaline phosphatase. Polysulfated compounds dextran sulfate and polyvinyl sulfate worked nearly as well as suramin in dispersing cell clumps and increasing viable cell yield, which implies that suramin's high sulfate group density may be responsible for its effects in cell culture. In addition, suramin was beneficial for long-term adaptation of CHO cells to protein-free media suspension culture, and the compound was synergistic with insulin in accelerating this adaptation time.     

In vitro regeneration of Semecarpus anacardium L. from axenic seedling-derived nodal explants

Semecarpus anacardium (Anacardiaceae), a deciduous forest tree, is a potent source of medicinal compounds. Poor seed viability of this species limits the conventional propagation practice. Proliferation of shoots from axillary meristem was achieved in semisolid WPM medium supplemented with BAP 4.44 μM and KN 4.64 μM. Factors including culture vessels, gelling agents and antioxidants were identified and optimized for proliferation and growth of shoots in vitro. Cotton-plugged culture vessels were more favorable. Phytagel 0.2% as gelling agent and activated charcoal 0.2% as antioxidant were superior to other agents and antioxidants tested. All the shoots rooted in half-strength WPM liquid medium with IBA 2.46 μM. Rooted shoots survived (91%) in the soil–sand 1:1 mixture. Ex vitro rooting of shoots and hardening of plants were achieved in 80% of the explants in the soil–sand mixture. Hardened plants were maintained in a greenhouse. This is the first report on in vitro regeneration of Semecarpus anacardium.     

Polyamine metabolism in McCoy cells: III. Comparative studies of the metabolic fate of exogenous putrescine in human fibroblasts and McCoy cultures

The fate of exogenously added 14C-putrescine following incubation for 24 hours with McCoy and human skin fibroblast cultures was examined. The nature of the polyamine derivatives found were quite different indicative of a difference in the cellular metabolism of polyamines. Exogenously added putrescine (PUT) was metabolized by both McCoy and human skin fibroblast cultures to form spermidine (SPD), spermine (SPM), gamma-aminobutyric acid (GABA) and some unidentified compounds. Within the experimental period of observation, human cultured fibroblasts metabolized PUT more efficiently than McCoy cells and converted more than 50% of it into SPD, SPM, GABA and unknown compounds. Monoacetyl putrescine (MAP) was formed by human skin fibroblasts. It was mainly identified in the culture medium. No MAP was detectable either intracellularly or extracellularly in McCoy cultures. The percentage of 14C-radioactivity found as PUT in the culture medium was greater in McCoy cells (86.0%) than in human fibroblasts (53.9%). The reverse was true for the percentage distribution of 14C-radioactivity as PUT inside the cells. No low Mr conjugates of SPD or SPM were found in the medium or intracellularly with either culture type. Some low Mr putrescine conjugates were found in the culture media; these were identified by the liberation of PUT upon acid hydrolysis.     

Changes in development and ultrastructure of Aspergillus niger mycelium in the presence of toxic substances from molasses in citric acid fermentation medium.

Effects of a surface-active agent (Spumol BJ) and toxic molasses compounds on development and ultrastructure of Aspergillus niger strain R-16 mycelium producing citric acid in surface fermentation on molasses medium with 80% yield are presented. Microscopic observations showed that Spumol BJ in concentration of 5 microliters/100 cm3 as well as toxic molasses compounds stimulated the process of swelling and germinating of conidia. Giant conidia unable to germinate, appeared along with typical ones. Delicate mycelium outgrowing from germinating conidia however, sank after 20-24 h culture. Observations of hyphae in electron microscope showed changes in the ultrastructure and dimensions of mitochondria followed by successive degeneration of protoplast. The data obtained indicate that one of the reasons disqualifying raw molasses for biotechnological processes might be the excessive amount of surface-active antifoaming additives.     

Cross-induction of pyrene and phenanthrene in a Mycobacterium sp. isolated from polycyclic aromatic hydrocarbon contaminated river sediments.

A polycyclic aromatic hydrocarbon (PAH)-degrading culture enriched from contaminated river sediments and a Mycobacterium sp. isolated from the enrichment were tested to investigate the possible synergistic and antagonistic interactions affecting the degradation of pyrene in the presence of low molecular weight PAHs. The Mycobacterium sp. was able to mineralize 63% of the added pyrene when it was present as a sole source of carbon and energy. When the enrichment culture and the isolated bacterium were exposed to phenanthrene, de novo protein synthesis was not required for the rapid mineralization of pyrene, which reached 52% in chloramphenicol-treated cultures and 44% in the absence of the protein inhibitor. In the presence of chloramphenicol, < 1% of the added pyrene was mineralized by the mixed culture after exposure to anthracene and naphthalene. These compounds did not inhibit pyrene utilization when present at the same time as pyrene. Concurrent mineralization of pyrene and phenanthrene after exposure to either compound was observed. Cross-acclimation between ring classes of PAHs may be a potentially important interaction influencing the biodegradation of aromatic compounds in contaminated environments.     

Characterization of zinc effect to inhibit osteoclast-like cell formation in mouse marrow culture: Interaction with dexamethasone

The inhibitory effect of zinc compounds on osteoclast-like cell formation in mouse marrow culture in vitro was characterized. The bone marrow cells were cultured for 7 days in -minimal essential medium containing a well-known bone resorbing agent, 1,25-dihydroxyvitamin D3 [1,25(OH)2D3] or prostaglandin E2 (PGE2). Osteoclast-like cell formation was estimated by staining for tartrate-resistant acid phosphatase (TRACP), a marker enzyme of osteoclasts. The presence of 1,25(OH)2D3 (10-8 M) or PGE2 (10-6 M) induced a remarkable increase in osteoclast-like multinucleated cells. These increases were enhanced by the presence of dexamethasone (10-9 to 10-6 M). The dexamethasone (10-7 M)-enhanced osteoclast-like cell formation was not inhibited by the presence of zinc sulfate (10-6 M) or zinc-chelating dipeptide (-alanyl-L-histidinato zinc; 10-6 M), although the zinc compounds had an inhibitory effect on osteoclastic formation in the absence of the steroid. The effect of dexamethasone was not seen, when the steroid was added at the later stage of culture with bone-resorbing agents. In this case, the inhibitory effect of zinc compounds was clearly revealed. This effect of zinc compounds disappeared in the presence of Ca2+-chelating agent (0.5 mM EGTA). The present study suggests that zinc compounds have an inhibitory effect at the stage of differentiation of preosteoclastic cells in bone marrow cell culture system. (Mol Cell Biochem 166: 145-151, 1997)     

Cell culture media are potent antioxidants that interfere during LDL oxidation experiments

In vitro cell-induced low-density lipoprotein (LDL) oxidation is a model frequently used for studies on antioxidant compounds which may be potentially antiatherogens. Using Cu2+ or the free radical generator 2,2'-azobis-[2-amidinopropane] dihydrochloride (AAPH) to oxidize human LDL, we showed that the cell culture media Ham's F10 and RPMI are potent antioxidants which reduce LDL-protective effect of various thyroid compounds. The culture media interfered with the compounds depending on their mechanism of action, and RPMI had the greatest antioxidant effect, completely hiding antioxidant efficiency of the compounds whatever the prooxidant agent was. We suggest some recommendations for study of antioxidant compounds using cell-induced LDL oxidation models.     

Scavenger effect of flavonols on HOCl-induced luminol chemiluminescence.

Hypochlorous acid (HOCl), the main product of the myeloperoxidase system, is a strong oxidant and a potent chlorinating agent, which can damage host tissues. In the present work, the scavenger effect of three aglycone flavonols (myricetin, quercetin and kaempferol) and of the natural glycoside flavonol, rutin, was studied towards HOCl using luminol-dependent chemiluminescence (CL). At 1 micro mol/L fi nal concentration, rutin was the most powerful scavenger of HOCl with an inhibitory luminol oxidation of 91.4% +/- 3.2%. Quercetin, kaempferol and myricetin inhibited the luminol-dependent CL at the same concentration only by 75.9% +/- 3.4%, 57.7% +/- 5.3% and 43.3% +/- 3.5%, respectively. With increasing concentration of these flavonols, a dose-dependent inhibition of luminol CL was observed. In order to prove to what extent flavonols scavenge HOCl, their concentrations that gave 50% inhibition of luminescence (IC50) were compared to IC50 values of the sulphur-containing compounds N-acetyl cysteine (NAC) and taurine. The scavenging activities of compounds tested decrease in the order: rutin > NAC > quercetin > kaempferol > taurine. The present study revealed that rutin was the most effective scavenger agent.     

Development of rat embryos in culture media containing different concentrations of normal and diabetic rat serum.

In vitro culture of rodent embryos has been extensively used in the search for teratologic agents, with possible relevance to diabetic pregnancy. However, the high concentrations of rat serum added to the culture medium (approximately 75%) have raised concern that the teratogenic effects of some compounds may be attenuated or masked in this culture system and thereby forced the addition of pharmacological concentrations of the compounds (e.g., D-glucose and beta-hydroxybutyrate) to the medium. This issue has been examined in the present study where the effects of different concentrations of rat serum on growth and differentiation of rat embryos were recorded in cultures supplemented with increased concentrations of D-glucose and beta-hydroxybutyrate. The embryonic development was also evaluated after culture in medium supplied with serum from diabetic rats. Compared with normal rat serum, the diabetic serum had an elevated glucose concentration as well as markedly increased levels of triglycerides and branched amino acids, indicating a potentially rich supply of major nutrients for the cultured embryos. Lowering the serum concentration in the culture medium from 80% to 50% yielded progressively retarded embryonic growth but no increased rate of other morphological malformations. At 40% serum concentration, however, there was a sharp rise in the incidence of somatic malformations, in addition to the prevailing growth retardation. When the embryonic growth and development were compared at 50% and 80% serum concentrations, increased D-glucose or beta-hydroxybutyrate concentrations caused similar degrees of embryonic dysmorphogenesis. Also, the uptake of each compound by the embryos exposed to elevated levels of the two agents were similar in 50% and 80% serum cultures. There was, therefore, no protection against the teratogenic and growth-retarding effects of increased D-glucose or beta-hydroxybutyrate offered by high serum concentrations in the culture medium (i.e., 80% vs. 50%). Embryos cultured in 50% or 80% diabetic rat serum at 30 mmol/L or 50 mmol/L D-glucose concentration showed similar rates of somatic malformations as did embryos exposed to the same proportion of normal rat serum at similar glucose concentrations. By contrast, the diabetic rat serum amplified the general retarding effects of high D-glucose levels, yielding lower protein levels and somite numbers in embryos from diabetic serum culture than in embryos cultured in normal rat serum.(ABSTRACT TRUNCATED AT 400 WORDS)     

Identification and Phytotoxicity of 3-methylthiopropanoic and Trans-3-methylthiopropenoic Acids Produced in Culture by Xanthomonas campestris pv. vitians

Two phytotoxic metabolites were isolated from culture filtrates of Xanthomonas campestris pv, vitians , the causal agent of lettuce leaf spots and headrot. The two compounds were identified as 3-methylthiopropanoic (1) and trans-3-methylthiopropenoic (2) acids by chemical and spectroscopic methods. Toxic effects of the two compounds on leaf tissues and protoplasts of lettuce and cabbage were investigated. Solutions of 1 and 2 induced chlorosis and necrosis on lettuce leaves at minimum concentrations of 300 and 50 μg/ml, respectively. Infiltration in cabbage leaves did not produce any symptoms. The LD₅₀ values for 1 and 2 against lettuce protoplasts were 15 and 16 μg/ml, respectively. Activity of the two metabolites against cabbage protoplasts was very low (LD₅₀ > 500 μg/ml).     

Vanadyl(IV) complexes with saccharides. Bioactivity in osteoblast-like cells in culture

Complexes of vanadyl(IV) with 4 monosaccharides and 5 disaccharides were tested in 2 osteoblast-like cell lines (MC3T3E1 and UMR106). Many complexes caused stimulation of UMR106 proliferation (120% basal) in the range of 2.5 to 25 micromol/L. In the nontransformed osteoblasts, some vanadyl-saccharide complexes stimulated the mitogenesis (115% basal) in the same range of concentration. The glucose and sucrose complexes were the most efficient inhibitory agents (65% and 88% of inhibition vs. basal, respectively) for tumoral cells at 100 micromol/L. The galactose and turanose complexes exerted a similar effect in the nontransformed osteoblasts. On the other hand, all the complexes promoted the phosphorylation of the extracellular regulated kinases (ERKs). All together, these results indicate that the stimulation of ERKs is not the only factor that plays a role in the proliferative effects of vanadium derivatives since some compounds were inhibitory proliferating agents. Cell differentiation was evaluated by alkaline phosphatase specific activity and collagen synthesis in UMR106 cells. All the complexes inhibited alkaline phosphatase activity, with galactose complex as the most effective compound (IC50 = 43 micromol/L). The complex with the trehalose TreVO was the most effective agent to stimulate collagen synthesis (142% basal) and glucose consumption (132% basal). A cytosolic tyrosine protein kinase and the kinase-3 of glycogen synthase seem to be involved in the stimulation of glucose consumption by vanadium derivatives. In this series, only TreVO gathered the characteristics of a good insulin mimetic and osteogenic drug. In addition, this complex was a good promoting agent of nontransformed osteoblast proliferation, whereas it inhibited tumoral osteoblasts. GluVO, the complex with glucose, was also more toxic for tumoral than for nontransformed cells. These 2 vanadium derivatives are good potential antitumoral drugs. All the results suggest that the biological effects of vanadium compounds are a complex phenomenon influenced by the complexation, the dose, and the nature of the ligands and the cells.     

锌锰钛对接种放线菌剂甜瓜幼苗生长及诱导抗病性的影响

以陕甜3号甜瓜幼苗为材料,采用基质育苗、大田栽培法,研究了2种放线菌剂(Act28和康照)育苗接种和育苗移栽双重接种条件下,微量元素锌、锰、钛对甜瓜植株生长及诱导抗病性的影响.结果显示:(1)与单施菌剂相比,在育苗接种Act28并配施微量元素条件下甜瓜植株总鲜重、根鲜重和蔓叶鲜重分别显著增加31.5%、39.5%和31.5%,在双重接种Act28配施微量元素条件下分别显著增加40.5%、17.6%和40.7%.(2)与单纯菌剂接种相比,在育苗接种和双重接种Act28并配施微量元素下甜瓜叶片过氧化物酶活性分别降低4.4%和10.2%,丙二醛含量分别增加10.9%和16.6%;甜瓜叶片多酚氧化酶、过氧化物酶活性及可溶性蛋白含量在育苗接种康照并配施微量元素下分别较育苗接种康照降低2.2%、38.0%和5.0%,丙二醛含量增加17.7%.(3)甜瓜根系多酚氧化酶活性和丙二醛含量在育苗接种Act28配施微量元素处理下较育苗接种分别显著增加30.7%和42.6%,而在Act28双重接种配施微量元素与双重接种处理间无明显变化;甜瓜根系过氧化物酶活性在育苗接种Act28、康照与微量元素配施处理下,分别较2种菌剂育苗接种处理显著降低14.7%、34.3%,苯丙氨酸解氨酶活性分别明显降低14.9%、21.9%.研究表明,菌剂Act28育苗接种或育苗移栽双重接种条件下,锌、锰、钛溶液对甜瓜植株生长具有显著的促进作用,且微量元素效应与接入的菌剂种类及接种方式有关;微量元素溶液对甜瓜防卫酶活性及抗性物质含量等无显著影响或具有一定程度的负效应,从而导致甜瓜诱导抗病性下降.     

Identification of an agent in cultures of Aspergillus fumigatus displaying anti-phagocytic and immunomodulating activity in vitro

When cultured in vitro, Aspergillus fumigatus generated a metabolite(s) with anti-phagocytic activity as tested by macrophage adherence to plastic and phagocytosis of particulate matter. The metabolite(s) appeared after 3 d culture and reached a peak concentration after 5-6 d. The action of the anti-phagocytic agent(s) was rapid (5-15 min) and appeared not to alter membrane permeability or cause rapid cell death. Treatment of stimulator spleen cells with the agent(s) inhibited their ability to induce alloreactive and major histocompatibility complex restricted cytotoxic T cells. The metabolite(s) was chloroform-soluble and separated into three biologically active compounds on thin-layer chromatography. These compounds were purified greater than 1000-fold and one of them was identified as gliotoxin, a known metabolite of A. fumigatus, based upon NMR and IR spectroscopy, mass spectrometry, biological properties and other data.     

Phospholipase A2 inhibitors synthesized by two entomopathogenic bacteria, Xenorhabdus nematophila and Photorhabdus temperata subsp. temperata

The entomopathogenic bacteria Xenorhabdus nematophila and Photorhabdus temperata subsp. temperata suppress insect immune responses by inhibiting the catalytic activity of phospholipase A(2) (PLA(2)), which results in preventing biosynthesis of immune-mediating eicosanoids. This study identified PLA(2) inhibitors derived from culture broths of these two bacteria. Both X. nematophila and P. temperata subsp. temperata culture broths possessed significant PLA(2)-inhibitory activities. Fractionation of these bacterial metabolites in the culture broths using organic solvent and subsequent chromatography purified seven potent PLA(2) inhibitors, three of which (benzylideneacetone [BZA], proline-tyrosine [PY], and acetylated phenylalanine-glycine-valine [FGV]) were reported in a previous study. Four other compounds (indole, oxindole, cis-cyclo-PY, and p-hydroxyphenyl propionic acid) were identified and shown to significantly inhibit PLA(2). X. nematophila culture broth contained these seven compounds, while P. temperata subsp. temperata culture broth contained three compounds (BZA, acetylated FGV, and cis-cyclo-PY). BZA was detected in the largest amount among these PLA(2) compounds in both bacterial culture broths. All seven bacterial metabolites also showed significant inhibitory activities against immune responses, such as phenoloxidase activity and hemocytic nodulation; BZA was the most potent. Finally, this study characterized these seven compounds for their insecticidal activities against the diamondback moth, Plutella xylostella. Even though these compounds showed relatively low toxicities to larvae, they significantly enhanced the pathogenicity of Bacillus thuringiensis. This study reports bacterial-origin PLA(2) inhibitors, which would be applicable for developing novel insecticides.     

Packed bed column fermenter and kinetic modeling for upgrading the nutritional quality of coffee husk in solid-state fermentation.

Studies were carried out to evaluate solid-state fermentation (SSF) for the upgradation of the nutritional quality of coffee husk by degrading the caffeine and tannins present in it. SSF was carried out by Aspergillus niger LPBx in a glass column fermenter using factorial design experiments and surface response methodology to optimize bioprocess parameters such as the substrate pH and moisture content and aeration rate. The first factorial design showed that the moisture content of the substrate and aeration rate were significant factors for the degradation of toxic compounds, which was confirmed by the second factorial design too. The kinetic study showed that the degradation of toxic compounds was related to the development of the mold and its respiration and also to the consumption of the reducing sugars present in coffee husk. From the values obtained experimentally for the oxygen uptake rate and CO(2) evolved, the system determined a biomass yield (Y(x/o)) of 3.811 (g of biomass).(g of consumed O(2))(-1) and a maintenance coefficient (m) of 0.0031 (g of consumed O(2)).(g biomass of biomass)(-1).h(-1). The best results on the degradation of caffeine (90%) and tannins (57%) were achieved when SSF was carried out with a 30 mL.min(-1) aeration rate using coffee husk having a 55% initial moisture content. The inoculation rate did not affect the metabolization of the toxic compounds by the fungal culture. After SSF, the protein content of the husk was increased to 10.6%, which was more than double that of the unfermented husk (5.2%).     

Hydrogen peroxide. Ubiquitous in cell culture and in vivo?

Hydrogen peroxide (H2O2) is widely regarded as a cytotoxic agent whose levels must be minimized by the action of antioxidant defence enzymes. In fact, H2O2 is poorly reactive in the absence of transition metal ions. Exposure of certain human tissues to H2O2 may be greater than is commonly supposed; levels of H2O2 in the human body may be controlled not only by catabolism but also by excretion, and H2O2 could play a role in the regulation of renal function and as an antibacterial agent in the urine. Cell culture is a widely used method for the investigation of "physiological" processes such as signal transduction and regulation of gene expression, but chemical reactions involving cell culture media are rarely considered. Addition of reducing agents to commonly used cell-culture media can lead to generation of substantial amounts of H2O2. Some or all of the reported effects of ascorbic acid and polyphenolic compounds (e.g., quercetin, catechin, epigallocatechin, epigallocatechin gallate) on cells in culture may be due to H2O2 generation by interaction of these compounds with cell culture media.     

Influence of culture conditions and medium composition on the production of antibacterial compounds by marine Serratia sp. WPRA3

This study was undertaken to investigate the influence of culture conditions and medium components on production of antibacterial compounds by Serratia sp. WPRA3 (JX020764) which was isolated from marine water of Port Dickson, Malaysia. Biochemical, morphological, and molecular characteristics suggested that the isolate is a new candidate of the Serratia sp. The isolate showed strong antimicrobial activity against fungi, Gram-negative and Gram-positive bacteria. This bacterium exhibited optimum antibacterial compounds production at 28°C, pH 7 and 200 rev/min aeration during 72 h of incubation period. Highest antibacterial activity was obtained when sodium chloride (2%), yeast extract (0.5%), and glucose concentration (0.75%) were used as salt, nitrogen, and carbon sources respectively. Different active fractions were obtained by Thin-Layer Chromatography (TLC) and Flash Column Chromatography (FCC) from ethyl acetate crude extracts namely OCE and RCE in different culture conditions, OCE (pH 5, 200 rev/min) and RCE (pH 7/without aeration). In conclusion, the results suggested different culture conditions have a significant impact on the types of secondary metabolites produced by the bacterium.