Amelioration in Growth and Phosphorus Assimilation of Poultry Birds Using Cell-Bound Phytase of Pichia Anomala

Summary Cell-bound phytase of Pichia anomala was produced in glucose–beef extract medium in shake flasks and in a laboratory fermenter at 25 °C for 24 h at 250 rev/min. In the fermenter the biomass production increased and the fermentation time was reduced from 24 to 16 h. Two-week-old broiler chicks were fed with the biomass-supplemented feed [at 100 g/7.5 kg; 50-phytase units/bird/day]. The overall weight gain in the biomass-fed chicks was higher (90.2%) than that of the control group (77.7%). The biomass incorporation in the feed of broiler chicks also resulted in a better phosphorus retention (29% in the control, and 73.68% in the biomass-fed) in the body, consequently an improved growth. There was a decrease in the excretion of phosphorus in the faeces of the chicks fed with phytase-supplemented diet (188.9 mg/g dry matter) as compared to the chicks fed on unsupplemented broiler finisher ration (509.4 mg/g dry matter). This eliminated the need to supplement phosphorus in their diet and also reduced phosphorus pollution. The feed conversion ratio was also lowered for chicks, which were biomass-fed as compared to the control.     

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.     

A cost-effective cane molasses medium for enhanced cell-bound phytase production by Pichia anomala

AIM: Formulation of an inexpensive cane molasses medium for improved cell-bound phytase production by Pichia anomala. METHODS AND RESULTS: Cell-bound phytase production by Pichia anomala was compared in synthetic glucose-beef extract and cane molasses media. The yeast was cultivated in 250 ml flasks containing 50 ml of the medium, inoculated with a 12 h-old inoculum (3 x 10(6) CFU ml(-1)) and incubated at 25 degrees C for 24 h at 250 rev min(-1). Different cultural parameters were optimized in cane molasses medium in batch fermentation. The cell-bound phytase content increased significantly in cane molasses medium (176 U g(-1) dry biomass) when compared with the synthetic medium (100 U g(-1) dry biomass). In fed-batch fermentation, a marked increase in biomass (20 g l(-1)) and the phytase yield (3000 U l(-1)) were recorded in cane molasses medium. The cost of production in cane molasses medium was pound 0.006 per 1000 U, which is much lower when compared with that in synthetic medium (pound 0.25 per 1000 U). CONCLUSIONS: An overall 86.6% enhancement in phytase yield was attained in optimized cane molasses medium using fed-batch fermentation when compared with that in synthetic medium. Furthermore, the production in cane molasses medium is cost-effective. SIGNIFICANCE AND IMPACT OF THE STUDY: Phytase yield was improved in cane molasses when compared with the synthetic medium, and the cost of production was also significantly reduced. This enzyme can find application in the animal feed industry for improving the nutritional status of feed and combating environmental pollution.     

Killer toxin secretion through the cell wall of the yeastPichia anomala

A secreted killer toxin was detected through the cell wall ofPichia anomala cells by ultrastructural immunodetection with a specific monoclonal antibody (MAb KT4). MAb KT4 was successively detected by colloidal gold labeled streptavidin and biotinylated anti-mouse F(ab')₂ antibodies. The antigenic determinants of the toxin were localized throughout the cytoplasm and the cell wall of killer yeast cells. The Lowicryl K4M-immunogold method gave very satisfactory results and showed that the killer toxin was somewhat concentrated in the yeast cell wall layers before being exported into the medium. In agreement with previous reports, the binding of MAb KT4 suggested that theP. anomala killer toxin secretion did not result from a homogeneous diffusion across the yeast cell wall.Abbreviations G15 gold particles of 15 nm - IEM immunoelectron microscopy - IFA immunofluorescence assay - MAb monoclonal antibody - PBS phosphate buffered saline - SAM/F(ab)₂ sheep antibodies anti-mouse F(ab)₂ - SBB Sabouraud buffered broth     

Medium optimization for glucoamylase production by a yeast,Pichia subpelliculosa ABWF-64, in submerged cultivation

An amylolytic yeast strain Pichia subpelliculosawas shown to produce glucoamylase in submerged cultivation. The yeast strain produced the enzyme optimally at 30 °C and pH 5.6 in shake flasks agitated at 200 rev min^–1 in the optimized glucoamylase production medium containing 1% starch, 0.2% yeast extract, 0.4% K₂HPO₄, 0.035% NaCl and 0.1% MgCl₂. Maximum enzyme production was attained during early growth of 11 h in shake flasks, and 6 h in a laboratory fermenter. By optimizing media components and cultivation parameters, a 15-fold increase in glucoamylase secretion was achieved.     

Phytase production by fermentation of recombinant Pichia pastoris in monosodium glutamate wastewater

A novel method is proposed to produce both phytase and single-cell protein in recombinant Pichia pastoris fermentation using monosodium glutamate wastewater (MSGW) as the basal medium. Recombinant P. pastoris MR33 transformed with a phytase gene (AppA-m) from Escherichia coli was constructed and showed capability to utilize ammonium as the only nitrogen source. The fermentation medium was optimized in shake flasks by single-factor test and response surface methodology. A fed-batch system containing 30% MSGW, 50 g/l glucose, 1.58 g/l CaSO₄, 5.18 g/l MgSO₄ and 6.67 g/l KH₂PO₄ was developed in a 3.7-l bioreactor. The maximum phytase activity in the MSGW medium reached 3,380 U/ml, 84.2% of that in chemically defined medium, and the dry cell weight was 136 g/l. The single-cell protein (SCP; 46.66% dry cell weight) contains a variety of amino acids and is low in fat, which is ideal for utilization in animal feed. Thus, it is feasible to use MSGW medium for the production of enzymes that can be expressed in P. pastoris.     

Efficient secretion of human endostatin in the yeast, Pichia pastoris

Endostatin is a 20 kDa COOH-terminal fragment of collagen XVIII that inhibits angiogenesis and tumor growth. The cDNA coding for human endostatin in human fetal liver has been cloned into the secreting expression organism Pichia pastoris, and the high level expression of human endostatin has been achieved (about 200 mg of endostatin in 1 l of culture). The recombinant human endostatin was purified to homogeneity by heparin-affinity column, and showed antiproliferative effect on rat brain micro-vascular endothelia cells.     

Phytase of the yeast Arxula adeninivorans

Of a number of yeasts screened for growth on phytic acid (inositol phosphates) as a sole source of carbon and phosphate, Arxula adeninivorans showed a particularly vigorous growth. This capacity was correlated with the presence of a high activity of secreted phytase. The crude enzyme showed an optimal temperature of at least 75°C and an optimal pH of 4.5. The level of secreted enzyme far exceeded that of previously reported yeast phytases.     

Biotechnology, physiology and genetics of the yeast Pichia anomala

The ascomycetous yeast Pichia anomala is frequently associated with food and feed products, either as a production organism or as a spoilage yeast. It belongs to the nonSaccharomyces wine yeasts and contributes to the wine aroma by the production of volatile compounds. The ability to grow in preserved food and feed environments is due to its capacity to grow under low pH, high osmotic pressure and low oxygen tension. A new application of P. anomala is its use as a biocontrol agent, which is based on the potential to inhibit a variety of moulds in different environments. Although classified as a biosafety class-1 organism, cases of P. anomala infections have been reported in immunocompromised patients. On the other hand, P. anomala killer toxins have a potential as antimicrobial agents. The yeast can use a broad range of nitrogen and phosphor sources, which makes it a potential agent to decrease environmental pollution by organic residues from agriculture. However, present knowledge of the physiological basis of its performance is limited. Recently, the first studies have been published dealing with the global regulation of the metabolism of P. anomala under different conditions of oxygenation.     

Phytase production by the thermophilic fungus Rhizomucor pusillus

A thermophilic fungus, Rhizomucor pusillus, isolated from composting soil, was studied for phytase production using solid-state fermentation. The optimization of phytase production was carried out by Box–Behnken design of experiments, using three independent variables (pH of medium, culture age and incubation period), resulting in a maximal level of phytase (9.18 units/g substrate). The partially purified phytase was optimally active at 70 °C and pH 5.4, though the enzyme showed 80% activity over a wide pH range, 3.0–8.0. The phytase was found to have broad substrate specificity.     

Phytase production by high cell density culture of recombinant Bacillus subtilis

Bacillus subtilis BD170, harboring a plasmid pGT44[phyC] carrying the phytase gene (phyC) and a phosphate-depletion inducible pst-promoter, was grown in a 2 l bioreactor. Using a controlled feeding of glucose, high cell densities of 32 and 56 g dry cell weight l^–1 were achieved with peptone and yeast extract, respectively, as the complex nitrogen sources in a semi-defined growth medium. The fed-batch protocol was applied to production of recombinant phytase and a high extracellular phytase activity (48 U ml^–1) was reached with peptone. Although the yeast extract feeding resulted in a higher cell density, it was unsuitable as a medium component for phytase expression due to its relatively high phosphate content.     

Aspergillus fumigatus来源植酸酶的Q23L和Q23LG272E突变研究

Aspergillus fumigatus来源的植酸酶具有热稳定性好、pH作用范围广的优点, 但其比活性很低。设计的植酸酶Q23L突变能在pH4.5～7.0范围内大幅提高比活性,但pH稳定性却显著下降, 为了进一步改良Q23L的pH稳定性, 在Q23L分子上加入了G272E突变。将原酶、突变酶Q23L和突变酶Q23LG272E分别在毕赤酵母GS115中表达,表达酶经纯化后进行酶学性质比较分析,结果表明：突变酶Q23L的比活性比原酶显著提高, 在pH5.5比活性由51u/mg提高到109u/mg, 但其pH稳定性, 尤其是在pH3.0～4.0酸性条件下的稳定性却显著降低,低于80%。突变酶Q23LG272E在pH3.0～4.5和pH6.5～7.0时的稳定性比Q23L有所提高, 恢复到原酶的水平,而比活性基本维持在Q23L的水平。通过一级序列和三维结构比较,分析了可能影响Q23LG272E酶学性质的因素,为进一步研究植酸酶的结构与功能提供了材料。     

Aspergillus fumigatus来源植酸酶的Q23L和Q23LG272E突变研究

Aspergillus fumigatus来源的植酸酶具有热稳定性好、pH作用范围广的优点, 但其比活性很低。设计的植酸酶Q23L突变能在pH4.5～7.0范围内大幅提高比活性,但pH稳定性却显著下降, 为了进一步改良Q23L的pH稳定性, 在Q23L分子上加入了G272E突变。将原酶、突变酶Q23L和突变酶Q23LG272E分别在毕赤酵母GS115中表达,表达酶经纯化后进行酶学性质比较分析,结果表明：突变酶Q23L的比活性比原酶显著提高, 在pH5.5比活性由51u/mg提高到109u/mg, 但其pH稳定性, 尤其是在pH3.0～4.0酸性条件下的稳定性却显著降低,低于80%。突变酶Q23LG272E在pH3.0～4.5和pH6.5～7.0时的稳定性比Q23L有所提高, 恢复到原酶的水平,而比活性基本维持在Q23L的水平。通过一级序列和三维结构比较,分析了可能影响Q23LG272E酶学性质的因素,为进一步研究植酸酶的结构与功能提供了材料。     

黑曲霉N14植酸酶基因在巴斯德毕赤酵母中的高效表达

从黑曲霉N14基因组DNA中扩增出植酸酶phyA基因表达片段 ,并将其克隆到pMD18-T载体中。以此片段构建了pPIC9K-phyA重组表达载体 ,目的片段以正确的阅读框架插入到pPIC9K的多克隆位点EcoRⅠ和NotⅠ之间。重组表达载体经XbaⅠ线性化处理 ,电击转化毕赤酵母 ,经G418抗性筛选、酶活性测定、PCR鉴定和SDS-PAGE分析 ,获得了两株产酶活性分别为 14 39583u mL发酵液 (PP N1422 )和14 89083u/mL发酵液 (PP-N1444)的高产工程菌 ,其酶活性分别是出发菌株酶活性 (422u/mL)的 34113倍和 35286倍 ,重组酵母具有很好的遗传稳定性。重组植酸酶在pH值 2.5～3.0和 5.0～5.5时酶活性最高 ,且在pH4.5～6.5之间均有相当高的酶活性 ,最适作用温度为55℃。     

Recombinant Pichia pastoris overexpressing bioactive phytase

Phytase genephyA2, whose signal peptide encoding sequence and intron sequence had been removed, was modified. The Arg-encoding codons CGG and CAG inphyA2 were mutated into synonymous codon AGA. The modifiedphyA2 was fused behind a-factor signal sequence under the control ofAOX1 promoter in plasmid pPIC9, then introduced into the hostPichia pastoris by electroporation. The results of Southern blotting analysis and Northem blotting analysis demonstrated that thephyA2 gene had integrated into the genome ofP. pastoris and transcribed. The result of SDS-PAGE of the phytase expressed by P.pastoris showed that the modifiedphyA2 had been overexpressed and secreted. The concentration of the phytase expressed by P.pastoris with modifiedphyA2 exceeded 15 000 U/mL, which had a 3 000-fold increase over that of originAspergillus niger 963 and was 37 times higher than that of recombinantP. pastoris with non-modifiedphyA2. Project supported by the “863” program, National Science and Technology Commission of China.     

Bullera anomala sp. nov. and Bullera pseudovariabilis sp. nov., two new ballistoconidium-forming yeast species from Yunnan,China

Two ballistoconidium-forming yeast strains, CH 2.504 and CH 2.509, were isolated from the wilting leaves of Parthenocissus sp. collected in Yunnan, China in 1996. These two strains were assigned to the genus Bullera Derx by the characteristics of forming rotationally symmetric ballistoconidia, containing xylose in the cell hydrolysates and having Q-10 as the major ubiquinone. Molecular phylogenetic analysis based on small subunit ribosomal RNA gene (18S rDNA) and internal transcribed spacer (ITS) region sequences revealed that CH 2.504 is closely related to B. variabilis Nakase & Suzuki, while CH 2.509 is located in a clearly separate clade among the described Bullera species and related taxa. The results indicated that CH 2.509 represents a new species, for which Bullera anomala sp. nov. is the proposed name (type strain AS 2.2094^T). Further DNA-DNA reassociation data showed that CH 2.504 also represents a distinct species, for which the name Bullera pseudovariabilis sp. nov. is given (type strain AS 2.2092^T). This revised version was published online in June 2006 with corrections to the Cover Date.     

Physiological characteristics of the biocontrol yeast Pichia anomala J121

The yeast Pichia anomala J121 prevents mold spoilage and enhances preservation of moist grain in malfunctioning storage systems. Development of P. anomala J121 as a biocontrol agent requires in-depth knowledge about its physiology. P. anomala J121 grew under strictly anaerobic conditions, at temperatures between 3 degrees C and 37 degrees C, at pH values between 2.0 and 12.4, and at a water activity of 0.92 (NaCl) and 0.85 (glycerol). It could assimilate a wide range of C- and N-sources and produce killer toxin. A selective medium containing starch, nitrate, acetic acid, and chloramphenicol was developed for P. anomala. P. anomala was equally sensitive as Candida albicans to common antifungal compounds. Growth ability at a range of environmental conditions contributes to the competitive ability of the biocontrol yeast P. anomala J121.