Range of cell-wall alterations enhance saccharification in Brachypodium distachyon mutants
Copyright policy )Range of cell-wall alterations enhance saccharification in Brachypodium distachyon mutants
Significance Bioethanol produced from waste biomass from crops has the potential to provide a sustainable alternative to petroleum-based transportation fuel that does not compete with human food supply. The main obstacle to this approach is the resistance of this biomass to digestion. Thus, expensive energetic pretreatment and high enzyme inputs are needed to increase digestion. In this study, we screened a population of randomly mutated plants for digestibility with the aim of identifying novel factors that impact on this trait. We found a number of mutants with high digestibility and no impairments in growth or fitness. These mutants show a range of alterations in cell-wall composition, and we have mapped and characterized the mutant with the highest increase in digestibility.
- UNIVERSITE PARIS DESCARTES France
- National Research Institute for Agriculture, Food and Environment France
- Newcastle University United Kingdom
- Centre national de la recherche scientifique France
- University of York United Kingdom
570, [SDV]Life Sciences [q-bio], lignin, Lignin, Chromosomes, Plant, Cell Wall, Polysaccharides, Spectroscopy, Fourier Transform Infrared, lignocellulosic biofuel;matrix polysaccharides;lignin;feruloylation, Biomass, Cellulose, lignocellulosic biofuel, Plant Proteins, 580, Principal Component Analysis, [ SDV ] Life Sciences [q-bio], Plant Stems, Monosaccharides, Chromosome Mapping, Glycosyltransferases, feruloylation, lignine, saccharification, biocarburant, Biofuels, Mutation, Carbohydrate Metabolism, matrix polysaccharides, Brachypodium
570, [SDV]Life Sciences [q-bio], lignin, Lignin, Chromosomes, Plant, Cell Wall, Polysaccharides, Spectroscopy, Fourier Transform Infrared, lignocellulosic biofuel;matrix polysaccharides;lignin;feruloylation, Biomass, Cellulose, lignocellulosic biofuel, Plant Proteins, 580, Principal Component Analysis, [ SDV ] Life Sciences [q-bio], Plant Stems, Monosaccharides, Chromosome Mapping, Glycosyltransferases, feruloylation, lignine, saccharification, biocarburant, Biofuels, Mutation, Carbohydrate Metabolism, matrix polysaccharides, Brachypodium
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