摘要
[Objective] This study aimed to isolate an acidophilic fungus and analyze the acidophilic enzymes secreted by this fungus. [Method] A heterotrophic fungus was isolated from the leaching solution of a uranium ore in Jiangxi Province using oligotrophic acid selective medium (pH 2.5), and was named RBS-6. This strain was then identified according to its colony morphology and molecular indicator rDNA-ITS. Finally, the glycoside hydrolases secreted by RBS-6 were analyzed. [Result] This fungus RBS-6 was acidophilic, and grew best at pH4.0. Its rDNA-ITS sequence shared the highest homology (98%) with that of Phialophora sp. CGMCC 3329 (GU 082377). So it was identified as a fungus of Phialophora sp., and was temporarily named as Phialophora sp. RBS-6. It can produce six glycoside hydrolases, in cluding α-galactosidase glucosidase, β-glucosidase, β-mannanase and β-glucanase. All the enzymes were acidophilic, for which the optimum reaction pH was 3.0-4.0. Among them, β-glucanase exhibited the highest activity at pH 3.5 and 50 ℃; in addition, it was heat-stable as 58% of the enzyme activity was remained after incubation at 50 ℃ for 60 min. [Conclusion] The isolated fungus which was identified as an acidophilic member of Phialophora sp., was a new strain producing acidophilic enzymes. This study supplied new data for the research on Phialophora fungi.
[目的]分离鉴定1株嗜酸真菌,研究其所产嗜酸酶。[方法]利用寡营养嗜酸(pH 2.5)选择性培养基,从江西某铀矿浸铀体系中分离到1株异养菌,记为RBS-6,利用其菌落形态和分子指标rDNA-ITS对其进行鉴定,并分析了其胞外糖苷水解酶。[结果]该菌最适生长pH值为4.0,属嗜酸性真菌。RBS-6的rDNA-ITS序列与瓶霉属真菌 Phialophora sp. CGMCC 3329(GU 082377)同源性最高,达到98%,故RBS-6为瓶霉属真菌(Phialophora),将其暂命名为Phialophora sp. RBS-6。该菌株可产α-半乳糖苷酶、β-葡萄糖苷酶、β-甘露聚糖酶和β-葡聚糖酶等6种糖苷水解酶,这些酶的最适pH值在3.0~4.0,为嗜酸酶,其中的β-葡聚糖酶最适pH值为3.5,最适温度为50℃,在50 ℃保温60min,仍有58%的酶活力,具有一定的热稳定性。[结论]该研究鉴定了所得菌株为嗜酸瓶霉属真菌,其为极具产嗜酸酶潜力的新型菌株,该结果丰富了瓶霉属真菌的研究。
基金
Supported by Manufacture - Learning - Research Cooperation Project of Education Department of Jiangxi Province(GJJ09008)
Nuclear Power Development Projects [COSTIND, (2009)1230]~~
