Division of Microbiology, ICAR-Indian Agricultural Research Institute, New Delhi, 110012, India.
Division of Vegetable Science, ICAR-Indian Agricultural Research Institute, New Delhi, 110012, India.
Appl Biochem Biotechnol. 2021 Aug;193(8):2455-2469. doi: 10.1007/s12010-021-03539-3. Epub 2021 Mar 25.
Co-utilization of xylose and glucose and subsequent fermentation using Saccharomyces cerevisiae could enhance ethanol productivity. Directed engineering approaches have met with limited success due to interconnectivity of xylose metabolism with other intrinsic, hidden pathways. Therefore, random approaches like protoplast fusion were used to reprogram unidentified mechanisms. Saccharomyces cerevisiae LN, the best hexose fermenter, was fused with xylose fermenting Pichia stipitis NCIM 3498. Protoplasts prepared using glucanex were fused under electric impulse and fusants were selected using 10% ethanol and cycloheximide (50 ppm) markers. Two fusants, 1a.23 and 1a.30 showing fast growth on xylose and tolerance to 10% ethanol, were selected. Higher extracellular protein expression observed in fusants as compared to parents was corroborated by higher number of bands resolved by two-dimensional analysis. Overexpression of XYL1, XYL2, XKS, and XUT4 in fusants as compared to S. cerevisiae LN as observed by RT-PCR analysis was substantiated by higher specific activities of XR, XDH, and XKS enzymes in fusants. During lignocellulosic hydrolysate fermentation, fusants could utilize glucose faster than the parent P. stipitis NCIM 3498 and xylose consumption in fusants was higher than S. cerevisiae LN.
木糖和葡萄糖的共利用以及随后使用酿酒酵母的发酵可以提高乙醇生产率。由于木糖代谢与其他内在的、隐藏的途径相互关联,定向工程方法的应用取得的成功有限。因此,人们使用原生质体融合等随机方法来重新编程未识别的机制。将最好的己糖发酵菌酿酒酵母 LN 与木糖发酵菌毕赤酵母 NCIM 3498 进行融合。使用葡聚糖酶制备的原生质体在电脉冲下融合,并使用 10%乙醇和环己酰亚胺(50ppm)标记物选择融合体。选择了两个融合体 1a.23 和 1a.30,它们在木糖上生长迅速,并且对 10%乙醇具有耐受性。与亲本相比,融合体中外源蛋白的表达更高,这一点通过二维分析中解析出的更多条带得到了证实。与酿酒酵母 LN 相比,融合体中 XYL1、XYL2、XKS 和 XUT4 的表达量更高,这一点通过 RT-PCR 分析得到了证实,融合体中 XR、XDH 和 XKS 酶的比活更高。在木质纤维素水解物发酵过程中,与亲本毕赤酵母 NCIM 3498 相比,融合体能够更快地利用葡萄糖,并且融合体中木糖的消耗速度高于酿酒酵母 LN。
