Pawar Prashant Mohan-Anupama, Derba-Maceluch Marta, Chong Sun-Li, Gómez Leonardo D, Miedes Eva, Banasiak Alicja, Ratke Christine, Gaertner Cyril, Mouille Grégory, McQueen-Mason Simon J, Molina Antonio, Sellstedt Anita, Tenkanen Maija, Mellerowicz Ewa J
Department of Forest Genetics and Plant Physiology, Swedish University of Agricultural Sciences, Umeå Plant Science Centre, Umeå, Sweden.
Department of Food and Environmental Sciences, University of Helsinki, Helsinki, Finland.
Plant Biotechnol J. 2016 Jan;14(1):387-97. doi: 10.1111/pbi.12393. Epub 2015 May 11.
Cell wall hemicelluloses and pectins are O-acetylated at specific positions, but the significance of these substitutions is poorly understood. Using a transgenic approach, we investigated how reducing the extent of O-acetylation in xylan affects cell wall chemistry, plant performance and the recalcitrance of lignocellulose to saccharification. The Aspergillus niger acetyl xylan esterase AnAXE1 was expressed in Arabidopsis under the control of either the constitutively expressed 35S CAMV promoter or a woody-tissue-specific GT43B aspen promoter, and the protein was targeted to the apoplast by its native signal peptide, resulting in elevated acetyl esterase activity in soluble and wall-bound protein extracts and reduced xylan acetylation. No significant alterations in cell wall composition were observed in the transgenic lines, but their xylans were more easily digested by a β-1,4-endoxylanase, and more readily extracted by hot water, acids or alkali. Enzymatic saccharification of lignocellulose after hot water and alkali pretreatments produced up to 20% more reducing sugars in several lines. Fermentation by Trametes versicolor of tissue hydrolysates from the line with a 30% reduction in acetyl content yielded ~70% more ethanol compared with wild type. Plants expressing 35S:AnAXE1 and pGT43B:AnAXE1 developed normally and showed increased resistance to the biotrophic pathogen Hyaloperonospora arabidopsidis, probably due to constitutive activation of defence pathways. However, unintended changes in xyloglucan and pectin acetylation were only observed in 35S:AnAXE1-expressing plants. This study demonstrates that postsynthetic xylan deacetylation in woody tissues is a promising strategy for optimizing lignocellulosic biomass for biofuel production.
细胞壁半纤维素和果胶在特定位置发生O-乙酰化,但这些取代作用的意义却鲜为人知。我们采用转基因方法,研究了降低木聚糖中O-乙酰化程度如何影响细胞壁化学性质、植物性能以及木质纤维素对糖化作用的抗性。黑曲霉乙酰木聚糖酯酶AnAXE1在组成型表达的35S CAMV启动子或木质组织特异性GT43B白杨启动子的控制下在拟南芥中表达,该蛋白通过其天然信号肽靶向质外体,导致可溶性和细胞壁结合蛋白提取物中的乙酰酯酶活性升高,木聚糖乙酰化程度降低。在转基因株系中未观察到细胞壁组成的显著变化,但其木聚糖更容易被β-1,4-内切木聚糖酶消化,并且更容易被热水、酸或碱提取。热水和碱预处理后木质纤维素的酶促糖化在多个株系中产生的还原糖增加了20%。与野生型相比,乙酰含量降低30%的株系的组织水解产物经云芝发酵产生的乙醇多约70%。表达35S:AnAXE1和pGT43B:AnAXE1的植物正常发育,并表现出对活体营养型病原菌拟南芥霜霉病的抗性增强,这可能是由于防御途径的组成型激活。然而,仅在表达35S:AnAXE1的植物中观察到木葡聚糖和果胶乙酰化的意外变化。这项研究表明,木本组织中合成后木聚糖的脱乙酰化是优化木质纤维素生物质用于生物燃料生产的一种有前景的策略。