Curotto E, Concha M, Campos V, Milagres A M, Duran N
Instituto de Quimica, Universidad Católica de Valparaiso, Chile.
Appl Biochem Biotechnol. 1994 Aug;48(2):107-16. doi: 10.1007/BF02796165.
Xylanase production by Penicillium janthinellum using 10-100 mM of 2,2-dimethylsuccinate (DMS) buffer, in a range of pH 4.5-6.0 was studied. The enzyme activity was enhanced using oat xylan as the carbon source. Under these conditions a culture produced 1.14 mumol/min (11.4 U/mL or 84.4 U/mg) of beta-xylanase after 5 d of growth in a 10-mM buffer solution at pH 4.5. Protease was absent in the DMS buffer except when 100 mM phosphate buffer at pH 6.0 was used (4 U/mL). beta-Xylosidase was only found at a pH of 4.5 in all the buffer concentrations. At a 50 mM DMS buffer concentration at pH 4.5 beta-xylanases were induced by both oat and birch xylans, having a greater effect with oat spelt xylans. Electrophoretic analyses showed that the birchwood xylan induction exhibited different proteins profiles. No beta-xylosidase or beta-glucosidase was induced until d 5. The beta-xylanases were rapidly inactivated at 50 degrees C, however, birch xylanase appeared to be more stable than oat xylanase. Using oat xylan as an inductor, the beta-xylosidase and beta-glucosidase were 85 and 91 U/L, respectively, on d 7. The xylanase produced by induction from sugar cane bagasse hydrolyzate was used for pulp biobleaching. A 20% decrease on the Kappa value in Kraft pulp using the culture extract was obtained. These selective growth conditions led us to modulate the xylanase production for pulp delignification.
研究了在10 - 100 mM的2,2 - 二甲基琥珀酸(DMS)缓冲液中,在pH 4.5 - 6.0范围内,淡紫青霉产生木聚糖酶的情况。以燕麦木聚糖作为碳源时,酶活性增强。在这些条件下,培养物在pH 4.5的10 mM缓冲溶液中生长5天后,产生了1.14 μmol/分钟(11.4 U/mL或84.4 U/mg)的β - 木聚糖酶。DMS缓冲液中不存在蛋白酶,除非使用pH 6.0的100 mM磷酸盐缓冲液(4 U/mL)。在所有缓冲液浓度下,仅在pH 4.5时发现β - 木糖苷酶。在pH 4.5的50 mM DMS缓冲液浓度下,燕麦和桦木木聚糖均可诱导β - 木聚糖酶,燕麦speltoid木聚糖的诱导效果更佳。电泳分析表明,桦木木聚糖诱导表现出不同的蛋白质谱。直到第5天才诱导出β - 木糖苷酶或β - 葡萄糖苷酶。β - 木聚糖酶在50℃时迅速失活,然而,桦木木聚糖酶似乎比燕麦木聚糖酶更稳定。以燕麦木聚糖作为诱导剂时,在第7天β - 木糖苷酶和β - 葡萄糖苷酶分别为85和91 U/L。由甘蔗渣水解产物诱导产生的木聚糖酶用于纸浆生物漂白。使用培养提取物可使硫酸盐浆的卡伯值降低20%。这些选择性生长条件使我们能够调节木聚糖酶的产生以用于纸浆脱木素。
