苹果渣乙醇提取物抗菌活性及防腐作用研究

为提高苹果渣资源利用率,探究苹果渣乙醇提取物的抗菌活性和防腐性能,该文采用微波辅助提取法制取苹果渣乙醇提取物,用抑菌圈实验测定其抗菌活性,并研究了其防腐作用。结果表明:(1)苹果渣乙醇提取物对酵母菌抑制作用不明显(抑菌圈直径<1 mm),对金黄色葡萄球菌和大肠杆菌的抑菌作用较明显(抑菌圈直径为6～9 mm),最佳抑菌浓度为4.0 g·L^-1。(2)pH值和盐浓度对其抑菌效果有影响,pH值为6～7,盐浓度为5.0 g·L^-1,抑菌效果最好。(3)对百香果有较好的保鲜防腐效果,最佳使用浓度为0.2%。在该浓度下贮藏后的百香果腐烂率为6.7%(对照组为67%),失重率为5.5%(对照组为36.3%),可溶性固形物、总酸含量均与贮藏前差异不显著(P> 0.05)(对照组P< 0.05),且果实较饱满,硬度较高,鲜艳有光泽,酸甜适中。综上所述,苹果渣乙醇提取物对大肠杆菌和金黄色葡萄球菌具有良好的抑制作用,对百香果的保鲜防腐效果佳,可应用到天然食品的保鲜防腐。     

Gastrodia anti-fungal protein from the orchid Gastrodia elata confers disease resistance to root pathogens in transgenic tobacco

Diseases of agricultural crops are caused by pathogens from several higher-order phylogenetic lineages including fungi, straminipila, eubacteria, and metazoa. These pathogens are commonly managed with pesticides due to the lack of broad-spectrum host resistance. Gastrodia anti-fungal protein (GAFP; gastrodianin) may provide a level of broad-spectrum resistance due to its documented anti-fungal activity in vitro and structural similarity to insecticidal lectins. We transformed tobacco (Nicotiana tabacum cv. Wisconsin 38) with GAFP-1 and challenged transformants with agriculturally important plant pathogens from several higher-order lineages including Rhizoctonia solani (fungus), Phytophthora nicotianae (straminipile), Ralstonia solanacearum (eubacterium), and Meloidogyne incognita (metazoan). Quantitative real-time PCR and western blotting analysis indicated that GAFP-1 was transcribed and translated in transgenic lines. When challenged by R. solani and P. nicotianae, GAFP-1 expressing lines had reduced symptom development and improved plant vigor compared to non-transformed and empty vector control lines. These lines also exhibited reduced root galling when challenged by M. incognita. Against R. solanacearum expression of GAFP-1 neither conferred resistance, nor exacerbated disease development. These results indicate that heterologous expression of GAFP-1 can confer enhanced resistance to a diverse set of plant pathogens and may be a good candidate gene for the development of transgenic, root-disease-resistant crops.     

Expression and purification of <Emphasis Type="Italic">Zantedeschia aethiopica</Emphasis> agglutinin in <Emphasis Type="Italic">Escherichia </Emphasis><Emphasis Type="Italic">coli</Emphasis>

Recombinant Zantedeschia aethiopica agglutinin (ZAA) was expressed in Escherichia coli as N-terminal His-tagged fusion. After induction with isopropylthio-β-d-galactoside (IPTG), the recombinant ZAA was purified by metal-affinity chromatography. The purified ZAA protein was applied in anti-fungal assay and the result showed that recombinant ZAA had anti-fungal activity towards leaf mold (Fulvia fulva), one of the most serious phytopathogenic fungi causing significant yield loss of crops. This study suggests that ZAA could be an effective candidate in genetic engineering of plants for the control of leaf mold.     

The promoter of an antifungal protein gene from Gastrodia elata confers tissue -specific and fungus-inducible expression patterns and responds to both salicylic acid and jasmonic acid

Gastrodia antifungal proteins (GAFPs) are a group of mannose-binding lectins purified from Gastrodia elata that show strong resistance against a wide spectrum of fungi. The GAFP-2 promoter was analyzed for its ability to control the expression of the reporter gene, -glucuronidase (GUS) in transgenic tobacco plants. The GUS assays revealed that the GAFP-2 promoter is expressed in a tissue-specific manner, which mainly expressed in the vascular cells. The highest GUS activity was observed in roots, followed by stems. GAFP-2-GUS expression was strongly induced by the fungus Trichoderma viride and by the plant stress regulators, salicylic acid and jasmonic acid in the stably transformed tobacco plants. The –537 region of the GAFP-2 promoter was sufficient for its tissue-specific and inducible expression of the promoter.Communicated by H.S. Judelson     

Production and characterization of polygalacturonase fromGeotrichum candidum

An extracellular polygalacturonase (EC 3.2.1.15) fromGeotrichum candidum ATCC 34614 grown onsauerkraut brine was produced and characterized. Polygalacturonic acid markedly increased the enzyme yield in the brine. The fungus produced the highest activity (290 U/l) in brine with 0.3% (w/v) polygalacturonic acid. The pH and temperature optima of the enzymes were 4.5 to 5.0 and 30°C, respectively. It was stable from pH 4.0 to 5.8 and at 30°C but lost its activity at higher temperatures. The K_m and V_max values for polygalacturonic acid were 4.2 mg/ml and 0.19mm galacturonic acid/min, respectively. The enzyme was not substrate inhibited.     

A novel thermotolerant methylotrophicBacillus sp. and its potential for use in single-cell protein production

A thermotolerant methylotrophicBacillus sp. (KISRI TM1A, NCIMB 40040), isolated from the Kuwaiti environment and belonging to the group II spore-forming, bacilli, could not be correlated with any knownBacillus sp. It may, therefore, be a new species. It grew at temperatures from 37° to 58°C from pH 6.5 to 9.0 and on methanol up to 40 g l^–1. It grew well in a chemostat. Its biomass yield coefficient was improved by about 30% by optimization of medium and growth conditions, reaching a maximum of 0.44g g^–1 at 45°C pH 6.8 to 7.0, dilution rate 0.25 h^–1 with methanol at 10 g l^–1. Average crude protein and amino acid content were 84% and 60%, respectively, and maximum productivity attained under laboratory conditions was 5.06 g l^–1h^–1. It was concluded that this strain has good potential for use in single-cell protein production.     

A trypsin inhibitor from <Emphasis Type="Italic">Cassia obtusifolia</Emphasis> seeds: isolation,characterization and activity against <Emphasis Type="Italic">Pieris rapae</Emphasis>

A trypsin inhibitor was isolated from Cassia obtusifolia by ammonium sulfate precipitation, Sepharose 4B-trypsin affinity and Sephadex G-75 chromatography. The inhibitor consisted of a single polypeptide chain with a molecular mass of 19, 812.55 Da. It was stable from pH 2 to 12 for 24 h, whereas it was unstable either above 70°C for 10 min or under reduced conditions. The inhibitor, which inhibited trypsin activity with an apparent Ki of 0.3 μM, had one reactive site involving a lysine residue. The native inhibitor was resistant to pepsin digestion, whereas the heated inhibitor produced 40% degree of susceptibility. The disulfide linkage and lysine residue were important in maintaining its conformation. Partial amino acid sequence of the purified protein showed a high degree of homology with various members of the Kunitz inhibitor family. Moreover, the inhibitor showed significant inhibitory activity against trypsin-like proteases present in the larval midgut on Pieris rapae and could suppress the growth of larvae.     

Purification and properties of the NADP-dependent glutamate dehydrogenase from Dictyostelium discoideum

Summary NADP-dependent glutamate dehydrogenase from Dictyostelium discoideum was purified 9300 fold with a yield of 4.6%. The enzyme is a hexamer of apparent molecular weight 294 kDa on Sephacryl S400 and a subunit molecular weight of 52 kDa as determined by SDS gel electrophoresis. The apparent K_mS for -ketoglutarate, NADPH and NH _inf4 ^sup+ are 1.2 mM, 9.7 µM and 2.2 mM respectively, and the purified enzyme has a broad pH optimum with a peak at pH 7.75. GTP has a slight stimulatory effect (22% at 83 µM) as does ADP (11% at 1 mM), and AMP is slightly inhibitory (9% at 1 mM) whereas adenosine, ATP and cAMP have little or no effect. Neither the Zn²⁺ chelating compound 1,10-phenanthroline nor EDTA have any effect on the enzyme while p-hydroxymercuribenzoic acid inhibits enzyme activity (50% at 80 µM) yet N-ethylmaleimide does not.In addition, the NADP-GDH activity varies little during the various stages of morphogenesis.Abbreviations EDTA Ethylenediamine Tetraacetic Acid - Tris Tris(hydroxymethyl)aminomethane - Bis-tris bis(2-hydroxyethyl)imino-tris(hydroxymethyl)methane - TRITON X-100 iso-octylphenoxypoly-ethoxyethanol - pHMB p-Hydroxymercuribenzoic acid     

Purification and characterization of a thermostable and acid-stable phytase from Pichia anomala

Phytase of Pichia anomala was purified to near homogeneity by a two-step process of acetone precipitation followed by anion exchange chromatography using DEAE-Sephadex. The enzyme had a molecular weight of 64 kDa. It was optimally active at 60 °C and pH 4.0. This enzyme was found to be highly thermostable and acid-stable, with a half life of 7 and 8 days at 60 °C and pH 4.0 respectively. At 80 °C, the half life of phytase could be increased from 5 to 30 min by the addition of materials such as sucrose, lactose and arabinose (10% w/v). The enzyme exhibited a broad substrate specificity, since it acted on p-nitrophenyl phosphate, ATP, ADP, glucose-6-phosphate besides phytic acid. The K _m value for phytic acid was 0.20 mM and V _max was 6.34 mol/mg protein/min. There was no requirement of metal ions for activity. SDS was observed to be highly inhibitory to phytase activity. Sodium azide, DTT, -mercaptoethanol, EDTA, toluene, glycerol, PMSF, iodo-acetate and N-bromosuccinimide did not show inhibitory activity. The enzyme was inhibited by 2,3-butanedione, indicating the involvement of arginine residues in catalysis. Phytase activity was not inhibited in the presence of inorganic phosphate upto 10 mM. The shelf life of the enzyme was 6 months at 4 °C and there was no loss in the activity on lyophilization. Very few studies have been done on purification of yeast phytases. This is the first report on purification and characterization of phytase from P. anomala. The enzyme is unique in being thermostable, acid-stable, exhibiting broad substrate specificity and in not requiring metal ions for its activity. The yeast biomass containing phytase appears to be suitable for supplementing animal feeds to improve the availability of phosphorus from phytates.     

Citric acid production from sucrose using a recombinant strain of the yeast Yarrowia lipolytica

The yeast Yarrowia lipolytica is able to secrete high amounts of several organic acids under conditions of growth limitation and carbon source excess. Here we report the production of citric acid (CA) in a fed-batch cultivation process on sucrose using the recombinant Y. lipolytica strain H222-S4(p67ICL1) T5, harbouring the invertase encoding ScSUC2 gene of Saccharomyces cerevisiae under the inducible XPR2 promoter control and multiple ICL1 copies (10–15). The pH-dependent expression of invertase was low at pH 5.0 and was identified as limiting factor of the CA-production bioprocess. The invertase expression was sufficiently enhanced at pH 6.0–6.8 and resulted in production of 127–140 g l⁻¹ CA with a yield Y _CA of 0.75–0.82 g g⁻¹, whereas at pH 5.0, 87 g l ⁻¹ with a yield Y _CA of 0.51 gg⁻¹ were produced. The CA-productivity Q _CA increased from 0.40 g l ⁻¹ h⁻¹ at pH 5.0 up to 0.73 g l ⁻¹ h⁻¹ at pH 6.8. Accumulation of glucose and fructose at high invertase expression level at pH 6.8 indicated a limitation of CA production by sugar uptake. The strain H222-S4(p67ICL1) T5 also exhibited a gene–dose-dependent high isocitrate lyase expression resulting in strong reduction (<5%) of isocitric acid, a by-product during CA production.     

Selection and characterization of mannanase-producing bacteria useful for the formation of prebiotic manno-oligosaccharides from copra meal

In order to select bacterial strains effectively secreting mannanase activity for the production of prebiotic mannooligosaccharides, a two-step screening procedure was performed. Enriched cultures from isolation medium containing copra meal were primary screened on an isolation agar medium containing 1% locust bean gum (LBG), which resulted in 48 mannanase-producing bacterial isolates with significant clearing zones on the mannan-containing agar. However, only nine isolates showed appreciable mannanase activities against copra meal in their culture supernatants (0.054–0.185 U/mg of protein) as determined in a standard assay based on the detection of reducing sugars released from this substrate. The isolates CW2-3 and ST1-1 displayed the highest activity against LBG and copra meal, respectively. Copra mannan hydrolysates that were obtained by using crude mannanase from these nine isolates were further used for a secondary screening towards a growth-enhancing activity on Lactobacillus reuteri and inhibitory activity against Escherichia coli as well as Salmonella Enteritidis, resulting in 0.09–2.15 log CFU/ml enhancing activity and low inhibitory activity of 0.46–1.78 log CFU/ml as well as 0.37–1.72 log CFU/ml, respectively. The hydrolysate of CW2-3 mannanase showed the highest enhancing activity of 2.15 log CFU/ml while isolate ST1-1 was most effective with respect to growth inhibition against E. coli E010 and S. Enteritidis S003 with 0.76 and 1.61 log CFU/ml, respectively. Based on morphological, physical, biochemical and genetics properties, isolates CW2-3 and ST1-1 were identified as Klebsiella oxytoca and Acinetobacter sp., respectively. Crude mannanase activity from these two strains was characterized preliminarily. The pH optima of mannanase activity from Klebsiella oxytoca CW2-3 and Acinetobacter sp. ST1-1 were 7 and 6, respectively. The enzymes were stable at 4°C over a pH range of 3–6 and 3–10, respectively.     

Molecular cloning and characterization of a glycosyl hydrolase family 9 cellulase distributed throughout the digestive tract of the cricket Teleogryllus emma

A novel endogenous β-1,4-endoglucanase (EG) gene belonging to the glycosyl hydrolase family 9 (GHF 9) that is distributed throughout the digestive tract of the cricket Teleogryllus emma was cloned and characterized. This gene, named TeEG-I, consists of eight exons encoding 453 amino acid residues and exists as a single copy in the T. emma genome. TeEG-I possesses all the features, including signature motifs and catalytic domains, of GHF 9 members, sharing high levels of identity with the termite, Mastotermes darwiniensis (64% protein sequence identity), and the cockroach, Panesthia cribrata (62%), GHF 9 cellulases. Recombinant TeEG-I, which is expressed as a 47-kDa polypeptide in baculovirus-infected insect Sf9 cells, showed an optimal pH and temperature of pH 5.0 and 40 °C. The K_m and V_max values for digestion of carboxymethyl cellulose were 5.4 mg/ml and 3118.4 U/mg, respectively. Northern and Western blot analyses revealed that TeEG-I is present throughout the digestive tract, which correlated with the TeEG-I distribution and cellulase activity in the digestive tract as assayed by immunofluorescence staining and enzyme activity assay, respectively. These results indicate that TeEG-I is distributed throughout the entire digestive tract of T. emma, suggesting a functional role of endogenous TeEG-I in a sequential cellulose digestion process throughout the T. emma digestion tract.     

野鸦椿种子内源抑制物活性初探

以野鸦椿(Euscaphis japonica)种壳和胚为材料,甲醇浸提得到种壳浸提液和胚浸提液,配制浸提液浓度梯度为原浸提液浓度的10%、20%、30%、40%,研究不同浓度的种壳和胚浸提液对白菜、小麦、绿豆种子底物酶活性、发芽率、幼苗根长和苗高的影响,萃取和分离种壳和胚甲醇浸提液中的内源抑制物质,探讨野鸦椿种子内源抑制物质的活性与成分。结果表明:随着种壳和胚浸提液浓度的增加,白菜种子酸性磷酸酶活性和发芽率均显著降低(P0.05),表现为抑制作用递增,种壳的抑制作用小于胚,而幼苗的根长和苗高则表现为低促高抑,在10%浸提液处理下根长和苗高达最大值,种壳的促进效果弱于胚;小麦种子淀粉酶活性及幼苗的根长和苗高递减(P0.05),表现为抑制作用递增,而发芽率则在浓度≤20%时差异不明显(P0.05),浓度为30%时显著降低(P0.05),40%时发芽率为0,种壳的抑制作用大于胚;绿豆种子蛋白酶活性、发芽率、幼苗根长和苗高均在浸提液浓度≥20%时显著下降(P0.05),且种壳的作用效果小于胚。种子内源抑制物萃取及分离表明,外壳中含酚酸类较胚多,含碱类较胚少。综上认为,野鸦椿种壳和胚中均含有较高活性的内源抑制物,但性质、成分及含量存在差异,外壳内源抑制物主要作用对象为淀粉类物质,胚乳内源抑制物主要作用于油脂类和蛋白类物质。     

Purification and characterization of a new type of serine carboxypeptidase from<Emphasis Type="Italic"> Monascus purpureus</Emphasis>

Carboxypeptidase produced by Monascus purpureus IFO 4478 was purified to homogeneity. The purified enzyme is a heterodimer with a molecular mass of 132 kDa and consists of two subunits of 64 and 67 kDa. It is an acidic glycoprotein with an isoelectric point of 3.67 and 17.0% carbohydrate content. The optimum pH and temperature were 4.0 and 40 °C, respectively. The enzyme was stable between pH 2.0 and 8.0 at 37 °C for 1 h, and up to 50 °C at pH 5.0 for 15 min. The enzyme was strongly inhibited by piperastatin A, diisopropylfluoride phosphate (DFP), phenylmethylsulfonylfluoride (PMSF), and chymostatin, suggesting that it is a chymotrypsin-like serine carboxypeptidase. Monascus purpureus carboxypeptidase was also strongly inhibited by p-chloromercuribenzoic acid (PCMB) but not by ethylenediaminetetraacetic acid (EDTA) and 1,10-phenanthroline, indicating that it requires cysteine residue but not metal ions for activity. Benzyloxycarbonyl-l-tyrosyl-l-glutamic acid (Z-Tyr-Glu), among the substrates tested, was the best substrate of the enzyme. The K_m, V_max, K_cat, and K_cat/K_m values of the enzyme for Z-Tyr-Glu at pH 4.0 and 37 °C were 0.86 mM, 0.917 mM min^–1, 291 s^–1, and 339 mM^–1 s^–1, respectively.     

Activity of plasma membrane H+-ATPase and expression of PMA1 and PMA2 genes in Saccharomyces cerevisiae cells grown at optimal and low pH

Cells of Saccharomyces cerevisiae grown in media with an initial pH of 2.5–6.0, acidified with a strong acid (HCl), exhibited the highest plasma membrane H⁺-ATPase-specific activity at an initial pH of 6.0. At a lower pH (above pH 2.5) ATPase activity (62–83% of the maximum level) still allowed optimal growth. At pH 2.5, ATPase activity was about 30% of the maximum value and growth was impaired. Quantitative immunoassays showed that the content of ATPase protein in the plasma membrane was similar across the entire pH range tested, although slightly lower at pH 2.5. The decrease of plasma membrane ATPase activity in cells grown at low pH was partially accounted for by its in vitro stability, which decreased sharply at pH below 5.5, although the reduction of activity was far below the values expected from in vitro measurements. Yeast growth under acid stress changed the pattern of gene expression observed at optimal pH. The level of mRNA from the essential plasma-membrane-ATPase-encoding gene PMA1 was reduced by 50% in cells grown at pH 2.5 as compared with cells grown at the optimal pH 5.0, although the content of ATPase in the plasma membrane was only modestly reduced. As observed in response to other kinds of stress, the PMA2 promoter at the optimal pH was up to eightfold more efficient in cells grown at pH 2.5, although it remained several hundred times less efficient than that of the PMA1 gene. Received: 22 April 1996 / Accepted: 6 August 1996     

Characterization and role of a metalloprotease induced by chitin in <Emphasis Type="Italic">Serratia</Emphasis> sp. KCK

A metalloprotease induced by chitin in a new chitinolytic bacterium Serratia sp. Strain KCK was purified and characterized. Compared with other Serratia enzymes, it exhibited a rather broad pH activity range (pH 5.0–8.0), and thermostability. The cognate ORF, mpr, was cloned and expressed. Its deduced amino acid sequence showed high similarity to those of bacterial zinc-binding metalloproteases and a well-conserved serralysin family motif. Pretreatment of chitin with the Mpr protein promoted chitin degradation by chitinase A, which suggests that Mpr participates in, and facilitates, chitin degradation by this microorganism.     

The pH profile for acid-induced elongation of coleoptile and epicotyl sections is consistent with the acid-growth theory

The acid-growth theory predicts that a solution with a pH identical to that of the apoplast of auxintreated tissues (4.5–5.0) should induce elongation at a rate comparable to that of auxin. Different pH profiles for elongation have been obtained, however, depending on the type of pretreatment between harvest of the sections and the start of the pH-incubations. To determine the acid sensitivity under in vivo conditions, oat (Avena sativa L.) coleoptile, maize (Zea mays L.) coleoptile and pea (Pisum sativum L.) epicotyl sections were abraded so that exogenous buffers could penetrate the free space, and placed in buffered solutions of pH 3.5–6.5 without any preincubation. The extension, without auxin, was measured over the first 3 h. Experiments conducted in three laboratories produced similar results. For all three species, sections placed in buffer without pretreatment elongated at least threefold faster at pH 5.0 than at 6.0 or 6.5, and the rate elongation at pH 5.0 was comparable to that induced by auxin. Pretreatment of abraded sections with pH-6.5 buffer or distilled water adjusted to pH 6.5 or above gave similar results. We conclude that the pH present in the apoplast of auxin-treated coleoptile and stems is sufficiently low to account for the initial growth response to auxin.Abbreviations FS free space - IAA indole-3-acetic acid This research was supported by a grant from the National Adonautics and space Administration (NASA), NAGW 1394 to R.E.C., NASA grant NAGW-297 to M.L.E., and NASA grant NAG 1849 to D.L.R.     

Purification and properties of alanine racemase from crayfish Procambarus clarkii

Fresh water crayfish Procambarus clarkii is known to accumulate d-alanine remarkably in muscle after seawater acclimation, accompanied by an increase in alanine racemase activity. We have purified alanine racemase from crayfish muscle to homogeneity. The enzyme is a monomeric protein with a molecular mass of 58 kDa. It is highly specific to alanine and does not racemize l-serine, l-aspartate, l-glutamate, l-valine and l-arginine. The enzyme shows the highest activity at pH 9.0 in the conversion of l- to d-alanine and at pH 8.5 in the reverse conversion. Properties such as amino acid sequence, quaternary structure, pyridoxal 5′-phosphate (PLP)-dependency, pH-dependency and kinetic parameters seem to be distinct from those of the microbial alanine racemases. Various salts including NaCl at concentrations around seawater level were potently inhibitory for the activity in both of l- to -d and d- to -l direction.     

An efficient plant regeneration system for Mucuna pruriens L. (DC.) using cotyledonary node explants

Summary The purpose of this study was to develop an efficient micropropagation system for Mucuna pruriens, an important medicinal plant in India. A range of cytokinins was investigated for multiple shoot regeneration with cotyledonary node explants from 7-d-old aseptic seedlings. Of all the cytokinins, 6-benzyladenine (BA), kinetin (KIN) and 2-isopentenyl adenine (2-iP) tested in Murashige and Skoog medium (MS), BA was the most effective and 5.0 μM was found to be optimum for inducing maximum shoots. Medium types, medium strength and pH were also investigated for induction and proliferation of shoots. The highest efficiency of shoot proliferation was observed in 5.0 μM BA and 0.5 μM α-naphthalene acetic acid (NAA) in half-strength MS medium at pH 5.8. The best condition for rooting was half-strength MS medium solidified with agar and with 2.0 μM indole-3-butyric acid (IBA). After rooting, the plantlets were transferred to plastic pots filled with sterile soilrite where 90% grew and all exhibited normal development.     

Characterization of salt-tolerant glutaminase from Stenotrophomonas maltophilia NYW-81 and its application in Japanese soy sauce fermentation

Glutaminase from Stenotrophomonas maltophilia NYW-81 was purified to homogeneity with a final specific activity of 325 U/mg. The molecular mass of the native enzyme was estimated to be 41 kDa by gel filtration. A subunit molecular mass of 36 kDa was measured with SDS-PAGE, thus indicating that the native enzyme is a monomer. The N-terminal amino acid sequence of the enzyme was determined to be KEAETQQKLANVVILATGGTIA. Besides l-glutamine, which was hydrolyzed with the highest specific activity (100%), l-asparagine (74%), d-glutamine (75%), and d-asparagine (67%) were also hydrolyzed. The pH and temperature optima were 9.0 and approximately 60°C, respectively. The enzyme was most stable at pH 8.0 and was highly stable (relative activities from 60 to 80%) over a wide pH range (5.0–10.0). About 70 and 50% of enzyme activity was retained even after treatment at 60 and 70°C, respectively, for 10 min. The enzyme showed high activity (86% of the original activity) in the presence of 16% NaCl. These results indicate that this enzyme has a higher salt tolerance and thermal stability than bacterial glutaminases that have been reported so far. In a model reaction of Japanese soy sauce fermentation, glutaminase from S. maltophilia exhibited high ability in the production of glutamic acid compared with glutaminases from Aspergillus oryzae, Escherichia coli, Pseudomonas citronellolis, and Micrococcus luteus, indicating that this enzyme is suitable for application in Japanese soy sauce fermentation.