PHYTASE FROM BACILLUS SP. STRAIN LA12: ISOLATION, PURIFICATION AND CHARACTERIZATION

A. Abdolshahi, B. S. Yancheshmeh, Majid Arabameri, L. Marvdashti
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引用次数: 1

Abstract

Phytate take effect as an anti-nutrient element in food and feed materials. Thus, phytase, by catalyzing phytate, hydrolyzing the phosphomonoester bonds and releasing the inorganic phosphorous, decrease the phytate and enhance their nutritional value. Therefore, in this study, Bacillus sp. strain LA12was isolated from natural origins and the phytase production activity was evaluated. The novel extracellular phytase was produced and precipitated by saturated ammonium sulfate. The ion-exchange chromatography on DEAE-sepharose and the size-exclusion chromatography on Sephadex G-100 were used to purify the enzyme. The results showed that the purification yield and concentration of final enzyme were 5.9% and 18.4%, respectively. Based on SDS-PAGE results the molecular weight of the phytase was determined about 73 kDa. Optimal activity of the enzyme was obtained at pH of 5.5 and 60 oC. Kinetic parameters Km and Vmax were 0.197 mM and 1.174 µmol/min, respectively. Mg2+, Co2+ and EDTA accelerated the effect on phytase activity; whilst adding other metal ions such as Ca2+, Zn2+ and Fe2+ in both concentrations could decrease its activity. Moreover, ‏ Mn2+ ion didn’t show indicative effect on its activity. The purified phytase exhibits good thermal stability after incubation at 50-70°C for 30 min, whereas the phytase activity drastically decreased up to 61% at 80°C. This study indicated that the purified phytase has the desired characteristics and can promisingly be used for hydrolyzing of phytate in food and feed.
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芽孢杆菌菌株la12植酸酶的分离、纯化和鉴定
植酸盐在食品和饲料中具有抗营养作用。植酸酶通过催化植酸,水解磷酸单酯键,释放无机磷,减少植酸,提高其营养价值。因此,本研究从自然来源分离出芽孢杆菌sp. la12菌株,并对其产植酸酶活性进行了评价。采用饱和硫酸铵沉淀法制备了新型胞外植酸酶。采用DEAE-sepharose的离子交换层析和Sephadex G-100的排粒径层析对酶进行纯化。结果表明,纯化率和终酶浓度分别为5.9%和18.4%。根据SDS-PAGE测定结果,该植酸酶分子量约为73 kDa。该酶在pH为5.5和60℃时活性最佳。动力学参数Km和Vmax分别为0.197 mM和1.174µmol/min。Mg2+、Co2+和EDTA对植酸酶活性的影响加快;而Ca2+、Zn2+、Fe2+等其他金属离子在两种浓度下均可降低其活性。而且,@ Mn2+离子对其活性没有指示作用。纯化的植酸酶在50-70℃条件下培养30 min后表现出良好的热稳定性,而在80℃条件下,植酸酶活性急剧下降,最高可达61%。本研究表明,纯化的植酸酶具有良好的特性,有望用于食品和饲料中植酸的水解。
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