Comparative studies on the in vitro properties of phytases from various microbial origins

F. A. Igbasan, K. Männer, G. Miksch, Rainer Borriss, A. Farouk, Ortwin Simon
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引用次数: 110

Abstract

The physical and chemical properties of six crude phytase preparations were compared. Four of these enzymes (Aspergillus A, Aspergillus R, Peniophora and Aspergillus T) were produced at commercial scale for the use as feed additives while the other two (E. coli and Bacillus) were produced at laboratory scale. The encoding genes of the enzymes were from different microbial origins (4 of fungal origin and 2 of bacterial origin, i.e., E. coli and Bacillus phytases). One of the fungal phytases (Aspergillus R) was expressed in transgenic rape. The enzymes were studied for their pH behaviour, temperature optimum and stability and resistance to protease inactivation. The phytases were found to exhibit different properties depending on source of the phytase gene and the production organism. The pH profiles of the enzymes showed that the fungal phytases had their pH optima ranging from 4.5 to 5.5. The bacterial E. coli phytase had also its pH optimum in the acidic range at pH 4.5 while the pH optimum for the Bacillus enzyme was identified at pH 7.0. Temperature optima were at 50 and 60°C for the fungal and bacterial phytases, respectively. The Bacillus phytase was more thermostable in aqueous solutions than all other enzymes. In pelleting experiments performed at 60, 70 and 80°C in the conditioner, Aspergillus A, Peniophora (measurement at pH 5.5) and E. coli phytases were more heat stable compared to other enzymes (Bacillus enzyme was not included). At a temperature of 70°C in the conditioner, these enzymes maintained a residual activity of approximately 70% after pelleting compared to approximately 30% determined for the other enzymes. Incubation of enzyme preparations with porcine proteases revealed that only E. coli phytase was insensitive against pepsin and pancreatin. Incubation of the enzymes in digesta supernatants from various segments of the digestive tract of hens revealed that digesta from stomach inactivated the enzymes most efficiently except E. coli phytase which had a residual activity of 93% after 60 min incubation at 40°C. It can be concluded that phytases of various microbial origins behave differently with respect to their in vitro properties which could be of importance for future developments of phytase preparations. Especially bacterial phytases contain properties like high temperature stability (Bacillus phytase) and high proteolytic stability (E. coli phytase) which make them favourable for future applications as feed additives.
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不同微生物来源植酸酶体外特性的比较研究
比较了6种粗植酸酶制剂的理化性质。其中四种酶(Aspergillus A, Aspergillus R, Peniophora和Aspergillus T)已在商业规模上生产并用作饲料添加剂,而另外两种酶(E. coli和Bacillus)则在实验室规模上生产。这些酶的编码基因来自不同的微生物来源(真菌来源4个,细菌来源2个,即大肠杆菌和芽孢杆菌植酸酶)。其中一种真菌植酸酶(Aspergillus R)在转基因油菜中得到表达。研究了这些酶的pH值行为、最适温度、稳定性和蛋白酶失活抗性。根据植酸酶基因的来源和生产生物体的不同,这些植酸酶表现出不同的特性。结果表明,真菌植酸酶的最适pH值在4.5 ~ 5.5之间。大肠杆菌植酸酶的最佳pH值为pH 4.5,芽孢杆菌植酸酶的最佳pH值为pH 7.0。真菌和细菌植酸酶的最适温度分别为50℃和60℃。芽孢杆菌植酸酶在水溶液中比其他酶更耐热。在60,70和80°C的造粒实验中,与其他酶(不包括芽孢杆菌酶)相比,曲霉A, Peniophora(在pH 5.5下测量)和大肠杆菌植酸酶具有更强的热稳定性。在调理剂中温度为70°C时,这些酶在造粒后保持约70%的残留活性,而其他酶的残留活性约为30%。用猪蛋白酶进行酶制剂的孵育,发现只有大肠杆菌植酸酶对胃蛋白酶和胰蛋白酶不敏感。在鸡消化道各部位的食糜上清液中进行孵育,结果表明,除大肠杆菌植酸酶在40℃条件下孵育60 min后的残留活性为93%外,胃食糜对其他酶的灭活效率最高。研究结果表明,不同微生物来源的植酸酶在体外表现出不同的特性,这对今后植酸酶制剂的开发具有重要意义。特别是细菌植酸酶具有高温稳定性(芽孢杆菌植酸酶)和高蛋白水解稳定性(大肠杆菌植酸酶)的特性,这使它们在未来作为饲料添加剂的应用中具有优势。
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