Yewale Tatyaso, Panchwagh Shruti, Sawale Shaileshkumar, Jain Rishi, Dhamole Pradip B
Praj Matrix R & D Center, Division of Praj Industries Ltd., 402/403/1098, Urawade, Pune, Maharashtra, 412115, India.
Department of Technology, Savitribai Phule Pune University, Ganeshkhind Road, Pune, Maharashtra, 411007, India.
3 Biotech. 2017 May;7(1):68. doi: 10.1007/s13205-017-0700-2. Epub 2017 Apr 27.
Immobilized Candida tropicalis cells in freeze dried calcium alginate beads were used for production of xylitol from lignocellulosic waste like corn cob hydrolysate without any detoxification and sterilization of media. Media components for xylitol fermentation were screened by statistical methods. Urea, KHPO and initial pH were identified as significant variables by Plackett-Burman (PB) design. Significant medium components were optimized by response surface methodology (RSM). Predicted xylitol yield by RSM model and experimental yield was 0.87 and 0.79 g/g, respectively. Optimized conditions (urea 1.5 g/L, KHPO 1.9 g/L, xylose 55 g/L, pH 6.7) enhanced xylitol yield by 32% and xylose consumption by twofold over those of basal media. In addition, the immobilized cells were reused five times at shake flask level with optimized medium without affecting the xylitol productivity and yield. Xylitol production was successfully scaled up to 7.5 L stirred tank reactor using optimized media. Thus, the optimized condition with non-detoxified pentose hydrolysate from corn cob lignocellulosic waste with minimal nutrients without any sterilization opens up the scope for commercialization of the process.
冻干海藻酸钙珠固定化的热带假丝酵母细胞用于从木质纤维素废料如玉米芯水解液中生产木糖醇,无需对培养基进行任何解毒和灭菌处理。通过统计方法筛选木糖醇发酵的培养基成分。通过Plackett-Burman(PB)设计确定尿素、KHPO和初始pH为显著变量。通过响应面法(RSM)对显著的培养基成分进行优化。RSM模型预测的木糖醇产量和实验产量分别为0.87和0.79 g/g。优化条件(尿素1.5 g/L、KHPO 1.9 g/L、木糖55 g/L、pH 6.7)使木糖醇产量比基础培养基提高了32%,木糖消耗量提高了两倍。此外,固定化细胞在摇瓶水平上使用优化培养基重复使用了五次,而不影响木糖醇的生产率和产量。使用优化培养基成功地将木糖醇生产规模扩大到7.5 L搅拌罐反应器。因此,以来自玉米芯木质纤维素废料的未解毒戊糖水解液为原料,在营养成分最少且无需任何灭菌的情况下的优化条件为该工艺的商业化开辟了道路。