Antibacterial effects of coniferyl alcohol-derived dehydrogenation polymer on chlamydial infection in vitro [PDF]
Frontiers in ChemistryBackgroundChlamydia trachomatis, Gram-negative obligate intracellular bacteria, are a leading cause of sexually transmitted diseases worldwide, often causing severe complications.
Anna Pfundner +9 more
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Selective Extraction of Coniferyl Alcohol and Sinapyl Alcohol from Woody Lignocellulose
Taiyuan Ligong Daxue xuebao, 2023 Lignin is a renewable aromatic polymer that can produce fine chemicals. However, owing to the complex chemical structure of lignin, derivation and deep cracking of depolymerized monomers, the depolymerization and utilization of lignin generally suffer ...
Yan ZHANG +3 more
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Effect of phenolic anchor groups on enzymatic polymerization of coniferyl alcohol at cellulosic interfaces [PDF]
Scientific ReportsThe chemical recalcitrance of lignin limits the industrial processing of biomass, which could be addressed by so-called designer lignins. Dehydrogenation polymers (DHPs) formed by artificial lignification of monolignols, enable studies on structure ...
Thomas Elschner +5 more
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Chemical Synthesis of Monolignols: Traditional Methods, Recent Advances, and Future Challenges in Sustainable Processes [PDF]
AntioxidantsMonolignols represent pivotal alcohol-based constituents in lignin synthesis, playing indispensable roles in plant growth and development with profound implications for industries reliant on wood and paper.
Davide Benedetto Tiz +3 more
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Structural Properties of Coniferyl Alcohol-Based Low Transition Temperature Mixtures [PDF]
ACS OmegaKosuke Ikeda +7 more
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Correction: Antibacterial effects of coniferyl alcohol-derived dehydrogenation polymer on chlamydial infection in vitro [PDF]
Frontiers in ChemistryAnna Pfundner +9 more
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Reducing the Sinapine Levels of Camelina sativa Seeds Through Targeted Genome Editing of REF1. [PDF]
Plant Biotechnol JABSTRACT Sinapine (O‐sinapoyl choline) is the major phenolic metabolite typically found in the oil‐rich seeds of Brassicaceae such as Camelina sativa and Brassica napus. It imparts a bitter taste to the seeds as a defence mechanism against herbivores, but it also renders them less palatable to livestock.
Kelly AA +5 more
europepmc +2 more sources
Biosynthesis of tetrahydrobenzofuran neolignans in somatic embryos of Ocotea catharinensis
Eclética Química, 2022 Somatic embryos of Ocotea catharinensis were used as a model to investigate the biosynthetic pathway of tetrahydrobenzofuran neolignan formation by means of feeding 13C-labelled precursors followed by analysis using MS and 13C NMR. Isotopomers of L-[13C]-
Érica Luiz dos Santos +2 more
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Journal of Wood Science, 2022 To establish a facile methodology for the elucidation of the lignin chain-growth mechanism, the preparation of monolignol that does not show NMR signals in the dehydrogenative polymer (DHP) was attempted.
Kengo Shigetomi +2 more
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The Formation of Covalent Linkages in Lignocellulosic Biomass via the Oxocarbenium Intermediate. [PDF]
ChemphyschemDensity functional theory models show that the hydrated and acidic hemicellulose matrix in lignocellulosic biomass can generate oxocarbenium ions. These reactive intermediates can participate in the stable formation of glycosidic lignin‐carbohydrate covalent linkages, promoting recalcitrance in plant biomass.
Romero-Montalvo E, Mushrif SH.
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