Enhanced Growth and Activity of a Biocontrol Bacterium Genetically Engineered To Utilize Salicylate

Plasmid NAH7 was transferred from Pseudomonas putida PpG7 to P. putida R20 [R20(NAH7)], an antagonist of Pythium ultimum. The plasmid did not affect growth or survival of R20(NAH7) and was stably maintained under nonselective conditions in broth and soil and on sugar beet seeds. Plasmid NAH7 conferred to R20(NAH7) the ability to utilize salicylate in culture, agricultural field soil, and on sugar beet seeds. The metabolic activity of R20(NAH7), but not the wild-type R20, was greatly increased in soil by amendment with salicylate (250 μg/g) as measured by induced respiration. Population densities of R20(NAH7) were also enhanced in salicylate-amended soil, increasing from approximately 1 × 10⁵ CFU/g to approximately 3 × 10⁸ CFU/g after 35 h of incubation. In contrast, population densities of R20(NAH7) in nonamended soil were approximately 3 × 10⁶ CFU/g of soil after 35 h of incubation. The concentration of salicylate in soil affected the rate and extent of population increase by R20(NAH7). At 50 to 250 μg of salicylate per g of soil, population densities of R20(NAH7) increased to approximately 10⁸ CFU/g of soil by 48 h of incubation, with the fastest increase at 100 μg/g. A lag phase of approximately 24 h occurred before the population density increased in the presence of salicylate at 500 μg/g; at 1,000 μg/g, population densities of R20(NAH7) declined over the time period of the experiment. Population densities of R20(NAH7) on sugar beet seeds in soils amended with 100 μg of salicylate per g were not increased while ample carbon was present in the spermosphere. However, after carbon from the seed had been utilized, population densities of R20(NAH7) decreased significantly less (P = 0.005) on sugar beet seeds in soil amended with salicylate than in nonamended soil.     

A Highly Active Alkaline Phosphatase from the Marine Bacterium Cobetia

An alkaline phosphatase with unusually high specific activity has been found to be produced by the marine bacterium Cobetia marina (strain KMM MC-296) isolated from coelomic liquid of the mussel Crenomytilus grayanus. The properties of enzyme, such as a very high specific activity (15000 DE U/1 mg of protein), no activation with divalent cations, resistance to high concentrations of inorganic phosphorus, as well as substrate specificity toward 5′ nucleotides suggest that the enzyme falls in an intermediate position between unspecific alkaline phosphatases (EC 3.1.3.1) and 5′ nucleotidases (EC 3.1.3.5).     

Effects of Alkaline Phosphatase Activity on Nucleotide Measurements in Aquatic Microbial Communities

Alkaline phosphatase (APase) activity was detected in aquatic microbial assemblages from the subtropics to Antarctica. The occurrence of APase in environmental nucleotide extracts was shown to significantly affect the measured concentrations of cellular nucleotides (adenosine triphosphate, adenosine diphosphate, adenosine monophosphate, guanosine triphosphate, uridine triphosphate, and cytidine triphosphate), adenylate energy charge, and guanosine triphosphate/adenosine triphosphate ratios, when conventional methods of nucleotide extraction were employed. Under the reaction conditions specified in this report, the initial rate of hydrolysis of adenosine triphosphate was directly proportional to the activity of APase in the sample extracts and consequently can be used as a sensitive measure of APase activity. A method was devised for obtaining reliable nucleotide measurements in naturally occurring microbial populations containing elevated levels of APase activity. The metabolic significance of APase activity in microbial cells is discussed, and it is concluded that the occurrence and regulation of APase in nature is dependent upon microscale inorganic phosphate limitation of the autochthonous microbial communities.     

Factors Affecting the Activity and Stability of Alkaline Phosphatase in a Marine Pseudomonad

Conditions optimum for the assay of alkaline phosphatase of marine pseudomonad B-16 (ATCC 19855) and for maintaining the activity of the enzyme have been determined. The pH for optimal activity of the cell-bound enzyme was 9.0, whereas that for the enzyme after its release from the cells exceeded 9.4. Release was effected by first washing the cells in 0.5 M NaCl and then suspending them in 0.5 M sucrose. In the absence of salts, the activity of the cell-bound enzyme decreased rapidly at 25 C and less rapidly at 4 C. This loss of activity could be arrested but not restored by adding Mg(2+). In the presence of Na(+), activity of the cell-bound enzyme dropped to about 50% of that prevailing initially, but in this case adding Mg(2+) restored enzyme activity completely. The activity of the enzyme after its release from the cells into 0.5 M sucrose was approximately 50% of that of the equivalent amount of enzyme in the original cells. This activity was relatively stable at both 25 and 4 C. Adding Mg(2+) to the released enzyme restored its activity to that of the cell-bound form. The synthesis of alkaline phosphatase by the cells was not affected by adding 50 mM inorganic phosphate to the growth medium. The K(m) of the released enzyme for p-nitrophenyl phosphate was found to be 6.1 x 10(-5) M.     

A Novel Bifunctional Hybrid with Marine Bacterium Alkaline Phosphatase and Far Eastern Holothurian Mannan-Binding Lectin Activities

A fusion between the genes encoding the marine bacterium Cobetia marina alkaline phosphatase (CmAP) and Far Eastern holothurian Apostichopus japonicus mannan-binding C-type lectin (MBL-AJ) was performed. Expression of the fusion gene in E. coli cells resulted in yield of soluble recombinant chimeric protein CmAP/MBL-AJ with the high alkaline phosphatase activity and specificity of the lectin MBL-AJ. The bifunctional hybrid CmAP/MBL-AJ was produced as a dimer with the molecular mass of 200 kDa. The CmAP/MBL-AJ dimer model showed the two-subunit lectin part that is associated with two molecules of alkaline phosphatase functioning independently from each other. The highly active CmAP label genetically linked to MBL-AJ has advantaged the lectin-binding assay in its sensitivity and time. The double substitution A156N/F159K in the lectin domain of CmAP/MBL-AJ has enhanced its lectin activity by 25±5%. The bifunctional hybrid holothurian''s lectin could be promising tool for developing non-invasive methods for biological markers assessment, particularly for improving the MBL-AJ-based method for early detection of a malignant condition in cervical specimens.     

Detection of Gene Expression in Genetically Engineered Microorganisms and Natural Phytoplankton Populations in the Marine Environment by mRNA Analysis

A simple method that combines guanidinium isothiocyanate RNA extraction and probing with antisense and sense RNA probes is described for analysis of microbial gene expression in planktonic populations. Probing of RNA sample extracts with sense-strand RNA probes was used as a control for nonspecific hybridization or contamination of mRNA with target DNA. This method enabled detection of expression of a plasmid-encoded neomycin phosphotransferase gene (nptII) in as few as 10⁴Vibrio cells per ml in 100 ml of seawater. We have used this method to detect expression of the ribulose-1,5-bisphosphate carboxylase large-subunit gene (rbcL) in Synechococcus cultures and natural phytoplankton populations in the Dry Tortugas, Florida. During a 36-h diel study, rbcL expression of the indigenous phytoplankton was greatest in the day, least at night (1100, 0300, and 0100 h), and variable at dawn or dusk (0700 and 1900 h). These results are the first report of gene expression in natural populations by mRNA isolation and probing. This methodology should be useful for the study of gene expression in microorganisms released into the environment for agricultural or bioremediation purposes and indigenous populations containing highly conserved target gene sequences.     

Anti-Candidal Activity of Genetically Engineered Histatin Variants with Multiple Functional Domains

The human bodily defense system includes a wide variety of innate antimicrobial proteins. Histatins are small molecular weight proteins produced by the human salivary glands that exhibit antifungal and antibacterial activities. While evolutionarily old salivary proteins such as mucins and proline-rich proteins contain large regions of tandem repeats, relatively young proteins like histatins do not contain such repeated domains. Anticipating that domain duplications have a functional advantage, we genetically engineered variants of histatin 3 with one, two, three, or four copies of the functional domain by PCR and splice overlap. The resulting proteins, designated reHst3 1-mer, reHist3 2-mer, reHis3 3-mer and reHist3 4-mer, exhibited molecular weights of 4,062, 5,919, 7,777, and 9,634 Da, respectively. The biological activities of these constructs were evaluated in fungicidal assays toward Candida albicans blastoconidia and germinated cells. The antifungal activities per mole of protein increased concomitantly with the number of functional domains present. This increase, however, was higher than could be anticipated from the molar concentration of functional domains present in the constructs. The demonstrated increase in antifungal activity may provide an evolutionary explanation why such domain multiplication is a frequent event in human salivary proteins.     

Biochemical Localization of Alkaline Phosphatase in the Cell Wall of a Marine Pseudomonad

The various layers of the cell envelope of marine pseudomonad B-16 (ATCC 19855) have been separated from the cells and assayed directly for alkaline phosphatase activity under conditions established previously to be optimum for maintenance of the activity of the enzyme. Under conditions known to lead to the release of the contents of the periplasmic space from the cells, over 90% of the alkaline phosphatase was released into the medium. Neither the loosely bound outer layer nor the outer double-track layer (cell wall membrane) showed significant activity. A small amount of the alkaline phosphatase activity of the cells remained associated with the mureinoplasts when the outer layers of the cell wall were removed. Upon treatment of the mureinoplasts with lysozyme, some alkaline phosphatase was released into the medium and some remained with the protoplasts formed. Cells washed and suspended in 0.5 M NaCl were lysed by treatment with 2% toluene, and 95% of the alkaline phosphatase in the cells was released into the medium. Cells washed and suspended in complete salts solution (0.3 M NaCl, 0.05 M MgSO(4), and 0.01 M KCl) or 0.05 M MgSO(4) appeared intact after treatment with toluene but lost 50 and 10%, respectively, of their alkaline phosphatase. The results suggest that the presence of Mg(2+) in the cell wall is necessary to prevent disruption of the cells by toluene and may also be required to prevent the release of alkaline phosphatase by toluene when disruption of the cells by toluene does not take place.     

Effect of Obesity on Plasma Alkaline Phosphatase Activity in Breast Cancer

Background:Breast cancer is most common cancer in women. Obesity is one of related-risk factor in breast cancer. In obese normal subjects, alkaline phosphatase (ALP) has been studied. However, there is no previous study investigate the association between ALP and obesity in breast cancer and its correlation with other clinical characteristics. Therefore, the objective of present study is to investigate the association between ALP and clinical characteristics in generally and obesity in particularly.Methods:A cross-study 111 new diagnosed breast cancer patients was included. Plasma ALP was measured in different subgroups: patients age <40 vs >40, premenopausal vs postmenopausal, estrogen receptor-positive (ER+) vs estrogen receptor negative (ER-), metastasis vs non-metastasis and obese vs non-obese patients. Results:Significant increasing on plasma ALP were shown between groups of each age, menopausal status, metastasis, and obesity (p< 0.05, p< 0.05, p< 0.01 and p< 0.05) respectively. Positive correlation was observed between plasma ALP and age, menopausal status, metastasis, and obesity (r: 0.616, p< 0.05; r: 0.667, p< 0.01; r: 0.691, p< 0.005; and r: 0.627, p< 0.01). Multiple regression analysis was indicated that ALP can be determined by menopausal status, metastasis, and obesity (β-Coefficient = 0.428, p< 0.01; β-Coefficient = 0.534; p< 0.001; β-coefficient= 0.545; p= 0.005), respectively. Conclusion:Together, the relation between ALP and obesity indicates that ALP could have a role in maturation of preadipocytes of breast cancer patients. Further investigations are needed to confirm that there could be a potential hormonal link between ALP and obesity in breast cancer patients.Key Words: Alkaline phosphatase, Breast cancer, Metastasis, Obesity, Menopausal status     

产低温碱性蛋白酶海洋适冷菌SY的筛选

从连云港海域、港口、远洋捕捞船及鱼市等地采集的海水和各类海鱼、贝类等样品中分离到217株产蛋白酶的细菌,并从中得到1株产低温碱性蛋白酶的海洋适冷细菌—SY。研究表明,该菌株最适生长温度和最适产酶温度均在15℃左右,0℃下仍可生长;具有一定的耐盐性和嗜盐性,无盐条件不能生长,在3%的NaCl盐浓度时,生长达到最高峰;最适生长和最适产酶pH均为8.0;SY菌所产的蛋白酶可能为一种丝氨酸蛋白酶,酶最适作用温度为50℃,最适作用pH为9.0;酶的热稳定性差,50℃保温20min,酶活下降40%。     

海洋细菌QD80低温碱性蛋白酶的基因克隆和性质

对海洋细菌QD80所产低温碱性蛋白酶进行了基因克隆和序列分析,对此酶的性质进行了初步研究.此酶基因开放阅读框架为1377bp,分子量为49.9kD.此序列上游-8bp处为该基因的SD序列,-10区和-35区分别有5′TAGAAT3′和5′TTGACC3′的保守序列.该酶最适pH为9.5,最适反应温度为30℃,在10℃酶活力仍能保持30%以上.该酶对氧化剂H2O2的抗氧化作用明显,浓度达到4gL时酶活仍保留85%.该蛋白酶的低温适应性和抗氧化特性将对其在低温洗涤领域的应用提供广泛的潜在应用价值.     

Effects of Polyethylene Glycol on Bovine Intestine Alkaline Phosphatase Activity and Stability

In this study, we evaluated the effects of polyethylene glycol (PEG) on bovine intestine alkaline phosphatase (BIALP) activity and stability. In the hydrolysis of p-nitrophenylphosphate (pNPP) at pH 9.8 at 20 °C, the k _cat?K _m values of BIALP plus 5–15% w/v free PEG with molecular masses of 1, 2, 6, and 20 kDa (PEG1000, PEG2000, PEG6000, and PEG20000 respectively) were 120–140%, 180–300%, 130–170%, and 110–140% respectively of that of BIALP without free PEG (1.8 μM^?1 s^?1), indicating that activation by PEG2000 was the highest. Unmodified BIALP plus 5% PEG2000 and BIALP pegylated with 2,4-bis(O-methoxypolyethylene glycol)-6-chloro-s-triazine exhibited 1.3-fold higher activity on average than that of BIALP without free PEG under various conditions, including pH 7.0–10.0 and 20–65 °C. The temperatures reducing initial activity by 50% in 30-min incubation of unmodified BIALP plus 5% PEG2000 and pegylated BIALP were 51 and 47 °C respectively, similar to that of BIALP without free PEG (49 °C). These results indicate that the addition of PEG2000 and pegylation increase BIALP activity without affecting its stability, suggesting that they can be used in enzyme immunoassay with BIALP to increase sensitivity and rapidity.     

Extracellular Alkaline Phosphatase in Multicellular Marine Algae and Their Utilization of Glycerophosphate

The production of extracellular alkaline phosphatase by multicellular marine algae in axenic culture has been investigated. The algae studied were five species of Rhodophyta: Asterocytis ramosa, Goniotrichum elegans, Nemalion helminthoides, Polysiphonia urceolata and Rhodosorus marinus; and one species of Phaeophyta: Ecrocarpus confervoides. The extent of enzyme activity varies from one species to another. It also varies with the phosphorus conditions under which the alga is grown. The pattern of glycerophosphate utilization suggests that this type of compound is not taken up directly by the alga but split by the external enzyme before uptake of the phosphate-ion only. The enzyme performs its action outside the organism and appears both associated with the cells and free in the surrounding water. Assays with culture filtrate of Asterocytis and Ectocarpus show that the enzyme is an unspecific phosphomonoesterase with optimum activity far to the alkaline side. It is activated by Zn²⁺.     

Effect of Aluminum Phosphate on Alkaline Phosphatase Activity of Polyurethane Foam Immobilized Cyanobacteria

The impact of insoluble phosphorus such as aluminum and rock phosphate on alkaline phosphatase activity of polyurethane foam immobilized cyanobacteria was assessed. Polyurethane foam immobilized Nodularia recorded the highest alkaline phosphatase activity of 9.04 (m. mol p-nitrophenol released h^–1 mg^–1 protein) in vitro. A higher concentration of aluminum phosphate was recorded a 25% reduction in alkaline phosphatase activity, ammonia content, and available phosphorus in culture filtrate of polyurethane foam immobilized cyanobacteria. In general, immobilized cyanobacteria exhibited a higher alkaline phosphatase activity in rock phosphate than aluminum phosphate.     

Effects of 2,4-Dichlorophenol, a Metabolite of a Genetically Engineered Bacterium, and 2,4-Dichlorophenoxyacetate on Some Microorganism-Mediated Ecological Processes in Soil

A genetically engineered microorganism, Pseudomonas putida PPO301(pRO103), and the plasmidless parent strain, PPO301, were added at approximately 10⁷ CFU/g of soil amended with 500 ppm of 2,4-dichlorophenoxyacetate (2,4-D) (500 μg/g). The degradation of 2,4-D and the accumulation of a single metabolite, identified by gas chromatography-mass spectrophotometry as 2,4-dichlorophenol (2,4-DCP), occurred only in soil inoculated with PPO301(pRO103), wherein 2,4-DCP accumulated to >70 ppm for 5 weeks and the concentration of 2,4-D was reduced to <100 ppm. Coincident with the accumulation of 2,4-DCP was a >400-fold decline in the numbers of fungal propagules and a marked reduction in the rate of CO₂ evolution, whereas 2,4-D did not depress either fungal propagules or respiration of the soil microbiota. 2,4-DCP did not appear to depress the numbers of total heterotrophic, sporeforming, or chitin-utilizing bacteria. In vitro and in situ assays conducted with 2,4-DCP and fungal isolates from the soil demonstrated that 2,4-DCP was toxic to fungal propagules at concentrations below those detected in the soil.     

对硝基苯酚降解菌P3的分离、降解特性及基因工程菌的构建

分离到一株假单胞菌 (Pseudomonassp .)P3 ,该菌能够以对硝基苯酚为唯一碳源和氮源进行生长。在有外加氮源的条件下 ,P3降解对硝基苯酚并在培养液中积累亚硝酸根。P3有比较广泛的底物适应性 ,对多种芳香族化合物都有降解能力。不同金属离子对P3降解对硝基苯酚有不同的作用。葡萄糖的存在对P3降解对硝基苯酚无明显促进作用 ,而微量酵母粉可以大大促进P3对硝基苯酚的降解。以P3为受体菌 ,通过接合转移的手段将甲基对硫磷水解酶基因mpd克隆至P3菌中 ,获得了表达甲基对硫磷水解酶活性的基因工程菌PM ,PM能够以甲基对硫磷为唯一碳源进行生长。工程菌PM具有较高的甲基对硫磷降解活性及稳定性     

Effects of Transport Stress on Serum Alkaline Phosphatase Activity in Beagle Dogs

Here, to determine the effects of transport stress on blood parameters in dogs, we investigated the changes in hematologic and serum chemical parameters in healthy beagle dogs transported from Beijing, China, to Osaka, Japan, to obtain the background data. Only the activity of serum alkaline phosphatase increased clearly upon arrival, a change attributed to transport stress, but the activity gradually reduced afterward. No marked changes in levels of other blood parameters were noted. Our findings here suggest that alkaline phosphatase is a useful tool for studying transport stress.     

Directed Evolution of E. coli Alkaline Phosphatase Towards Higher Catalytic Activity

Directed evolution was used to enhance the catalytic activity of E. coli alkaline phosphatase (EAP). Through two rounds of error-prone PCR and one round of DNA shuffling followed by a rapid, sensitive screening procedure, several improved variants were obtained. Their enzymatic kinetic properties, thermal stabilities and possible mechanism for the improvement were investigated. In 1.0 M Tris buffer, the specific activity of the most active EAP variant S2163 was 1500 units/mg protein, showing it to be 3.6 times more active than the D101S parent enzyme and ～40 times more active than the wild-type EAP. At the same time, the K_m value of the S2163 variant decreased to 1491 μM from the 2384 μM of the D101S. As a result, the k_cat/K_m ratio of this variant showed a 5.8-fold enhancement over that of D101S parent enzyme. Three activating amino acid substitutions, K167R, G180S and S374C, which were located far away from the center of the catalytic pocket, were identified by sequencing the genes encoding evolved enzymes. Possible explanations for the improvement of activity were analyzed.