PNAS Plus: Nanostructure of cellulose microfibrils in spruce wood

机译：PNAS Plus：云杉木材中纤维素微纤维的纳米结构

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The structure of cellulose microfibrils in wood is not known in detail, despite the abundance of cellulose in woody biomass and its importance for biology, energy, and engineering. The structure of the microfibrils of spruce wood cellulose was investigated using a range of spectroscopic methods coupled to small-angle neutron and wide-angle X-ray scattering. The scattering data were consistent with 24-chain microfibrils and favored a “rectangular” model with both hydrophobic and hydrophilic surfaces exposed. Disorder in chain packing and hydrogen bonding was shown to increase outwards from the microfibril center. The extent of disorder blurred the distinction between the I alpha and I beta allomorphs. Chains at the surface were distinct in conformation, with high levels of conformational disorder at C-6, less intramolecular hydrogen bonding and more outward-directed hydrogen bonding. Axial disorder could be explained in terms of twisting of the microfibrils, with implications for their biosynthesis.

机译：尽管木质生物质中纤维素含量丰富，并且纤维素在生物，能源和工程中的重要性，但木质纤维素微纤维的结构尚不清楚。使用一系列与小角度中子和广角X射线散射耦合的光谱方法研究了云杉木材纤维素微纤维的结构。散射数据与24链微纤维一致，并倾向于暴露疏水和亲水表面的“矩形”模型。链堆积和氢键合的紊乱显示出从微纤维中心向外增加。无序程度模糊了I alpha和I beta同种异体之间的区别。表面的链构象不同，在C-6处构象紊乱程度高，分子内氢键较少，而向外氢键较多。可以用微原纤维的扭曲来解释轴突紊乱，并对其生物合成产生影响。

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期刊名称 Proceedings of the National Academy of Sciences of the United States of America
作者
Anwesha N. Fernandes; Lynne H. Thomas; Clemens M. Altaner; Philip Callow; V. Trevor Forsyth; David C. Apperley; Craig J. Kennedy; Michael C. Jarvis;
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作者单位

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年(卷),期 2011(108),47
年度 2011
页码 E1195-E1203
总页数 9
原文格式 PDF
正文语种
中图分类
关键词
crystallinity infrared deuterium exchange nuclear magnetic resonance spin diffusion;

机译：结晶度;红外;氘交换;核磁共振;自旋扩散;

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专利

1. Nanostructure of cellulose microfibrils in spruce wood [J] . Anwesha N. Fernandes, Lynne H. Thomas, Clemens M. Altaner, Proceedings of the National Academy of Sciences of the United States of America . 2011 ,第47期

机译：云杉木材中纤维素微纤维的纳米结构
2. Hemicellulose binding and the spacing of cellulose microfibrils in spruce wood [J] . Cellulose . 2020 ,第8期

机译：云杉木纤维素微纤维的半纤维素粘合和间距
3. A comprehensive analysis of the relation of cellulose microfibril orientation and lignin content in the S2 layer of different tissue types of spruce wood (Picea abies (L.) Karst.) [J] . Karin Jungnikl, Gerald Koch, Ingo Burgert Holzforschung . 2008 ,第4期

机译：对不同组织类型的云杉木材（Picea abies（L.）Karst。）的S2层中纤维素微纤维取向与木质素含量之间关系的综合分析。
4. Expression of alpha and beta- tubulin alters cellulose microfibril angle in eucalypt wood fibres [C] . TAYLOR L.R, SPOKEVICIUS A.V., SOUTHERTON S.G. Incorporating of the Australian Society for Biochemistry and Molecular Biology Combio . 2009

机译：α和β-管蛋白的表达改为桉树木纤维中的纤维素微纤维角
5. Understanding the Structure of Cellulose Microfibrils Using Vibrational Sum-Frequency-Generation (SFG) Spectroscopy in Intact Plant Cell Walls and Processed Biomass [D] . Kafle, Kabindra 2016

机译：使用振动和频产生（SFG）光谱了解完整植物细胞壁和加工过的生物质中纤维素微纤维的结构
6. Aspen Tension Wood Fibers Contain β-(1→4)-Galactans and Acidic Arabinogalactans Retained by Cellulose Microfibrils in Gelatinous Walls [O] . Tatyana Gorshkova, Natalia Mokshina, Tatyana Chernova, 2015

机译：白杨纤维张力木纤维含有糊状壁中的纤维素微纤维保留的β-（1→4）-半乳聚糖和酸性阿拉伯半乳聚糖。
7. Nanostructure of cellulose microfibrils in spruce wood [O] . Fernandes, Anwesha N., Thomas, Lynne H., Altaner, Clemens M., 2011

机译：云杉木材中纤维素微纤维的纳米结构

PNAS Plus: Nanostructure of cellulose microfibrils in spruce wood

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