Functional Characterization of the GH10 and GH11 Xylanases from Streptomyces olivaceoviridis E-86 Provide Insights into the Advantage of GH11 Xylanase in Catalyzing Biomass Degradation.

IF 1.2 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY
Journal of applied glycoscience Pub Date : 2019-02-20 eCollection Date: 2019-01-01 DOI:10.5458/jag.jag.JAG-2018_0008
Haruka Yagi, Ryo Takehara, Aika Tamaki, Koji Teramoto, Sosyu Tsutsui, Satoshi Kaneko
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Abstract

We functionally characterized the GH10 xylanase (SoXyn10A) and the GH11 xylanase (SoXyn11B) derived from the actinomycete Streptomyces olivaceoviridis E-86. Each enzyme exhibited differences in the produced reducing power upon degradation of xylan substrates. SoXyn10A produced higher reducing power than SoXyn11B. Gel filtration of the hydrolysates generated by both enzymes revealed that the original substrate was completely decomposed. Enzyme mixtures of SoXyn10A and SoXyn11B produced the same level of reducing power as SoXyn10A alone. These observations were in good agreement with the composition of the hydrolysis products. The hydrolysis products derived from the incubation of soluble birchwood xylan with a mixture of SoXyn10A and SoXyn11B produced the same products as SoXyn10A alone with similar compositions. Furthermore, the addition of SoXyn10A following SoXyn11B-mediated digestion of xylan produced the same products as SoXyn10A alone with similar compositions. Thus, it was hypothesized that SoXyn10A could degrade xylans to a smaller size than SoXyn11B. In contrast to the soluble xylans as the substrate, the produced reducing power generated by both enzymes was not significantly different when pretreated milled bagasses were used as substrates. Quantification of the pentose content in the milled bagasse residues after the enzyme digestions revealed that SoXyn11B hydrolyzed xylans in pretreated milled bagasses much more efficiently than SoXyn10A. These data suggested that the GH10 xylanases can degrade soluble xylans smaller than the GH11 xylanases. However, the GH11 xylanases may be more efficient at catalyzing xylan degradation in natural environments (e.g. biomass) where xylans interact with celluloses and lignins.

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Olivaceoviridis E-86 链霉菌 GH10 和 GH11 木聚糖酶的功能特性分析揭示了 GH11 木聚糖酶在催化生物质降解过程中的优势。
我们从功能上鉴定了源自放线菌 Streptomyces olivaceoviridis E-86 的 GH10 木聚糖酶(SoXyn10A)和 GH11 木聚糖酶(SoXyn11B)。每种酶在降解木聚糖底物时产生的还原力都有所不同。SoXyn10A 产生的还原力高于 SoXyn11B。对两种酶产生的水解物进行凝胶过滤发现,原始底物已完全分解。SoXyn10A 和 SoXyn11B 的酶混合物产生的还原力与 SoXyn10A 单独产生的还原力水平相同。这些观察结果与水解产物的成分十分吻合。将可溶性桦木木聚糖与 SoXyn10A 和 SoXyn11B 的混合物一起培养所产生的水解产物与单独使用 SoXyn10A 所产生的产物相同,且成分相似。此外,在 SoXyn11B 介导的木聚糖消化后加入 SoXyn10A,产生的产物与单独使用 SoXyn10A 产生的产物相同,成分也相似。因此,我们推测 SoXyn10A 比 SoXyn11B 能将木聚糖降解得更小。以可溶性木聚糖为底物时,两种酶产生的还原力没有明显差异。对酶消化后碾磨甘蔗渣中戊糖含量的定量分析显示,SoXyn11B 比 SoXyn10A 更有效地水解了预处理过的碾磨甘蔗渣中的木聚糖。这些数据表明,GH10 木聚糖酶降解可溶性木聚糖的能力比 GH11 木聚糖酶小。不过,在木聚糖与纤维素和木质素相互作用的自然环境(如生物质)中,GH11 木聚糖酶催化木聚糖降解的效率可能更高。
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来源期刊
Journal of applied glycoscience
Journal of applied glycoscience BIOCHEMISTRY & MOLECULAR BIOLOGY-
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9.10%
发文量
13
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