Kostyleva E V, Sereda A S, Velikoretskaya I A, Nefedova L I, Sharikov A Yu, Tsurikova N V, Lobanov N S, Semenova M V, Sinitsyn A P
Mikrobiologiia. 2016 Jul;85(4):436-445.
Induced mutagenesis with y-irradiation of the industrial strain Bacillus licheniformis-60 VKM B-2366,D was used to obtain a new highly active producer of an extracellular serine protease, Bacillus licheni- formis7 145. Samples of dry.concentrated preparations of serine protease produced by the original and mutant strains were obtained, and identity of their protein composition was'established. Alkaline serine protease sub- tilisin DY was the main component of the preparations. The biochemical and physicochemical properties of the Protolkheterm-145 enzyme preparation obtained from the mutant strain were studied. It exhibited pro- teolytic activity (1.5 times higher than the preparation from the initial strain) within broad ranges of pH (5- 11) and temperature (30-70'C).-Efficient hydrolysis of extruded soy meal protein at high concentrations (2 to 50%) in-the reaction mixture was.the main advantage of the Protolikheterm 145 preparation. Compared to,. the preparation obtained using the initial strain, the new preparation with increased proteolytic-activity pro- vided for more complete hydrolysis of the main non-nutritious soy,proteins.(glycinin and 0-conglycinin) with the yield of soluble protein increased by 19-28%, which decreased the cost of bioconversion of the protein- aceous material and indicated promise of the new preparation in resource-saving technologies for processing soy meals and cakes.
利用γ射线对工业菌株地衣芽孢杆菌-60 VKM B-2366,D进行诱变,以获得一种新的细胞外丝氨酸蛋白酶高产菌株地衣芽孢杆菌7 145。获得了原始菌株和突变菌株产生的丝氨酸蛋白酶干燥浓缩制剂样品,并确定了它们蛋白质组成的一致性。碱性丝氨酸蛋白酶枯草杆菌蛋白酶DY是制剂的主要成分。研究了从突变菌株获得的Protolkheterm-145酶制剂的生化和物理化学性质。它在较宽的pH范围(5-11)和温度范围(30-70°C)内表现出蛋白水解活性(比初始菌株的制剂高1.5倍)。在反应混合物中高浓度(2%至50%)下对挤压豆粕蛋白的高效水解是Protolikheterm 145制剂的主要优点。与使用初始菌株获得的制剂相比,具有更高蛋白水解活性的新制剂能更完全地水解主要的非营养性大豆蛋白(大豆球蛋白和β-伴大豆球蛋白),可溶性蛋白产量提高了19%-28%,这降低了含蛋白质材料生物转化的成本,并表明新制剂在豆粕和豆饼加工的资源节约技术中有应用前景。
