Effect of Acetylation Patterns of Xylan on Interactions with Cellulose

IF 5.4 2区化学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Biomacromolecules Pub Date : 2025-03-10 Epub Date: 2025-02-27 DOI:10.1021/acs.biomac.4c01469

Tripti Kundu , Jeremy C. Smith , Madhulika Gupta

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Abstract

The present study demonstrates that the change in the degree of xylan acetylation significantly alters the 2-fold screw population that effectively interacts with the (100) hydrophobic cellulose, while such effects are less prominent for the (110) hydrophilic surface. All of the acetylated xylans reveal an ≈10–40% higher 2-fold population on the hydrophobic cellulose due to higher xylan-cellulose contacts. Deviations from periodic acetylation result in much lower 2-fold conformations, despite a comparable number of xylan-cellulose hydrogen bonds and contacts. Thus, it can be hypothesized that a specific and unique set of xylan: cellulose interactions mediate the formation of 2-fold xylan to interact with cellulose, which is also a 2-fold screw. Highly acetylated xylans desorb from cellulose, while low acetylated xylans show dependence on the topology of the cellulose surface. These findings provide additional insights into plant cell wall microstructure dynamics and inform future strategies for efficient biomass deconstruction in biofuel production.

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木聚糖乙酰化模式对与纤维素相互作用的影响。

本研究表明，木聚糖乙酰化程度的变化显著改变了与（100）疏水纤维素有效相互作用的2倍螺旋种群，而这种影响在（110）亲水表面不太明显。所有的乙酰化木聚糖在疏水性纤维素上显示出约10-40%的高2倍密度，这是由于木聚糖与纤维素之间有更高的接触。偏离周期性乙酰化导致低得多的2倍构象，尽管有相当数量的木聚糖-纤维素氢键和接触。因此，可以假设，一组特定且独特的木聚糖与纤维素相互作用介导了2倍木聚糖与纤维素相互作用的形成，这也是一个2倍螺旋。高度乙酰化的木聚糖从纤维素中解吸，而低乙酰化的木聚糖则依赖于纤维素表面的拓扑结构。这些发现为植物细胞壁微观结构动力学提供了更多的见解，并为生物燃料生产中有效的生物质解构提供了未来的策略。

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来源期刊

Biomacromolecules 化学-高分子科学

CiteScore

10.60

自引率

4.80%

发文量

417

审稿时长

1.6 months

期刊介绍： Biomacromolecules is a leading forum for the dissemination of cutting-edge research at the interface of polymer science and biology. Submissions to Biomacromolecules should contain strong elements of innovation in terms of macromolecular design, synthesis and characterization, or in the application of polymer materials to biology and medicine. Topics covered by Biomacromolecules include, but are not exclusively limited to: sustainable polymers, polymers based on natural and renewable resources, degradable polymers, polymer conjugates, polymeric drugs, polymers in biocatalysis, biomacromolecular assembly, biomimetic polymers, polymer-biomineral hybrids, biomimetic-polymer processing, polymer recycling, bioactive polymer surfaces, original polymer design for biomedical applications such as immunotherapy, drug delivery, gene delivery, antimicrobial applications, diagnostic imaging and biosensing, polymers in tissue engineering and regenerative medicine, polymeric scaffolds and hydrogels for cell culture and delivery.