Bodo Saake scite author profile

The reactivity and physicochemical properties of lignins are partly governed by their molar mass distribution. The development of reliable standard methods for determination of the molar mass distribution is not only relevant for designing technical lignins for specific applications, but also for monitoring and elucidating delignification and pulping processes. Size-exclusion chromatography (SEC) offers many advantages, such as wide availability, short analysis time, low sample demand, and determination of molar mass distribution over a wide range. A collaborative study has been undertaken within the “Eurolignin” European thematic network to standardise SEC analysis of technical lignins. The high-molar-mass fraction of polydisperse lignins was shown to be the main source of intra- and interlaboratory variations, depending on the gel type, elution solvent, detection mode, and calculation strategy. The reliability of two widespread systems have been tested: one based on alkali and a hydrophilic gel (e.g., TSK Toyopearl gel) and the other based on THF as solvent and polystyrene-based gels (e.g., Styragel). A set of practical recommendations has been deduced.

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Lytic polysaccharide monooxygenases disrupt the cellulose fibers structure

Villares

Moreau

Bennati-Granier

et al. 2017

Sci Rep

198

163

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Lytic polysaccharide monooxygenases (LPMOs) are a class of powerful oxidative enzymes that breakdown recalcitrant polysaccharides such as cellulose. Here we investigate the action of LPMOs on cellulose fibers. After enzymatic treatment and dispersion, LPMO-treated fibers show intense fibrillation. Cellulose structure modifications visualized at different scales indicate that LPMO creates nicking points that trigger the disintegration of the cellulose fibrillar structure with rupture of chains and release of elementary nanofibrils. Investigation of LPMO action using solid-state NMR provides direct evidence of modification of accessible and inaccessible surfaces surrounding the crystalline core of the fibrils. The chains breakage likely induces modifications of the cellulose network and weakens fibers cohesion promoting their disruption. Besides the formation of new initiation sites for conventional cellulases, this work provides the first evidence of the direct oxidative action of LPMOs with the mechanical weakening of the cellulose ultrastructure. LPMOs can be viewed as promising biocatalysts for enzymatic modification or degradation of cellulose fibers.

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Carbohydrate analysis of plant materials with uronic acid-containing polysaccharides–A comparison between different hydrolysis and subsequent chromatographic analytical techniques

Willför

Pranovich

Tamminen

et al. 2009

Industrial Crops and Products

246

151

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Reactivity enhancement of organosolv lignin by phenolation for improved bio-based thermosets

Podschun¹,

Saake²,

Lehnen

2015

European Polymer Journal

126

108

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Comparison testing of methods for gel permeation chromatography of cellulose: coming closer to a standard protocol

et al. 2015

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Bodo Saake

Molar mass determination of lignins by size-exclusion chromatography: towards standardisation of the method

Lytic polysaccharide monooxygenases disrupt the cellulose fibers structure

Carbohydrate analysis of plant materials with uronic acid-containing polysaccharides–A comparison between different hydrolysis and subsequent chromatographic analytical techniques

Reactivity enhancement of organosolv lignin by phenolation for improved bio-based thermosets

Comparison testing of methods for gel permeation chromatography of cellulose: coming closer to a standard protocol

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