Abstract
Lignin and lignin-carbohydrate complexes are important polymers for lignocellulosic biorefinery and functional materials, but those in ginkgo shells are not effectively analyzed and exploited. Based on this background, milled wood lignins (MWLML and MWLFZ) and lignin-carbohydrate complexes (LCCML and LCCFZ) were isolated from the shells of Ginkgo biloba L. cv. Damaling (ML) and Ginkgo biloba L. cv. Dafozhi (FZ) correspondingly, and were structurally characterized by comprehensive NMR spectroscopy. The results showed that ginkgo shells exhibited higher lignin (42%) and xylan (20%) content than general softwood species. Isolated MWLs were rich in guaiacyl units with the presence of ferulates and p-coumarates, and the molecular formula was C9H7.93O2.73(OCH3)0.81 and C9H7.87O2.76(OCH3)0.88 for MWLML and MWLFZ, respectively. Phenolic hydroxyl of MWLML (1.38 mmol/g) and MWLFZ (1.23 mmol/g) in ginkgo shells was much less than that in general softwoods, suggesting a higher etherification and condensation degree of ginkgo shells lignin, and β-5′, α-O-4′, and 4-O-5′ bonds were the main condensed structures. O-acetylated β-d-xylopyranoside and β-d-mannopyranoside were the main polysaccharides associated with lignin, and the acetyl groups frequently acylate the C2 and C3 positions. LCCML had more phenyl glycoside (0.035/Ar) and less γ-ester (0.026/Ar) linkages than LCCFZ.
Highlights
Lignocellulosic biomass is one of the economically viable and environmentally sustainable feedstocks for replacing fossil resources
4-O-methylgluconoxylan was the main associated carbohydrate in poplar main associated carbohydrate in poplar lignin-carbohydrate complex (LCC). These results indicated that the structural properties of. These results indicated that the structural properties of LCCbiorefinery are dependent on the such plantas species, LCC are dependent on the plant species, resulting in different processes, those resulting in the different biorefinery processes, such as those the efficiency of enzymatic influencing efficiency of enzymatic saccharification andinfluencing the interaction of lignin with cellulase saccharification and the interaction of lignin with cellulase [40]
Ginkgo shells analyzed in this work have a higher lignin and xylan content but less cellulose when compared with general softwoods
Summary
Lignocellulosic biomass is one of the economically viable and environmentally sustainable feedstocks for replacing fossil resources. The ginkgo shells have high antioxidant activity, protecting the fruit in ginkgo shells from pathogens These phenomena indicate that the biosynthesis of lignin in ginkgo shells may be different from that in general softwoods, resulting in different chemical compositions, physicochemical properties, and biological activities. These structural properties have important effects on biorefinery and materials production of lignin. Dafozhi) in this work and structurally characterized by comprehensive NMR spectroscopy (1 H, 13 C, 2D HSQC, and 31 P) to identify and quantify the lignin structure and LCC linkages
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