Lan Qing, Duan Yitong, Wu Pingping, Li Xueyin, Yu Yao, Shi Bo, Zhou Jungang, Lu Hong
State Key Laboratory of Genetic Engineering, School of Life Sciences, Fudan University, 2005 Songhu Road, Shanghai, 200438, People's Republic of China.
Shanghai Engineering Research Center of Industrial Microorganisms, Fudan University, 2005 Songhu Road, Shanghai, 200438, People's Republic of China.
Biotechnol Biofuels. 2021 Nov 22;14(1):220. doi: 10.1186/s13068-021-02070-1.
Hemicellulose acts as one factor contributing to the recalcitrance of lignocellulose that prevents cellulases to degrade the cellulose efficiently even in low quantities. Supplement of hemicellulases can enhance the performance of commercial cellulases in the enzymatic hydrolyses of lignocellulose. Kluyveromyce marxianus is an attractive yeast for cellulosic ethanol fermentation, as well as a promising host for heterologous protein production, since it has remarkable thermotolerance, high growth rate, and broad substrate spectrum etc. In this study, we attempted to coordinately express multiple hemicellulases in K. marxianus through a 2A-mediated ribosome skipping to self-cleave polyproteins, and investigated their capabilities for saccharification and ethanol production from corncobs.
Two polycistronic genes IMPX and IMPαX were constructed to test the self-cleavage of P2A sequence from the Foot-and-Mouth Disease virus (FMDV) in K. marxianus. The IMPX gene consisted of a β-mannanase gene M330 (without the stop codon), a P2A sequence and a β-xylanase gene Xyn-CDBFV in turn. In the IMPαX gene, there was an additional α-factor signal sequence in frame with the N-terminus of Xyn-CDBFV. The extracellular β-mannanase activities of the IMPX and IMPαX strains were 21.34 and 15.50 U/mL, respectively, but the extracellular β-xylanase activity of IMPαX strain was much higher than that of the IMPX strain, which was 136.17 and 42.07 U/mL, respectively. Subsequently, two recombinant strains, the IXPαR and IMPαXPαR, were constructed to coordinately and secretorily express two xylantic enzymes, Xyn-CDBFV and β-D-xylosidase RuXyn1, or three hemicellulolytic enzymes including M330, Xyn-CDBFV and RuXyn1. In fed-batch fermentation, extracellular activities of β-xylanase and β-xylosidase in the IXPαR strain were 1664.2 and 0.90 U/mL. Similarly, the IMPαXPαR strain secreted the three enzymes, β-mannanase, β-xylanase, and β-xylosidase, with the activities of 159.8, 2210.5, and 1.25 U/mL, respectively. Hemicellulolases of both strains enhanced the yields of glucose and xylose from diluted acid pretreated (DAP) corncobs when acted synergistically with commercial cellulases. In hybrid saccharification and fermentation (HSF) of DAP corncobs, hemicellulases of the IMPαXPαR strain increased the ethanol yield by 8.7% at 144 h compared with the control. However, both ethanol and xylose yields were increased by 12.7 and 18.2%, respectively, at 120 h in HSF of aqueous ammonia pretreated (AAP) corncobs with this strain. Our results indicated that coordinate expression of hemicellulolytic enzymes in K. marxianus promoted the saccharification and ethanol production from corncobs.
The FMDV P2A sequence showed high efficiency in self-cleavage of polyproteins in K. marxianus and could be used for secretory expression of multiple enzymes in the presence of their signal sequences. The IMPαXPαR strain coexpressed three hemicellulolytic enzymes improved the saccharification and ethanol production from corncobs, and could be used as a promising strain for ethanol production from lignocelluloses.
半纤维素是导致木质纤维素难降解的因素之一,即使在含量较低时也会阻碍纤维素酶有效降解纤维素。添加半纤维素酶可提高商业纤维素酶对木质纤维素的酶解性能。马克斯克鲁维酵母是用于纤维素乙醇发酵的有吸引力的酵母,也是用于异源蛋白生产的有前景的宿主,因为它具有显著的耐热性、高生长速率和广泛的底物谱等。在本研究中,我们试图通过2A介导的核糖体跳跃在马克斯克鲁维酵母中协调表达多种半纤维素酶以自切割多蛋白,并研究它们对玉米芯进行糖化和乙醇生产的能力。
构建了两个多顺反子基因IMPX和IMPαX,以测试口蹄疫病毒(FMDV)的P2A序列在马克斯克鲁维酵母中的自切割情况。IMPX基因依次由β-甘露聚糖酶基因M330(无终止密码子)、一个P2A序列和一个β-木聚糖酶基因Xyn-CDBFV组成。在IMPαX基因中,与Xyn-CDBFV的N端框内有一个额外的α-因子信号序列。IMPX和IMPαX菌株的细胞外β-甘露聚糖酶活性分别为21.34和15.50 U/mL,但IMPαX菌株的细胞外β-木聚糖酶活性远高于IMPX菌株,分别为136.17和42.07 U/mL。随后,构建了两个重组菌株IXPαR和IMPαXPαR,以协调分泌表达两种木聚糖酶Xyn-CDBFV和β-D-木糖苷酶RuXyn1,或三种半纤维素分解酶,包括M330、Xyn-CDBFV和RuXyn1。在补料分批发酵中,IXPαR菌株的细胞外β-木聚糖酶和β-木糖苷酶活性分别为1664.2和0.90 U/mL。同样,IMPαXPαR菌株分泌三种酶,β-甘露聚糖酶、β-木聚糖酶和β-木糖苷酶,活性分别为159.8、2210.5和1.25 U/mL。当与商业纤维素酶协同作用时,两种菌株的半纤维素酶均提高了稀酸预处理(DAP)玉米芯的葡萄糖和木糖产量。在DAP玉米芯的混合糖化和发酵(HSF)中,与对照相比,IMPαXPαR菌株的半纤维素酶在144 h时使乙醇产量提高了8.7%。然而,在该菌株对氨水预处理(AAP)玉米芯的HSF中,在120 h时乙醇和木糖产量分别提高了12.7%和18.2%。我们的结果表明,在马克斯克鲁维酵母中协调表达半纤维素分解酶促进了玉米芯的糖化和乙醇生产。
FMDV P2A序列在马克斯克鲁维酵母中对多蛋白的自切割效率高,可用于在存在信号序列的情况下分泌表达多种酶。共表达三种半纤维素分解酶的IMPαXPαR菌株提高了玉米芯的糖化和乙醇生产能力,可作为从木质纤维素生产乙醇的有前景的菌株。
