基于电子束辐照的与木质纤维素生物转化相关的生物降解过程评估。

Process evaluation of electron beam irradiation-based biodegradation relevant to lignocellulose bioconversion.

作者信息

Bak Jin Seop

机构信息

Department of Chemical and Biomolecular Engineering, Advanced Biomass R&D Center, KAIST, 291 Daehak-ro, Yuseong-gu, Daejeon, 305-701 Republic of Korea.

出版信息

Springerplus. 2014 Aug 29;3:487. doi: 10.1186/2193-1801-3-487. eCollection 2014.

DOI:10.1186/2193-1801-3-487

PMID:25279286

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4164673/

Abstract

In order to solve the inefficient problem of long-term biodegradation by wood-decaying fungus, rice straw (RS) was depolymerized using electron beam irradiation-based biodegradation (EBIBB). This environment-friendly program without the use of inhibitory byproducts significantly increased the digestibility and fermentability of RS. Specifically, when irradiated RS was simultaneously biodegraded by Phanerochaete chrysosporium for 10 days, the sugar yield was 65.5% of the theoretical maximum. This value was on the same level as the 64.8% (for 15 days) measured from unirradiated RS. In case of fermentability, similarly, EBIBB program had an effect on time/energy saving. Furthermore, the transcriptomic profiles under different biosystem were analyzed in order to verify possible substrate-specific regulation based on change of lignocellulosic components. Interestingly, the overall correlation based on the bias (upregulation or downregulation) was reasonably analogous, especially lignocellulolysis-related genes.

摘要

为了解决木材腐朽真菌长期生物降解效率低下的问题，采用基于电子束辐照的生物降解法（EBIBB）对稻草（RS）进行解聚。这个不使用抑制性副产物的环保方案显著提高了RS的消化率和发酵性。具体而言，当辐照后的RS同时被黄孢原毛平革菌生物降解10天时，糖产量为理论最大值的65.5%。该值与未辐照RS测得的64.8%（15天）处于同一水平。在发酵性方面，同样地，EBIBB方案具有节省时间/能源的效果。此外，分析了不同生物系统下的转录组图谱，以验证基于木质纤维素成分变化可能存在的底物特异性调控。有趣的是，基于偏差（上调或下调）的总体相关性相当类似，尤其是与木质纤维素分解相关的基因。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9766/4164673/7070bb8d3cba/40064_2014_1201_Fig1_HTML.jpg

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基于电子束辐照的与木质纤维素生物转化相关的生物降解过程评估。

Process evaluation of electron beam irradiation-based biodegradation relevant to lignocellulose bioconversion.

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