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How 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:googlescopusErratum: Prospects for the accelerated improvement of the resilient crop quinoa (Journal of Experimental Botany (2020) DOI: 10.1093/jxb/eraa285)
OtherAbstract: The version of this article that first published contained an error in the unit scale in Fig. 1E. ThPalabras claves:Autores:Ache P., Andrés Torres Salvador, Dockter C., Gao C., Hedrich R., Jacobsen S.E., Jørgensen M.E., López-Marqués R.L., Moog M., Nørrevang A.F., Palmgren M., Shabala S., Visintainer D., Wendt T., Østerberg J.T.Fuentes:scopusExploring the treasure of plant molecules with integrated biorefineries
ArticleAbstract: Despite significant progress toward the commercialization of biobased products, today’s biorefineriePalabras claves:Biobased economy, Biomass deconstruction, Biorefinery, Cross-disciplinary, Plant breeding, Plant compounds, Process technologyAutores:Andres F. Torres, Andrés Torres Salvador, Bitter J., Nikiforidis C., Trindade L.M., Xu X.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:googlescopusGametophytic self-incompatibility in Andean capuli (Prunus serotina subsp. capuli): Allelic diversity at the S-RNase locus influences normal pollen-tube formation during fertilization
ArticleAbstract: Capuli (Prunus serotina subsp. capuli) is a tree species that is widely distributed in the northernPalabras claves:CAPS marker, Gametophytic Self-incompatibility (GSI), Plant breeding, PRUNUS SEROTINA, S-Locus, S-RNase geneAutores:Andrés Torres Salvador, Carlos Vintimilla, José Tobar, Lisa Correa-Baus, Milton Gordillo-Romero, Torres M.L., Verónica Baquero-MéndezFuentes: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:googlescopusGenetic diversity and distribution patterns of Ecuadorian capuli (Prunus serotina)
ArticleAbstract: Prunus serotina subsp. capuli (Cav.) is an arboreal species with promising economic prospects in thePalabras claves:CAPULÍ, GENETIC DIVERSITY, Germplasm, Microsatellite, Population structure, PRUNUS SEROTINAAutores:Andres F. Torres, Andrés Torres Salvador, Bernardo M. Gutierrez, Dámaris P. Intriago-Baldeón, José Tobar, Juan José Guadalupe, Maria de Lourdes Torres, Torres M.L., Venancio ArahanaFuentes:googlescopusBreeding 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:scopusCell Wall Diversity in Forage Maize: Genetic Complexity and Bioenergy Potential
ArticleAbstract: Genetic studies are ideal platforms for assessing the extent of genetic diversity, inferring the genPalabras claves:biofuel, Cell wall composition, maize, Pretreatment, QTL, SaccharificationAutores:Andrés Torres Salvador, Combes E., Dolstra O., Dufour P., Noordam-Boot C.M.M., Trindade L.M., van der Weijde T., Visser R.G.F., Vlaswinkel L.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:scopus