Ramachandran Priyadharshini, Kim Tae-Su, Dhiman Saurabh Sudha, Li Jinglin, Park Ji-Hyun, Choi Joon-Ho, Kim Jae Young, Kim Dongwook, Lee Jung-Kul
Department of Chemical Engineering, Konkuk University, 1 Hwayang-Dong, Gwangjin-Gu, Seoul, 143-701, Republic of Korea.
Bioprocess Biosyst Eng. 2015 Sep;38(9):1645-53. doi: 10.1007/s00449-015-1406-7. Epub 2015 Apr 30.
Lignocellulases from Armillaria gemina and Pholiota adiposa are efficient in hydrolyzing aspen and poplar biomass, respectively. In the present study, lignocellulosic enzymes obtained from a fungal consortium comprising P. adiposa and A. gemina were used for the saccharification of sunflower stalks. Sunflower stalks were thermochemically pretreated using 2 % NaOH at 50 °C for 24 h. The saccharification process parameters including substrate concentration, enzyme loading, pH, and temperature were optimized using response surface methodology to improve the saccharification yield. The highest enzymatic hydrolysis (84.3 %) was obtained using the following conditions: enzyme loading 10 FPU/g-substrate, substrate 5.5 %, temperature 50 °C, and pH 4.5. The hydrolysis yield obtained using the enzymes from the fungal consortium was equivalent to that obtained using a mixture of commercial enzymes Celluclast and Novozyme β-glucosidase. Addition of up to 500 ppm of heavy metal ions (As, Cu, Fe, Mn, Ni, Pb, and Zn) during saccharification did not significantly affect the saccharification yield. Thus, the biomass grown for phytoremediation of heavy metals can be used for the production of reducing sugars followed by ethanol fermentation.
来自双子蜜环菌和肥胖鳞伞的木质纤维素酶分别对水解白杨木和杨树生物质具有高效性。在本研究中,从包含肥胖鳞伞和双子蜜环菌的真菌联合体中获得的木质纤维素酶被用于向日葵秸秆的糖化。向日葵秸秆在50℃下用2%的NaOH进行热化学预处理24小时。使用响应面法对糖化过程参数(包括底物浓度、酶负载量、pH值和温度)进行优化以提高糖化产率。在以下条件下获得了最高的酶水解率(84.3%):酶负载量为10 FPU/克底物、底物为5.5%、温度为50℃、pH值为4.5。使用来自真菌联合体的酶所获得的水解产率与使用商业酶纤维素酶和诺维信β-葡萄糖苷酶混合物所获得的水解产率相当。在糖化过程中添加高达500 ppm的重金属离子(砷、铜、铁、锰、镍、铅和锌)对糖化产率没有显著影响。因此,用于重金属植物修复的生物质可用于生产还原糖,随后进行乙醇发酵。
