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Bioethanol from maize cell walls: Genes, molecular tools, and breeding prospects
ReviewAbstract: In the last decade, cellulosic ethanol has caught the growing interest of governments and private inPalabras claves:Bioethanol, Breeding, cell wall, GENES, Lignocellulose, maize, Molecular toolsAutores:Andrés Torres Salvador, Trindade L.M., Visser R.G.F.Fuentes:scopusBreeding progress and preparedness for mass-scale deployment of perennial lignocellulosic biomass crops switchgrass, miscanthus, willow and poplar
ArticleAbstract: Genetic improvement through breeding is one of the key approaches to increasing biomass supply. ThisPalabras claves:bioenergy, feedstocks, Lignocellulose, M. sacchariflorus, M. sinensis, Miscanthus, Panicum virgatum, perennial biomass crop, Populus spp., Salix spp.Autores:Adler A., Andrés Torres Salvador, Ashman C., Awty-Carroll D., Bastien C., Bopper S., Botnari V., Brancourt-Hulmel M., Casler M.D., Chen Z., Clark L.V., Clifton-Brown J., Cosentino S., Dalton S., Davey C., Dolstra O., Donnison I., Dylan Jones H., Flavell R., Greef J., Hanley S., Harfouche A., Hastings A., Hertzberg M., Hsu T.W., Huang L.S., Iurato A., Jensen E., Jin X., Jørgensen U., Kiesel A., Kim D.S., Lewandowski I., Liu J., Macalpine W.J., McCalmont J.P., McMahon B.G., Mos M., Murphy-Bokern D., Robson P., Sacks E.J., Sandu A., Scalici G., Schwarz K., Scordia D., Shafiei R., Shield I., Slavov G., Smart L.B., Stanton B.J., Swaminathan K., Taylor G., Trindade L.M., Tschaplinski T., Tuskan G.A., Yamada T., Yeon Yu C., Zalesny R.S., Zong J.Fuentes:scopusEffect of Maize Biomass Composition on the Optimization of Dilute-Acid Pretreatments and Enzymatic Saccharification
ArticleAbstract: At the core of cellulosic ethanol research are innovations leading to reductions in the chemical andPalabras claves:Cell wall composition, Lignocellulose, maize, Pretreatment, Severity indexAutores:Andrés Torres Salvador, Dolstra O., Trindade L.M., van der Weijde T., Visser R.G.F.Fuentes:scopusGenetic complexity of miscanthus cell wall composition and biomass quality for biofuels
ArticleAbstract: Background: Miscanthus sinensis is a high yielding perennial grass species with great potential as aPalabras claves:biofuel, Biomass quality, Cell wall composition, Conversion efficiency, Genetic map, Miscanthus, Quantitative trait loci (QTL), Saccharification efficiency, YieldAutores:Andres F. Torres, Andrés Torres Salvador, Dolstra O., Gomez L., Kamei C.L.A., Maliepaard C., McQueen-Mason S., Severing E., Trindade L.M., van der Weijde T., Visser R.G.F.Fuentes:googlescopusHow cell wall complexity influences saccharification efficiency in Miscanthus sinensis
ArticleAbstract: The production of bioenergy from grasses has been developing quickly during the last decade, with MiPalabras claves:bioenergy, Cell wall polysaccharides, Lignin, Recalcitrance, SaccharificationAutores:Andres F. Torres, Andrés Torres Salvador, Buckeridge M.S., De Souza A.P., Hahn M.G., Kamei C.L.A., Pattathil S., Trindade L.M.Fuentes:googlescopusExtent of genotypic variation for maize cell wall bioconversion traits across environments and among hybrid combinations
ArticleAbstract: The utilization of maize stover as a substrate for bioenergy production demands the development of dPalabras claves:biofuel, Cell wall composition, environment, Heritability, hybrid, maizeAutores:Andres F. Torres, Andrés Torres Salvador, Dolstra O., Noordam-Boot C.M.M., Trindade L.M., Visser R.G.F., Vlaswinkel L.Fuentes:googlescopusImproving sustainability of maize to ethanol processing by plant breeding and process optimization
Conference ObjectAbstract: Efficient management of plant resources is essential for a sustainable biobased economy. The biomassPalabras claves:Bioethanol, Integration, Lignocellulosic sources, modelling, SustainabilityAutores:Andres F. Torres, Andrés Torres Salvador, Slegers P.M., Trindade L.M., Van Boxtel A.J.B.Fuentes:googlescopusImpact of Different Lignin Fractions on Saccharification Efficiency in Diverse Species of the Bioenergy Crop Miscanthus
ArticleAbstract: Lignin is a key factor limiting saccharification of lignocellulosic feedstocks. In this comparativePalabras claves:Acetyl bromide lignin, Acid detergent lignin, bioenergy, Klason lignin, Miscanthus, Saccharification efficiencyAutores:Andrés Torres Salvador, Dechesne A., Dolstra O., Trindade L.M., van der Weijde T., Visser R.G.F.Fuentes:scopusMaize feedstocks with improved digestibility reduce the costs and environmental impacts of biomass pretreatment and saccharification
ArticleAbstract: Background: Despite the recognition that feedstock composition influences biomass conversion efficiePalabras claves:Biomass yield, Cell wall digestibility, maize, Pretreatment, Refinery, TechnoeconomicAutores:Andres F. Torres, Andrés Torres Salvador, Dolstra O., Noordam-Boot C.M.M., Slegers P.M., Trindade L.M., Van Boxtel A.J.B., Visser R.G.F., Vlaswinkel L.Fuentes:googlescopusThe potential of C4 grasses for cellulosic biofuel production
ReviewAbstract: With the advent of biorefinery technologies enabling plant biomass to be processed into biofuel, manPalabras claves:biofuel, Biomass quality, C4 grasses, Lignocellulose, maize, Miscanthus, Plant breeding, YieldAutores:Alvim Kamei C.L., Andres F. Torres, Andrés Torres Salvador, Dolstra O., Trindade L.M., van der Weijde T., Vermerris W., Visser R.G.F.Fuentes:googlescopus