In situ micro-spectroscopic investigation of lignin in poplar cell walls pretreated by maleic acid
Yining Zeng, Shuai Zhao, Hui Wei, Melvin P. Tucker, Michael E. Himmel, Nathan S. Mosier, Richard Meilan, Shi-You Ding

TL;DR
This study uses micro-spectroscopy to investigate how maleic acid pretreatment changes lignin structures in poplar cell walls, which could improve biomass breakdown for biofuel production.
Contribution
The study introduces a novel micro-spectroscopic method to distinguish and track dense and loosely packed lignin forms during acid pretreatment.
Findings
Maleic acid pretreatment modifies dense lignin into loosely packed lignin at low concentrations.
High acid concentrations remove both dense and loosely packed lignin, forming lignin–carbohydrate complex droplets.
Loosely packed lignin removal increases enzyme accessibility for biomass digestion.
Abstract
In higher plant cells, lignin provides necessary physical support for plant growth and resistance to attack by microorganisms. For the same reason, lignin is considered to be a major impediment to the process of deconstructing biomass to simple sugars by hydrolytic enzymes. The in situ variation of lignin in plant cell walls is important for better understanding of the roles lignin play in biomass recalcitrance. A micro-spectroscopic approach combining stimulated Raman scattering microscopy and fluorescence lifetime imaging microscopy was employed to probe the physiochemical structure of lignin in poplar tracheid cell walls. Two forms of lignins were identified: loosely packed lignin, which had a long (4 ns) fluorescence lifetime and existed primarily in the secondary wall layers; and dense lignin, which had a short (0.5–1 ns) fluorescence lifetime and was present in all wall layers,…
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Taxonomy
TopicsLandfill Environmental Impact Studies · Peatlands and Wetlands Ecology
