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Xylan adsorption on cellulose: Preferred alignment and local surface immobilizing effect

Emilia Heinonen, Gunnar Henriksson, Mikael E. Lindström, Francisco Vilaplana, Jakob Wohlert

2022Carbohydrate Polymers33 citationsDOIOpen Access PDF

Abstract

Interaction between xylan and cellulose microfibrils is required to maintain the integrity of secondary cell walls. However, the mechanisms governing their assembly and the effects on cellulose surface polymers are not fully clear. Here, molecular dynamics simulations are used to study xylan adsorption onto hydrated cellulose fibrils. Based on multiple spontaneous adsorption simulations it is shown that an antiparallel orientation is thermodynamically preferred over a parallel one, and that adsorption is accompanied by the formation of regular but orientation-dependent hydrogen bond patterns. Furthermore, xylan adsorption restricts the local dynamics of the adjacent glucose residues in the surface layer to a level of the crystalline core, which is manifested as a three-fold increase in their 13C NMR T1 relaxation time. These results suggest that xylan forms a rigid and ordered layer around the cellulose fibril that functions as a transition phase to more flexible and disordered polysaccharide and lignin domains.

Topics & Concepts

CelluloseAdsorptionXylanChemical engineeringPolymerChemistryHydrogen bondMolecular dynamicsPolysaccharideLigninFibrilRelaxation (psychology)Polymer chemistryChemical physicsCrystallographyOrganic chemistryMoleculeComputational chemistryBiochemistryEngineeringPsychologySocial psychologyAdvanced Cellulose Research StudiesLignin and Wood ChemistryPolysaccharides and Plant Cell Walls
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