Isolation and characterization of lactic acid bacteria strains with ornithine producing capacity from natural sea salt

Two lactic acid bacteria (LAB) having ornithine-producing capacity were isolated from Korean natural sea salt. They were Gram-positive, short rod-type bacteria, and able to grow anaerobically with CO₂ production. The isolates grew well on MRS broth at 30–37°C and a pH of 6.5–8.0. The optimum temperature and pH for growth are 37°C and pH 7.0. The isolates fermented D-ribose, D-galactose, D-lactose, D-maltose, Dcellobiose, D-tagatose, D-trehalose, sucrose, D-melezitose, gentiobiose, D-glucose but not D-melibiose, inositol, and L-sorbose. The 16S rDNA sequences of the two isolates showed 99.5% and 99.6% homology with the Weissella koreensis S5623 16S rDNA (Access no. AY035891). They were accordingly identified and named as Weissella koreensis MS1-3 and Weissella koreensis MS1-14, and produced intracellular ornithine at levels of 72 mg/100 g cell F.W. and 105 mg/100 g cell F.W. and extracellular ornithine at levels of 4.5 mg/100 ml and 4.6 mg/100 ml medium, respectively, by culturing in MRS broth supplemented with 1% arginine. High cell growth was maintained in MRS broth with a NaCl concentration of 0–6%. These results show for the first time that Korean natural sea salts contain lactic acid bacteria Weissella koreensis strains having ornithine producing capacity.     

Isolation and Characterization of Extremely Thermophilic Bacteria from Hot Springs

In order to investigate the mechanism of microbial growth at elevated temperatures, it was tried to isolate different thermophilic microorganisms from wide origins, such as soils, composts, manure piles and hot spring waters. As the result, 5 strains of extremely thermophilic bacteria, the maximum, the optimum and the minimum temperatures for growth of which were 80, 70~75, and 40°C, respectively, were isolated from Izu-Atagawa hot spring and Beppu hot springs. These bacteria were gram-negative, yellow-pigmented, non-motile and non-sporulating rods of 0.5~0.7 μ in diameter and 2~5 μ in length. They were heterotrophs requiring several amino acids (such as glutamate, aspartate, et al.) and vitamins (such as biotin, folic acid and p-aminobenzoic acid) and grew well at neutral to slight alkali pH. The content of GC pairs of DNAs from the 5 strains was 69~70%, and this seemed to be one of the highest values in bacteria so far known. Among the 5 strains, strain AT–62 was named as Thermus flavus sp. n. AT–62 from its morphological and physiological characteristics. Comparison between Thermus flavus and other extremely thermophilic bacteria as Thermus aquaticus and Flavobacterium thermophilum is described and discussed in reference to classification of extremely thermophilic bacteria.     

Production and properties of two types of xylanases from alkalophilic thermophilic Bacillus spp.

Summary Four strains (W1, W2, W3, and W4) of alkalophilic thermophilic bacteria which produced xylanase were isolated from soils. They were aerobic, spore-forming, Gram-positive, and rod-shaped bacteria and hence identified as the genus Bacillus. The optimal temperatures for growth of the four strains were between 45° C and 50° C and pH optima were between 9.0 and 10.0. No growth occurred below pH 7.0 or above 55° C. The four strains produced xylanases in medium containing xylan or xylose under these conditions. The optimal pH and temperature for activities of the four xylanases ranged from 6.0 to 7.0 and from 65° C to 70° C, respectively. The four xylanases were stable in the wide pH range from 4.5 to 10.5 at 45° C for 1 h. All xylanases split xylan to yield xylose and xylobiose.     

Adhesion of lactobacilli to polymer surfaces in vivo and in vitro

The ability of bacteria to attach to surfaces has been recognized as an important phenomenon, particularly for pathogenic organisms that utilize this capacity to initiate disease. The present investigation was undertaken to determine whether indigenous urogenital bacteria, lactobacilli, colonized prosthetic devices in vivo and in vitro and attached to specific polymer surfaces in vitro. Polyethylene intrauterine devices (IUDs) in place for 2 years were removed from six women who were asymptomatic and free of signs of cervical or uterine infection. Lactobacilli were found attached to the IUDs, as determined by culture, and fluorescent antibody and acridine orange staining techniques. This demonstrated that bacterial biofilms consisting of indigenous bacteria can occur on prosthetic devices without inducing a symptomatic infection. In vitro studies were then undertaken with well-documented lactobacilli strainsL. acidophilus T-13,L. casei GR-1, GR-2, and RC-17, andL. fermentum A-60. These organisms were found to adhere to IUDs and urinary catheters within 24 hours. A quantitative assay was designed to examine the mechanisms of adhesion ofL. acidophilus T-13 to specific polymer surfaces that are commonly used as prosthetic devices. The lactobacilli adhered optimally to fluorinated ethylene propylene when 10⁸ bacteria were incubated for 9 hours at 37°C in phosphate buffered saline, pH 7.1. Additional experiments verified that the lactobacilli adhered to polyethyleneterephthalate, polystyrene, and sulfonated polystyrene and to silkolatex catheter material. There was a linear relationship found between polymer hydrophobicity and bacterial adherence. These results demonstrate that lactobacilli bind to various surfaces in vivo and in vitro, and that the nature of the substratum can affect the colonization.     

Methanol-Assimilation durch ein acidophiles Bacterium der Gattung Acetobacter

Generally, methylotrophic bacteria grow optimally in a pH range between 6 and 7.2. The assimilation of methanol can take place via several pathways. Acetobacter methanolicus preiers an acidic pH range for growth, the pH optimum is about 4, and it uses the FBP variant for methanol assimilation. The latter is interesting from a regulatory point of view because phosphofructokinase disappears during growth on glucose, which is assimilated via the hexosemonophosphate pathway. Since Entner-Doudoroff enzymes and phosphoketolase are absent in A. `ethanolicus as well as in non-methylotrophic Acetobacter and Gluconobacter species phosphofructokinase becomes a key enzyme of the assimilation of methanol. Although A. methanolicus uses the hexulosephosphate pathway the growth yield on methanol is smaller than with other “hexulosephosphate pathway bacteria” e. g. with obligate methanol assimilating bacteria. At first sight it may appear that the acidic optimum pH is responsible for the smaller growth yield and the discrepancy between the experimental and predicted values. The relationship between the dependence on and the protection from, high external proton concentration on the one hand and the causes of the low growth yield on the other are discussed. Accordingly, A. methanolicus and another heterotrophic acidophiles seem to be acidoresistant above all, their machinery guaranteeing the protection from the high proton concentration is responsible for the acidophily and the low growth efficiency is caused by a simple respiratory chain.     

Alkaliflexus imshenetskii gen. nov. sp. nov., a new alkaliphilic gliding carbohydrate-fermenting bacterium with propionate formation from a soda lake

Anaerobic saccharolytic bacteria thriving at high pH values were studied in a cellulose-degrading enrichment culture originating from the alkaline lake, Verkhneye Beloye (Central Asia). In situ hybridization of the enrichment culture with 16S rRNA-targeted probes revealed that abundant, long, thin, rod-shaped cells were related to Cytophaga. Bacteria of this type were isolated with cellobiose and five isolates were characterized. Isolates were thin, flexible, gliding rods. They formed a spherical cyst-like structure at one cell end during the late growth phase. The pH range for growth was 7.5–10.2, with an optimum around pH 8.5. Cultures produced a pinkish pigment tentatively identified as a carotenoid. Isolates did not degrade cellulose, indicating that they utilized soluble products formed by so far uncultured hydrolytic cellulose degraders. Besides cellobiose, the isolates utilized other carbohydrates, including xylose, maltose, xylan, starch, and pectin. The main organic fermentation products were propionate, acetate, and succinate. Oxygen, which was not used as electron acceptor, impaired growth. A representative isolate, strain Z-7010, with Marinilabilia salmonicolor as the closest relative, is described as a new genus and species, Alkaliflexus imshenetskii. This is the first cultivated alkaliphilic anaerobic member of the Cytophaga/Flavobacterium/Bacteroides phylum.Dedicated to Prof. Dr. Hans Günter Schlegel on the occasion of his 80th birthday.     

猪源乳酸菌的分离、鉴定及其生物学特性

【目的】将分离自猪肠道粘膜、食糜和粪便的乳酸菌,通过产乳酸能力、生长性能、耐酸和耐胆盐性能及抑菌能力评价,筛选适应养猪生产的潜在益生特性的菌株。【方法】共分离获得155株乳酸菌纯菌株,从中筛选出4株产酸能力较强的乳酸菌,结合生理生化试验及细菌16S rRNA测序鉴定其种属,评价候选乳酸菌的生长情况、耐酸、耐胆盐及抑菌特性。【结果】综合变色时间(8 h)、pH值(3.9)和乳酸含量(100 mmol/L),筛选出4株(L45、L47、L63和L79)候选菌株,经鉴定依次为罗伊氏乳杆菌、植物乳杆菌、约氏乳杆菌和粪肠球菌。该4株乳酸菌均可在体外快速生长;L47和L79能够耐受pH 2.5的酸性环境,L47能够耐受0.5%胆盐环境;各乳酸菌上清液与指示菌共培养,发现对E coli K88和沙门氏菌均产生了抑制作用,其中L47上清液对指示菌的抑制作用较强。【结论】L47具有较好的产酸性能与生长性能、可耐受猪胃酸和肠道胆盐环境,对E.coli K88和沙门氏菌具有较好的抑制作用,说明该乳酸菌具有潜在的益生特性。     

Potential of phosphate solubilising Pseudomonas as biofungicide

Beneficial effects of phosphate solublising Pseudomonas isolates were studied. Out of 30 cultures of bacteria and fungi, 25 cultures solubilised 8–70% P on solid and 9–73 μg ml^?1 in liquid medium. These were tested for antifungal activity against Aspergillus niger, Sclerotium rolfsii, Rhizoctonia solani, Fusarium oxysporum and Pythium aphanidermatum. The cultures of Pf-1, Pf-6, Pf-8, Pf-11, T-9 and T-10 did not inhibit any of the fungi tested, whereas Pf-9 was inhibitory to all. On the basis of P-solubilisation and antifungal activity Pf-9 and T-4 were finally selected for subsequent studies and were identified as Pseudomonas spp.     

一株花椒根腐病拮抗菌的分离鉴定及全基因组序列分析

【背景】花椒根腐病的防治一直是生产中难以解决的问题,优良生防菌的筛选是微生物菌剂研发的重要方向。【目的】解析花椒根腐病拮抗菌T-1的遗传信息,深入挖掘其拮抗基因簇资源,揭示该菌的拮抗机制。【方法】采用平板对峙法、形态观察、生理生化测定结合分子生物学等方法进行拮抗菌的分离鉴定,同时对菌株进行全基因组测序,并对其序列进行分析及比较基因组学分析。【结果】分离获得的菌株经鉴定为贝莱斯芽孢杆菌,编号T-1,该菌对花椒根腐病的抑制率可达72%,可使菌丝前端的生长严重受阻,抑菌谱检测和花椒根片的离体拮抗试验结果表明,拮抗菌T-1具有较广的抑菌活性且离体状态下对花椒根片具有一定的拮抗作用。其全基因组序列数据提交到NCBI的SRA数据库中获得登录号为SRX11086663,基因组总长为3 886 726 bp,GC含量为46.42%,全基因组中有4015个编码基因,占总基因组的89.74%,比较基因组学分析结果显示,菌株T-1与贝莱斯芽孢杆菌模式菌株FZB42相似性高,拮抗基因簇预测结果发现B. velezensis T-1基因组序列中有12个编码次级代谢产物基因合成簇,其中8个与已知功能基因簇高度相似...     

Isolation and partial characterization of bacteriocins from<Emphasis Type="Italic"> Pediococcus</Emphasis> species

Lactic acid bacteria have received increased attention as a potential food preservative due to their strong antagonistic activity against many food-spoilage and pathogenic organisms. Three Pediococcus species, P. acidilactici NCIM 2292, P. pentosaceous. NCIM 2296 and P. cervisiae NCIM 2171, were evaluated for bacteriocin production. Inhibitory substance were produced during the late growth phase and maximum production occurred at 37 °C after 36–48 h of incubation. Bacteriocins partially purified from these species by cold-acetone precipitation at 0 °C and cell adsorption desorption techniques have a broad inhibitory spectrum against microorganisms, including gram-negative bacteria such as Escherichia coli and Pseudomonas. Proteolytic enzymes inactivated these peptides, but amylase and lipase did not show any effect. The bacteriocins were stable over a wide pH range (3–8) and apparently most active at pH 4.0–5.0. They were heat-stable (1 h at ~80 °C and autoclaving) at pH 5.0. No loss in activity was observed when stored under refrigeration (4–8 °C). Tris-Tricine SDS-PAGE revealed the molecular masses of these peptides to be between 3.5 and 5.0 kDa.     

Isolation and Characterization of Arsenate-Reducing Bacteria from Arsenic-Contaminated Sites in New Zealand

Two environmental sites in New Zealand were sampled (e.g., water and sediment) for bacterial isolates that could use either arsenite as an electron donor or arsenate as an electron acceptor under aerobic and anaerobic growth conditions, respectively. These two sites were subjected to widespread arsenic contamination from mine tailings generated from historic gold mining activities or from geothermal effluent. No bacteria were isolated from these sites that could utilize arsenite or arsenate under the respective growth conditions tested, but a number of chemoheterotrophic bacteria were isolated that could grow in the presence of high concentrations of arsenic species. In total, 17 morphologically distinct arsenic-resistant heterotrophic bacteria isolates were enriched from the sediment samples, and analysis of the 16S rRNA gene sequence of these bacteria revealed them to be members of the genera Exiguobacterium, Aeromonas, Bacillus, Pseudomonas, Escherichia, and Acinetobacter. Two isolates, Exiguobacterium sp. WK6 and Aeromonas sp. CA1, were of particular interest because they appeared to gain metabolic energy from arsenate under aerobic growth conditions, as demonstrated by an increase in cellular growth yield and growth rate in the presence of arsenate. Both bacteria were capable of reducing arsenate to arsenite via a non-respiratory mechanism. Strain WK6 was positive for arsB, but the pathway of arsenate reduction for isolate CA1 was via a hitherto unknown mechanism. These isolates were not gaining an energetic advantage from arsenate or arsenite utilization, but were instead detoxifying arsenate to arsenite. As a subsidiary process to arsenate reduction, the external pH of the growth medium increased (i.e., became more alkaline), allowing these bacteria to grow for extended periods of time.     

A novel highly boron tolerant bacterium, <Emphasis Type="Italic">Bacillus boroniphilus</Emphasis> sp. nov., isolated from soil,that requires boron for its growth

Three strains of gram-positive, motile, rod-shaped and boron (B)-tolerant bacterium were isolated from naturally B containing soil of Hisarcik area in the Kutahya Province, Turkey. The strains, designated as T-14A, T-15Z^T and T-17s, produced spherical or ellipsoidal endospores in a terminal bulging sporangium. The strains required B for the growth and can tolerate more than 450 mM B. These also tolerated up to 7.0% (w/v) NaCl in the presence of 50 mM B in agar medium but grew optimally without NaCl. The temperature range for growth was 16–37°C (optimal of 30°C), whereas the pH range was 6.5–9.0 (optimal of 7.5–8.5). The DNA G + C content was 41.1–42.2 mol% and the predominant cellular fatty acid was iso-C_15:0. The major respiratory quinone system was detected as MK-7 and the diamino acid of the peptidoglycan was meso-diaminopimelic acid. Based on phenotypic and chemotaxonomic characteristics, phylogenetic analysis of 16S rRNA gene sequences data and DNA–DNA re-association values, we concluded that the three strains belong to a novel species of the genus Bacillus, the type strain of which is T-15Z^T and for which we proposed the name, B. boroniphilus sp. nov. (DSM 17376^T = IAM 15287^T = ATCC BAA-1204^T).     

Leptospirillum-Like Bacteria and Evaluation of Their Role in Pyrite Oxidation

Two strains of Leptospirillum-like bacteria isolated from dumps of Alaverdi and Akhtala sulfide ore deposits in Armenia were studied. The optimum and maximum temperatures for the growth of both strains were 37 and 40°C, respectively. The pH optimum was 2.0–2.3. Bacterial growth and ferrous iron oxidation were inhibited by yeast extract. The pyrite-leaching activity of the Leptospirillum-like bacteria under mesophilic conditions was close to that of Acidithiobacillus ferrooxidans and exceeded by 2.0–2.7 times the activity of these moderately thermophilic bacteria at 37°C. The leaching of pyrite by Leptospirillum-like bacteria increased in the presence of sulfur-oxidizing bacteria, particularly, in their association with a thermotolerant sulfur-oxidizing bacterium.     

Hydration of Oleic Acid by Enterococcus gallinarum, Pediococcus acidilactici andLactobacillus sp. Isolated from the Rumen

Three ruminal bacteria found to convert oleic acid to 10-hydroxystearic acid were identified asEnterococcus gallinarum , Pediococcus acidilactici and a lactobacillus physiologically similar toLactobacillus reuteri and L. fermentum. The oleic acid-hydrating properties of the three bacteria were determined and hydration was shown to be predominantly a feature of anaerobic culture with relatively little hydration occurring in aerobic culture. Hydration was highly pH dependent and not related to cell growth. At the optimal hydration pH for each bacterium, hydration yields were 97%, 93% and 76% for the E. gallinarum, P. acidilactici andLactobacillus strains, respectively. The enterococcus and the lactobacillus hydrated oleic acid only after growth ceased whereas the pediococcus hydrated oleic acid during the late logarithmic growth. Hydration was not specific for oleic acid with all three bacteria hydrating the oleic acid homologue palmitoleic acid. None of the bacteria hydrogenated oleic acid to stearic acid. Our results suggest that a capacity to hydrate oleic acid may be a property of many lactic acid bacteria.     

Occurrence of Sulfolobus acidocaldarius,an extremely thermophilic acidophilic bacterium,in New Zealand hot springs

Several hot springs in the Rotorua-Taupo regions, North Island, New Zealand, were tested for the presence of extremely thermophilic acidophilic bacteria. In the majority of the springs, ranging in temperature from 43–96°C and in pH from 2.1–6.9, direct microscopic observations revealed the presence of both rod-shaped and spherical bacteria. Isolations were attempted at 70°C and pH 2.0 and 7.0, with either yeast extract for heterotrophic growth, or elemental sulfur as the sole source of energy for autotrophic growth. Eight of the samples produced grwoth at pH 2.0 with either yeast extract or sulfur, but none of the samples grew at pH 7.0. All the isolates obtained, resembled Sulfolobus acidocaldarius, a thermophilic acidophilic bacterium which has previously been reported from various regions in the Northern Hemisphere. Immunofluorescence examination of six of these isolates revealed varying degrees of cross reactions with two already characterized Sulfolobus isolates from the Yellowstone National Park, U.S.A. This paper is the first published record of Sulfolobus from the Southern Hemisphere.     

Interactions of Botryococcus braunii Cultures with Bacterial Biofilms

Unicellular microalgae generally grow in the presence of bacteria, particularly when they are farmed massively. This study analyzes the bacteria associated with mass culture of Botryococcus braunii: both the planktonic bacteria in the water column and those forming biofilms adhered to the surface of the microalgal cells (∼10⁷–10⁸ culturable cells per gram microalgae). Furthermore, we identified the culturable bacteria forming a biofilm in the microalgal cells by 16S rDNA sequencing. At least eight different culturable species of bacteria were detected in the biofilm and were evaluated for the presence of quorum-sensing signals in these bacteria. Few studies have considered the implications of this phenomenon as regards the interaction between bacteria and microalgae. Production of C4-AHL and C6-AHL were detected in two species, Pseudomonas sp. and Rhizobium sp., which are present in the bacterial biofilm associated with B. braunii. This type of signal was not detected in the planktonic bacteria isolated from the water. We also noted that the bacterium, Rhizobium sp., acted as a probiotic bacterium and significantly encouraged the growth of B. braunii. A direct application of these beneficial bacteria associated with B. braunii could be, to use them like inoculants for large-scale microalgal cultures. They could optimize biomass production by enhancing growth, particularly in this microalga that has a low growth rate.     

Effect of culture media and growth phase on the morphology of lactobacilli and on their ability to adhere to epithelial cells

Previous studies have demonstrated that the ability of lactobacilli to attach to and colonize uroepithelial surfaces is an important characteristic that enhances interference against uropathogenic bacteria. This adherence capacity was found to vary amongst lactobacillus strains and with the type of growth medium used to culture the organisms. The present study was undertaken to examine further the effect of culture media and growth phase on lactobacillus adherence to uroepithelial cells in vitro. In addition, a freeze substitution technique was developed to examine the morphology of strainsLactobacillus casei ssrhamnosus RC-17,L. casei GR-1, andL. acidophilus T-13 in relation to growth conditions and adhesion. A growth curve was plotted for strain GR-1, and adherence was found to be lowest for bacteria in early log phase (39 bacteria per uroepithelial cell) and highest in stationary phase (59 bacteria per uroepithelial cell). Strains RC-17 and GR-1 attached in high numbers to uroepithelial cells, whereas T-13 was poorly adherent. The latter formed a long, relatively dense, fibrous capsule after growth in brain heart infusion yeast extract agar, unlike strains GR-1 and RC-17, which formed a short, tightly bound, electron-dense capsule which surrounded the cells in a radial fashion. Growth of RC-17 in batch cultures of human urine, with and without addition of carbohydrates, resulted in formation of an irregular, fibrous extracellular matrix. These experiments illustrate that growth phase and culture conditions affect the extracellular structure of lactobacilli and also affect the adherence capacity of these bacteria. Structural changes mediated by availability of nutrients may partly explain why lactobacilli vary between species and between hosts in their colonization of the urogenital tract.     

具有优良抑菌特性乳酸菌的筛选鉴定及活性物质检测

【背景】有益性乳酸菌在人体和动物体内分布极为广泛,是维持胃肠道菌群平衡、提高机体免疫力的主力军。近年来,为了解决禁用抗生素而导致动物发病率不断增高的问题,分析和研究乳酸菌及其所产活性物质的益生特性并开发新型饲料添加剂成为一个重要手段。【目的】本实验旨在从土壤中分离筛选出具有优良抑菌特性的乳酸菌,并对其所产活性物质的特性进行分析评价。【方法】采用溴甲酚紫平板法筛选并结合抑菌能力检测,得到2株具有优良抑菌特性的产酸菌株,分别命名为H-3和H-4。经形态学鉴定及16S rRNA基因序列测定后,对2株菌分别进行生长曲线和产酸量检测;通过排除酸处理、蛋白酶处理和热处理的方法分析2株菌所产抑菌物质的有效成分。【结果】H-3和H-4菌株经初步鉴定为乳酸片球菌(Pediococcus acidilactici),2株菌均具有良好的生长性能及产酸性能。菌株发酵上清液对大肠杆菌(Escherichia coli)、金黄色葡萄球菌(Staphylococcus aureus)、猪霍乱沙门氏菌(Salmonella choleraesuis)、福氏志贺氏菌(Shigella flexneri)均表现出明显的抑...     

Isolation and Characterization of Halotolerant Alkaliphilic Methanotrophic Bacteria from Tuva Soda Lakes

Two strains (5Z and 20Z) of halotolerant alkaliphilic obligate methanotrophic bacteria were first isolated from moderately saline soda lakes in Tuva (Central Asia). The strains grow fastest at pH 9.0–9.5 and much more slowly at pH 7.0. No growth occurred at pH ≤ 6.8. They require NaHCO₃ or NaCl for growth in alkaline medium. Gram-negative, motile rods with ordered cup-shaped cell wall structures and Type I intracytoplasmic membranes assimilate methane and methanol via the ribulose monophosphate pathway. The G + C content of strains 5Z and 20Z are 47.6 and 47.9 mol%, respectively. Based on their alkaliphilic physiology, both strains were referred to as Methylobacter alcaliphilus sp. nov. The changes in cell phospholipids, fatty acids, and amino acids have been observed upon varying salinity and pH of the medium, thus suggesting structure-function osmoadaptation of the strains studied. Whole-cell experiments revealed the salt- and pH-dependence of CH₄ oxidation and assimilation rates. Cell motility was also Na⁺ dependent and sensitive to some energy uncouplers and ionophores. Received: 7 March 1997 / Accepted: 14 April 1997     

Psychrotrophic amylolytic bacteria from deep sea sediment of Prydz Bay, Antarctic: diversity and characterization of amylases

Seventeen psychrotrophic bacteria with cold-adaptive amylolytic, lipolytic or proteolytic activity were isolated from deep sea sediment of Prydz Bay, Antarctic. They were affiliated with γ-Proteobacteria (12 strains) and gram-positive bacteria (5 strains) as determined by 16S rDNA sequencing. The amylase-producing strains belonged to genus Pseudomonas, Rhodococcus, and Nocardiopsis. Two Pseudomonas strains, 7193 and 7197, which showed highest amylolytic activity were chosen for further study. The optimal temperatures for their growth and amylase-producing were between 15 and 20°C. Both of the purified amylases showed highest activity at 40°C and pH 9.0, and retained 50% activity at 5°C. The SDS-PAGE and zymogram activity staining showed that the molecular mass of strain 7193 and 7197 amylases were about 60 and 50 kDa respectively. The Pseudomonas sp. 7193 amylase hydrolyzed soluble starch into glucose, maltose, maltotriose, and maltotetraose, indicating that it had both activities of α-amylase and glucoamylase. The product hydrolyzed by Pseudomonas sp. 7197 amylase was meltotetraose.